twgs-proxy/flexible.py

from twisted.internet import reactor
from twisted.internet import task
from twisted.internet import defer
from colorama import Fore, Back, Style
# from twisted.python import log
from twisted.internet.task import coiterate
from twisted.internet.defer import gatherResults

from itertools import cycle
import pendulum
from pprint import pformat
from galaxy import GameData, PORT_CLASSES, CLASSES_PORT
from boxes import Boxes
import logging
from time import localtime

BLINK = '\x1b[5m'
log = logging.getLogger(__name__)

class SpinningCursor(object):
    """ Spinner class, that handles every so many clicks 
    
    s = SpinningCursor(5)  # every 5
    for x in range(10):
        if s.click():
            print(s.cycle())

    """
    def __init__(self, every=10):
        self.itercycle = cycle(["/", "-", "\\", "|"])
        self.count = 0
        self.every = every

    def reset(self):
        self.itercycle = cycle(["/", "-", "\\", "|"])
        self.count = 0

    def click(self):
        self.count += 1
        return self.count % self.every == 0

    def cycle(self):
        return next(self.itercycle)

    def again(self, count: int):
        return self.count % count == 0

def merge(color_string):
    """ Given a string of colorama ANSI, merge them if you can. """
    return color_string.replace("m\x1b[", ";")


class PlayerInput(object):
    """ Player Input 

    Example:
    from flexible import PlayerInput

    ask = PlayerInput(self.game)
    # abort_blank means, if the input field is blank, abort.  Use error_back.
    d = ask.prompt("What is your quest?", 40, name="quest", abort_blank=True)

    # Display the user's input / but not needed.
    d.addCallback(ask.output)

    d.addCallback(
        lambda ignore: ask.prompt(
            "What is your favorite color?", 10, name="color"
        )
    )
    d.addCallback(ask.output)

    d.addCallback(
        lambda ignore: ask.prompt(
            "What is your least favorite number?",
            12,
            name="number",
            digits=True,
        )
    )
    d.addCallback(ask.output)

    def show_values(show):
        log.debug(show)
        self.queue_game.put(pformat(show).replace("\n", "\n\r") + self.nl)

    d.addCallback(lambda ignore: show_values(ask.keep))
    d.addCallback(self.welcome_back)

    # On error, just return back
    d.addErrback(self.welcome_back)    
    """
    def __init__(self, game):
        # I think game gives us access to everything we need
        self.game = game
        self.observer = self.game.observer
        self.save = None
        self.deferred = None
        self.queue_game = game.queue_game
        self.keep = {}

        # default colors
        # prompt
        self.c = merge(Style.BRIGHT + Fore.WHITE + Back.BLUE)
        # input
        self.cp = merge(Style.BRIGHT + Fore.YELLOW + Back.BLUE)

        # useful constants
        self.r = Style.RESET_ALL
        self.nl = "\n\r"
        self.bsb = "\b \b"

        self.keepalive = None

    def color(self, c):
        self.c = c

    def colorp(self, cp):
        self.cp = cp

    def alive(self):
        log.debug("PlayerInput.alive()")
        self.game.queue_player.put(" ")

    def prompt(self, user_prompt, limit, **kw):
        """ Generate prompt for user input.

        Note:  This returns deferred.

        prompt = text displayed.
        limit = # of characters allowed.
        default = (text to default to)

        keywords:
        abort_blank : Abort if they give us blank text.
        name : Stores the input in self.keep dict.
        digits : Only allow 0-9 to be entered.

        """
        log.debug("PlayerInput({0}, {1}, {2}".format(user_prompt, limit, kw))
        self.limit = limit
        self.input = ""
        self.kw = kw
        assert self.save is None
        assert self.keepalive is None

        # Note: This clears out the server "keep alive"
        self.save = self.observer.save()
        self.observer.connect("player", self.get_input)

        self.keepalive = task.LoopingCall(self.alive)
        self.keepalive.start(30)

        # We need to "hide" the game output.
        # Otherwise it WITH mess up the user input display.
        self.to_player = self.game.to_player
        self.game.to_player = False

        # Display prompt
        # self.queue_game.put(self.r + self.nl + self.c + user_prompt + " " + self.cp)
        self.queue_game.put(self.r + self.c + user_prompt + self.r + " " + self.cp)
        # Set "Background of prompt"
        self.queue_game.put(" " * limit + "\b" * limit)

        assert self.deferred is None
        d = defer.Deferred()
        self.deferred = d
        log.debug("Return deferred ...")
        return d

    def get_input(self, chunk):
        """ Data from player (in bytes) """
        chunk = chunk.decode("latin-1", "ignore")

        for ch in chunk:
            if ch == "\b":
                if len(self.input) > 0:
                    self.queue_game.put(self.bsb)
                    self.input = self.input[0:-1]
                else:
                    self.queue_game.put("\a")
            elif ch == "\r":
                self.queue_game.put(self.r + self.nl)
                log.debug("Restore observer dispatch {0}".format(self.save))
                assert not self.save is None
                self.observer.load(self.save)
                self.save = None
                log.debug("Disable keepalive")
                self.keepalive.stop()
                self.keepalive = None
                line = self.input
                self.input = ""
                assert not self.deferred is None
                self.game.to_player = self.to_player

                # If they gave us the keyword name, save the value as that name
                if "name" in self.kw:
                    self.keep[self.kw["name"]] = line

                if "abort_blank" in self.kw and self.kw["abort_blank"]:
                    # Abort on blank input
                    if line.strip() == "":
                        # Yes, input is blank, abort.
                        log.info("errback, abort_blank")
                        reactor.callLater(
                            0, self.deferred.errback, Exception("abort_blank")
                        )
                        self.deferred = None
                        return

                # Ok, use deferred.callback, or reactor.callLater?
                # self.deferred.callback(line)
                reactor.callLater(0, self.deferred.callback, line)
                self.deferred = None
                return
            elif ch.isprintable():
                # Printable, but is it acceptable?
                if "digits" in self.kw:
                    if not ch.isdigit():
                        self.queue_game.put("\a")
                        continue

                if len(self.input) + 1 <= self.limit:
                    self.input += ch
                    self.queue_game.put(ch)
                else:
                    self.queue_game.put("\a")

    def output(self, line):
        """ A default display of what they just input. """
        log.debug("PlayerInput.output({0})".format(line))
        self.game.queue_game.put(self.r + "[{0}]".format(line) + self.nl)
        return line


import re

# The CIMWarpReport -- is only needed if the json file gets damaged in some way.
# Like when the universe gets bigbanged. :P
# or needs to be reset.  The warps should automatically update themselves now.

class CIMWarpReport(object):
    def __init__(self, game):
        self.game = game
        self.queue_game = game.queue_game
        self.queue_player = game.queue_player
        self.observer = game.observer
        # Yes, at this point we would activate
        self.prompt = game.buffer
        self.save = self.observer.save()
        self.days = ('Mon', 'Tues', 'Wed', 'Thurs', 'Fri', 'Sat', 'Sun')

        # I actually don't want the player input, but I'll grab it anyway.
        self.observer.connect("player", self.player)

        self.observer.connect("prompt", self.game_prompt)
        self.observer.connect("game-line", self.game_line)

        # If we want it, it's here.
        self.defer = None
        self.to_player = self.game.to_player

        # Hide what's happening from the player
        self.game.to_player = False

        self.queue_player.put("^")  # Activate CIM
        self.state = 1
        # self.warpdata = {}
        tm = localtime()
        log.debug("Today is {0}".format(self.days[tm[6]]))
        self.queue_game.put("Loading  ")  # cycle eats last char.
        self.warpcycle = SpinningCursor()

    def game_prompt(self, prompt):
        if prompt == ": ":
            if self.state == 1:
                # Ok, then we're ready to request the port report
                self.warpcycle.reset()
                self.queue_player.put("I")
                self.state = 2
            elif self.state == 2:
                self.queue_player.put("Q")
                self.state = 3
        if re.match(r"Command \[TL=.* \(\?=Help\)\? :", prompt):
            if self.state == 3:
                # Ok, time to exit
                # exit from this...
                self.game.to_player = self.to_player
                self.observer.load(self.save)
                self.save = None
                # self.game.warpdata = self.warpdata
                self.queue_game.put("\b \b\r\n")

                if not self.defer is None:
                    self.defer.callback(self.game.gamedata.warps)
                    self.defer = None

    def game_line(self, line):
        if line == "" or line == ": ":
            return
        if line == ": ENDINTERROG":
            return
        if line.startswith('Command [TL='):
            return

        # This should be the CIM Report Data -- parse it
        if self.warpcycle:
            if self.warpcycle.click():
                self.queue_game.put("\b")
                if self.warpcycle.again(1000):
                    self.queue_game.put(".")
                self.queue_game.put(self.warpcycle.cycle())

        work = line.strip()
        parts = re.split(r"(?<=\d)\s", work)
        parts = [int(x) for x in parts]
        sector = parts.pop(0)
        # tuples are nicer on memory, and the warpdata map isn't going to be changing.
        # self.warpdata[sector] = tuple(parts)
        self.game.gamedata.warp_to(sector, *parts)

    def __del__(self):
        log.debug("CIMWarpReport {0} RIP".format(self))

    def whenDone(self):
        self.defer = defer.Deferred()
        # Call this to chain something after we exit.
        return self.defer

    def player(self, chunk):
        """ Data from player (in bytes). """
        chunk = chunk.decode("latin-1", "ignore")
        key = chunk.upper()
        log.warn("CIMWarpReport.player({0}) : I AM stopping...".format(key))

        # Stop the keepalive if we are activating something else
        # or leaving...
        # self.keepalive.stop()

        self.queue_game.put("\b \b\r\n")

        if not self.defer is None:
            # We have something, so:
            self.game.to_player = self.to_player
            self.observer.load(self.save)
            self.save = None
            self.defer.errback(Exception("User Abort"))
            self.defer = None
        else:
            # Still "exit" out.
            self.game.to_player = self.to_player
            self.observer.load(self.save)

# the CIMPortReport will still be needed.
# We can't get fresh report data (that changes) any other way.

class CIMPortReport(object):
    """ Parse data from CIM Port Report 

    Example:

    from flexible import CIMPortReport

    report = CIMPortReport(self.game)
    d = report.whenDone()
    d.addCallback(self.port_report)
    d.addErrback(self.welcome_back)    

    def port_report(self, portdata):
        self.portdata = portdata
        self.queue_game.put("Loaded {0} records.".format(len(portdata)) + self.nl)
        self.welcome_back()

    def welcome_back(self,*_):
        ... restore keep alive timers, etc.
    """
    def __init__(self, game):
        self.game = game
        self.queue_game = game.queue_game
        self.queue_player = game.queue_player
        self.observer = game.observer
        # Yes, at this point we would activate
        self.prompt = game.buffer
        self.save = self.observer.save()
        self.days = ('Mon', 'Tues', 'Wed', 'Thurs', 'Fri', 'Sat', 'Sun')

        # I actually don't want the player input, but I'll grab it anyway.
        self.observer.connect("player", self.player)

        self.observer.connect("prompt", self.game_prompt)
        self.observer.connect("game-line", self.game_line)

        # If we want it, it's here.
        self.defer = None
        self.to_player = self.game.to_player
        log.debug("to_player (stored) {0}".format(self.to_player))

        # Hide what's happening from the player
        self.game.to_player = False

        self.queue_player.put("^")  # Activate CIM
        self.state = 1
        # self.portdata = {}
        tm = localtime()
        log.debug("Today is {0}".format(self.days[tm[6]]))
        self.queue_game.put("Loading  ")  # cycle eats last char.
        self.portcycle = SpinningCursor()

    def game_prompt(self, prompt):
        if prompt == ": ":
            if self.state == 1:
                # Ok, then we're ready to request the port report
                self.portcycle.reset()
                self.queue_player.put("R")
                self.state = 2
            elif self.state == 2:
                self.queue_player.put("Q")
                self.state = 3
        if re.match(r"Command \[TL=.* \(\?=Help\)\? :", prompt):
            if self.state == 3:
                # Ok, time to exit
                # exit from this...
                self.game.to_player = self.to_player
                self.observer.load(self.save)
                self.save = None
                # self.game.portdata = self.portdata
                self.queue_game.put("\b \b\r\n")

                if not self.defer is None:
                    self.defer.callback(self.game.gamedata.ports)
                    self.defer = None

    def game_line(self, line: str):
        if line == "" or line == ": ":
            return
        if line == ": ENDINTERROG":
            return

        # This should be the CIM Report Data -- parse it
        if self.portcycle:
            if self.portcycle.click():
                self.queue_game.put("\b")
                if self.portcycle.again(1000):
                    self.queue_game.put(".")
                self.queue_game.put(self.portcycle.cycle())

        work = line.replace("%", "")

        parts = re.split(r"(?<=\d)\s", work)

        if len(parts) == 8:
            port = int(parts[0].strip())
            data = dict()

            def portBS(info):
                if info[0] == "-":
                    bs = "B"
                else:
                    bs = "S"
                return (bs, int(info[1:].strip()))

            data["fuel"] = dict()
            data["fuel"]["sale"], data["fuel"]["units"] = portBS(parts[1])
            data["fuel"]["pct"] = int(parts[2].strip())
            data["org"] = dict()
            data["org"]["sale"], data["org"]["units"] = portBS(parts[3])
            data["org"]["pct"] = int(parts[4].strip())
            data["equ"] = dict()
            data["equ"]["sale"], data["equ"]["units"] = portBS(parts[5])
            data["equ"]["pct"] = int(parts[6].strip())

            # Store what this port is buying/selling
            data["port"] = (
                data["fuel"]["sale"] + data["org"]["sale"] + data["equ"]["sale"]
            )

            # Convert BBS/SBB to Class number 1-8
            data["class"] = CLASSES_PORT[data["port"]]
            self.game.gamedata.set_port(port, data)
            # self.portdata[port] = data
        else:
            log.error("CIMPortReport: {0} ???".format(line))

    def __del__(self):
        log.debug("CIMPortReport {0} RIP".format(self))

    def whenDone(self):
        self.defer = defer.Deferred()
        # Call this to chain something after we exit.
        return self.defer

    def player(self, chunk):
        """ Data from player (in bytes). """
        chunk = chunk.decode("latin-1", "ignore")
        key = chunk.upper()
        log.warn("CIMPortReport.player({0}) : I AM stopping...".format(key))

        # Stop the keepalive if we are activating something else
        # or leaving...
        # self.keepalive.stop()

        self.queue_game.put("\b \b\r\n")

        if not self.defer is None:
            # We have something, so:
            self.game.to_player = self.to_player
            self.observer.load(self.save)
            self.save = None
            self.defer.errback(Exception("User Abort"))
            self.defer = None
        else:
            # Still "exit" out.
            self.game.to_player = self.to_player
            self.observer.load(self.save)


class ScriptPort(object):
    """ Performs the Port script. 
    
        This is close to the original.
        We don't ask for the port to trade with --
        because that information is available to us after "D" (display).
        We look at the adjacent sectors, and see if we know any ports.
        If the ports are burnt (< 20%), we remove them from the list.
        We sort the best trades first.
        If there's just one, we use it.  Otherwise we ask them to choose.

        We have options Trade_UseFirst, which uses the first one, if 
        there is more then one.
        Option Trade_Turns, will use this as default turns, without 
        asking.

        state = 1   "D"
                    Get current sector, store possible warps.
        state = 2   Done with display sector.
                    Look for possible trades.
                    If possible, or only one, state to 3.
        state = 3   Command prompt, state = 4
                    Prompt for port to trade with (If not Trade_UserFirst).
                    Port found/given to trade with, state = 5, trade()

        trade()     "PT"

        state = 5   "-----" in line, state = 6

        state = 6   "We are buying", "\r" (sell all!), state = 7
                    "We are selling", state = 8

        state = 7   "Haggle sell"
                    "We are buying", "\r" (sell all!), state = 7
                    "We are selling", state = 8
        
        state = 8   "Haggle buy"
                    Done, if times_left > 0 then
                    move and state = 10



    """
    def __init__(self, game):
        self.game = game
        self.queue_game = game.queue_game
        self.queue_player = game.queue_player
        self.observer = game.observer
        self.r = Style.RESET_ALL
        self.nl = "\n\r"

        self.this_sector = None     # Starting sector
        self.sector1 = None         # Current Sector
        self.sector2 = None         # Next Sector Stop
        self.percent = self.game.gamedata.get_config('Trade_Percent', '5')
        self.stop = self.game.gamedata.get_config('Trade_Stop', '10')

        try:
            self.stop = int(self.stop)
        except ValueError:
            self.stop = 10

        # Validate what we got from the config.
        # Not an int:  make it 5, and update.
        # > 50, make it 5 and update.
        # < 0, make it 0 and update.

        update_config = False
        try:
            self.percent = int(self.percent)
        except ValueError:
            self.percent = 5
            update_config = True

        if self.percent > 50:
            self.percent = 5
            update_config = True
        if self.percent < 0:
            self.percent = 0
            update_config = True

        if update_config:
            self.game.gamedata.set_config('Trade_Percent', self.percent)

        self.credits = 0
        self.last_credits = None
        self.times_left = 0

        # Activate
        self.prompt = game.buffer
        self.save = self.observer.save()
        self.observer.connect('player', self.player)
        self.observer.connect("prompt", self.game_prompt)
        self.observer.connect("game-line", self.game_line)

        self.defer = None
        self.send2player(self.r + "Script based on: Port Pair Trading v2.00" + self.nl)

        self.possible_sectors = None

        self.state = 1
        self.queue_player.put("D")
        # Original, send 'D' to display current sector.  
        # We could get the sector number from the self.prompt string -- HOWEVER:
        # IF! We send 'D', we can also get the sectors around -- we might not even need to
        # prompt for sector to trade with (we could possibly figure it out ourselves).
        # [Command [TL=00:00:00]:[967] (?=Help)? : D]
        # [<Re-Display>]
        # []
        # [Sector  : 967 in uncharted space.]
        # [Planets : (M) Into the Darkness]
        # [Warps to Sector(s) :  397 - (562) - (639)]
        # []        

    def whenDone(self):
        self.defer = defer.Deferred()
        # Call this to chain something after we exit.
        return self.defer

    def deactivate(self, andExit=True):
        self.state = 0
        log.debug("ScriptPort.deactivate ({0})".format(self.times_left))
        self.queue_game.put(self.nl + Boxes.alert("Trading Script deactivating..."))
        assert(not self.save is None)
        self.observer.load(self.save)
        self.save = None
        if self.defer:
            if andExit:
                self.defer.callback({'exit':True})
            else:
                self.defer.callback('done')
            self.defer = None

    def player(self, chunk: bytes):
        # If we receive anything -- ABORT!
        self.deactivate()
    
    def send2game(self, txt):
        log.debug("ScriptPort.send2game({0})".format(txt))
        self.queue_player.put(txt)

    def send2player(self, txt):
        log.debug("ScriptPort.send2player({0})".format(txt))
        self.queue_game.put(txt)

    def game_prompt(self, prompt: str):
        log.debug("{0} : {1}".format(self.state, prompt))
        if self.state == 3:
            # log.("game_prompt: ", prompt)
            if re.match(r"Command \[TL=.* \(\?=Help\)\? :", prompt):
                self.state = 4
                log.debug("Ok, state 4")

                use_first = self.game.gamedata.get_config('Trade_UseFirst', 'N').upper()[0] == 'Y'
                if self.sector2 is None and use_first:
                    # Use the first one by default
                    self.sector2 = self.possible[0]
                    log.info("default to {0}".format(self.sector2))

                if self.sector2 is None:
                    # Ok, we need to prompt for this.
                    self.queue_game.put(self.r + self.nl + 
                        "Which sector to trade with? {0}".format(GameData.port_show_part(self.this_sector, self.game.gamedata.ports[self.this_sector])) +
                        self.nl)
                    for i, p in enumerate(self.possible):
                        self.queue_game.put(" " + Fore.CYAN + str(i + 1) + " : " + GameData.port_show_part(p, self.game.gamedata.ports[p]) + self.nl)
                    
                    pi = PlayerInput(self.game)
                    def got_need1(*_):
                        log.debug("Ok, I have: {0}".format(pi.keep))
                        if pi.keep['count'].strip() == '':
                            self.deactivate()
                            return
                        self.times_left = int(pi.keep['count'])
                        if pi.keep['choice'].strip() == '':
                            self.deactivate()
                            return
                        c = int(pi.keep['choice']) -1
                        if c < 0 or c >= len(self.possible):
                            self.deactivate()
                            return

                        self.sector2 = self.possible[int(pi.keep['choice']) -1]
                        # self.queue_game.put(pformat(pi.keep).replace("\n", "\n\r"))                        
                        self.state = 5
                        self.trade()

                    d = pi.prompt("Choose -=>", 5, name='choice', digits=True)
                    d.addCallback(lambda ignore: pi.prompt("Times to execute script:", 5, name='count', digits=True))
                    d.addCallback(got_need1)
                else:
                    # We already have our target port, so...

                    self.queue_game.put(self.r + self.nl + "Trading from {0} ({1}) to default {2} ({3}).".format(
                        self.this_sector, 
                        self.game.gamedata.ports[self.this_sector]['port'],
                        self.sector2, self.game.gamedata.ports[self.sector2]['port']) + self.nl
                        )

                    self.queue_game.put(self.r + self.nl + "Trading {0}".format(
                        self.game.gamedata.port_trade_show(self.this_sector,
                        self.sector2, 0)
                    ))

                    pi = PlayerInput(self.game)
                    def got_need2(*_):
                        if pi.keep['count'].strip() == '':
                            self.deactivate()
                            return
                        self.times_left = int(pi.keep['count'])
                        log.debug("Ok, I have: {0}".format(pi.keep))
                        # self.queue_game.put(pformat(pi.keep).replace("\n", "\n\r"))
                        self.state = 5
                        self.trade()

                    self.queue_game.put(self.r + self.nl)

                    default_turns = self.game.gamedata.get_config('Trade_Turns', '0')
                    if default_turns == '0':
                        # No default given, ask.
                        d = pi.prompt("Times to execute script", 5, name='count')    
                        d.addCallback(got_need2)
                    else:
                        try:
                            self.times_left = int(default_turns)
                        except ValueError:
                            self.times_left = 30
                        self.state = 5
                        self.trade()

        elif self.state == 6:
            if re.match(r"Command \[TL=.* \(\?=Help\)\? :", prompt):
                if self.end_trans:
                    self.deactivate()
                    return

                if self.fixable:
                    # self.queue_game.put("Ok! Let's fix this by going to the other sector..." + self.nl)
                    self.queue_game.put(self.nl + Boxes.alert("Ok, FINE.  We'll trade with the other port.", base="green", style=0))
                    log.debug("Fixing...")

                    # Swap this and other sector
                    self.this_sector, self.other_sector = (self.other_sector, self.this_sector)

                    self.queue_player.put("{0}\r".format(self.sector2))
                    self.state = 5
                    self.trade()

        elif self.state == 7:
            if re.match(r"Command \[TL=.* \(\?=Help\)\? :", prompt):
                # Done
                if self.end_trans:
                    self.deactivate()
                    return

                # Swap this and other sector
                self.this_sector, self.other_sector = (self.other_sector, self.this_sector)

                if self.this_sector == self.sector2:
                    self.times_left -= 1
                    if self.times_left <= 0:
                        # Ok, exit out
                        self.deactivate()
                        return
                    if self.last_credits is None:
                        self.last_credits = self.credits
                    else:
                        if self.credits <= self.last_credits:
                            log.warn("We don't seem to be making any money here...")
                            self.queue_game.put(self.r + self.nl + "We don't seem to be making any money here.  I'm stopping!" + self.nl)
                            self.deactivate()
                            return

                self.queue_player.put("{0}\r".format(self.this_sector))
                self.state = 10

            elif re.match(r'Your offer \[\d+\] \?', prompt):
                log.info("Your offer? [{0}]".format(self.fix_offer))
                if self.fix_offer:
                    # Make real offer / WHAT?@?!
                    work = prompt.replace(',', '')
                    parts = re.split(r"\s+", work)
                    amount = parts[2]
                    # Ok, we have the amount, now to figure pct...
                    if self.sell_percent > 100:
                        self.sell_percent -= 1
                    else:
                        self.sell_percent += 1
                    price = amount * self.sell_percent // 100
                    log.debug("start: {0} % {1} price {2}".format(amount, self.sell_percent, price))
                    if self.sell_percent > 100:
                        self.sell_percent -= 1
                    else:
                        self.sell_percent += 1
                    self.queue_player.put("{0}\r".format(price))                    
            # elif re.match(r"How many holds of .+ do you want to sell \[\d+\]\?", prompt):
            #    log.info("Sell everything we can...")
            #    this seems to screw up the sync of everything.
            #    self.queue_player.put("\r")

        elif self.state == 8:
            # What are we trading
            # How many holds of Equipment do you want to buy [75]?
            if re.match(r"How many holds of .+ do you want to buy \[\d+\]\?", prompt):
                parts = prompt.split()
                trade_type = parts[4]
                log.info("Buy {0} [{1} ~ {2}]".format(trade_type, self.tpc, self.opc))
                if trade_type == 'Fuel':
                    if (self.tpc in (5,7)) and (self.opc in (2,3,4,8)):
                        # Can buy equipment - fuel ore is worthless.
                        self.queue_player.put("0\r")
                        return
                    if (self.tpc in(4,7)) and (self.opc in (1,3,5,8)):
                        # Can buy organics - fuel ore is worthless.
                        self.queue_player.put("0\r")
                        return
                    if (self.tpc in (4,7,3,5)) and (self.opc in (3,4,5,7)):
                        # No point in buying fuel ore if it can't be sold.
                        self.queue_player.put("0\r")
                        return
                elif trade_type == 'Organics':
                    if (self.tpc in (6,7)) and (self.opc in (2,3,4,8)):
                        # Can buy equipment - organics is worthless.
                        self.queue_player.put("0\r")
                        return
                    if (self.tpc in (2,4,6,7)) and (self.opc in (2,4,6,7)):
                        # No point in buying organics if it can't be sold.
                        self.queue_player.put("0\r")
                        return
                elif trade_type == 'Equipment':
                    if (self.opc in (1,5,6,7)):
                        # No point in buying equipment if it can't be sold.
                        self.queue_player.put("0\r")
                        return

                self.queue_player.put("\r")
            elif re.match(r"Command \[TL=.* \(\?=Help\)\? :", prompt):
                # Done
                if self.end_trans:
                    self.deactivate()
                    return

                # Swap this and other sector
                self.this_sector, self.other_sector = (self.other_sector, self.this_sector)

                if self.this_sector == self.sector2:
                    self.times_left -= 1
                    if self.times_left <= 0:
                        # Ok, exit out
                        self.deactivate()
                        return
                    if self.last_credits is None:
                        self.last_credits = self.credits
                    else:
                        if self.credits <= self.last_credits:
                            log.warn("We don't seem to be making any money here...")
                            self.queue_game.put(self.r + self.nl + "We don't seem to be making any money here.  I'm stopping!" + self.nl)                            
                            self.deactivate()
                            return                        

                self.queue_player.put("{0}\r".format(self.this_sector))
                self.state = 10

        elif self.state == 10:
            # DANGER! You have marked sector X to be avoided!
            if prompt.startswith('Do you really want to warp there? (Y/N) '):
                self.queue_player.put("Y")

        elif self.state == 99:
            # This is a good place to deactivate at.
            if re.match(r"Command \[TL=.* \(\?=Help\)\? :", prompt):
                if hasattr(self, 'message'):
                    if self.message is not None:
                        self.queue_game.put(self.message)
                    self.message = None
                self.deactivate()


        
    def trade(self, *_):
        # state 5
        log.debug("trade!")
        self.queue_player.put("pt")   # Port Trade
        self.end_trans = False
        self.fixable = False
        self.this_port = self.game.gamedata.ports[self.this_sector]
        # I think other_sector will alway be correct, but leaving this
        # for now.   FUTURE: TODO:  REMOVE
        if self.this_sector == self.sector1:
            self.other_sector = self.sector2
        else:
            self.other_sector = self.sector1

        self.other_port = self.game.gamedata.ports[self.other_sector]

        # Ok, perform some calculations
        self.tpc = self.this_port['class']
        self.opc = self.other_port['class']
        self.fixable = 0
        self.fix_offer = 0

        # [ Items     Status  Trading % of max OnBoard]
        # [ -----     ------  ------- -------- -------]
        # [Fuel Ore   Selling   2573     93%       0]
        # [Organics   Buying    2960    100%       0]
        # [Equipment  Buying    1958     86%       0]
        # []
        # []
        # [You have 1,000 credits and 20 empty cargo holds.]
        # []
        # [We are selling up to 2573.  You have 0 in your holds.]
        # [How many holds of Fuel Ore do you want to buy [20]? 0]        


    def game_line(self, line: str):
        if line.startswith("You have ") and 'credits and' in line:
            parts = line.replace(',', '').split()
            credits = int(parts[2])
            log.debug("Credits: {0}".format(credits))
            self.credits = credits

        if self.state == 1:
            # First exploration
            if line.startswith("Sector  :"):
                # We have starting sector information
                parts = re.split(r"\s+", line)
                self.this_sector = int(parts[2])
                # These will be the ones swapped around as we trade back and forth.
                self.sector1 = self.this_sector
            elif line.startswith("Warps to Sector(s) : "):
                # Warps to Sector(s) :  397 - (562) - (639)
                _, _, warps = line.partition(':')
                warps = warps.replace('-', '').replace('(', '').replace(')', '').strip()
                log.debug("Warps: [{0}]".format(warps))
                self.warps = [ int(x) for x in re.split(r"\s+", warps)]
                log.debug("Warps: [{0}]".format(self.warps))
                self.state = 2
        elif self.state == 2:
            if line == "":
                # Ok, we're done
                self.state = 3
                # Check to see if we have information on any possible ports
                # if hasattr(self.game, 'portdata'):
                if True:
                    if not self.this_sector in self.game.gamedata.ports:
                        self.state = 0
                        log.debug("Current sector {0} not in portdata.".format(self.this_sector))
                        self.queue_game.put(self.r + self.nl + "I can't find the current sector in the portdata." + self.nl)
                        self.deactivate()
                        return
                    else:
                        # Ok, we are in the portdata
                        pd = self.game.gamedata.ports[self.this_sector]
                        if GameData.port_burnt(pd):
                            log.debug("Current sector {0} port is burnt (<= 20%).".format(self.this_sector))
                            self.queue_game.put(self.r + self.nl + "Current sector port is burnt out. <= 20%." + self.nl)
                            self.deactivate()
                            return

                    possible = [ x for x in self.warps if x in self.game.gamedata.ports ]
                    log.debug("Possible: {0}".format(possible))

                    # BUG:  Sometimes links to another sector, don't link back!
                    # This causes the game to plot a course / autopilot.

                    # if hasattr(self.game, 'warpdata'):
                    if True:
                        # Great!  verify that those warps link back to us!
                        possible = [ x for x in possible if x in self.game.gamedata.warps and self.this_sector in self.game.gamedata.warps[x]]

                    if len(possible) == 0:
                        self.state = 0
                        self.queue_game.put(self.r + self.nl + "I don't see any ports in [{0}].".format(self.warps) + self.nl)
                        self.deactivate()
                        return

                    possible = [ x for x in possible if not GameData.port_burnt(self.game.gamedata.ports[x]) ]
                    log.debug("Possible: {0}".format(possible))

                    if len(possible) == 0:
                        self.state = 0
                        self.queue_game.put(self.r + self.nl + "I don't see any unburnt ports in [{0}].".format(self.warps) + self.nl)
                        self.deactivate()
                        return

                    possible = [ x for x in possible if GameData.port_trading(self.game.gamedata.ports[self.this_sector]['port'], self.game.gamedata.ports[x]['port'])]
                    # sort by best, then by %
                    start_port = self.game.gamedata.ports[self.this_sector]
                    if 'port' in start_port:
                        start_port_port = start_port['port']
                        start_with = start_port_port[1:]

                        if start_with in ('BS', 'SB'):
                            # Ok, good trades may be possible
                            best = GameData.flip(start_with)
                            log.info("Sorting the best ({0}) to the top.".format(best))    
                            log.info("{0}".format(possible))                        
                            dec = [ [self.game.gamedata.ports[p].get('port', '---')[1:] == best, p] for p in possible]
                            dec = sorted(dec, reverse=True)
                            possible = [x[1] for x in dec]
                            log.info("{0}".format(possible))                                                    

                    self.possible = possible

                    if len(possible) == 0:
                        self.state = 0
                        self.queue_game.put(self.r + self.nl + "I don't see any possible port trades in [{0}].".format(self.warps) + self.nl)
                        self.deactivate()
                        return
                    elif len(possible) == 1:
                        # Ok! there's only one!
                        self.sector2 = possible[0]
                    
                    # Display possible ports:
                    # spos = [ str(x) for x in possible]    
                    # self.queue_game.put(self.r + self.nl + self.nl.join(spos) + self.nl)
                    # At state 3, we only get a prompt.
                    return
                else:
                    self.state = 0
                    log.warn("We don't have any portdata!")
                    self.queue_game.put(self.r + self.nl + "I have no portdata.  Please run CIM Port Report." + self.nl)
                    self.deactivate()
                    return
        elif self.state == 5:
            if "-----" in line:
                self.state = 6
        elif self.state == 6:
            if "We are buying up to" in line:
                log.info("buying up to -- so sell all")
                # Sell
                self.state = 7
                self.queue_player.put("\r")
                self.sell_percent = 100 + self.percent                
            if "We are selling up to" in line:
                log.info("selling up to -- state 8 / set percent")
                # Buy
                self.state = 8
                self.sell_percent = 100 - self.percent
            if line.startswith('Fuel Ore') or line.startswith('Organics') or line.startswith('Equipment'):
                work = line.replace('Fuel Ore', 'Fuel').replace('%', '')
                parts = re.split(r"\s+", work)
                # log.debug(parts)
                # Equipment, Selling xxx x% xxx
                if parts[-1] != '0' and parts[2] != '0' and parts[1] != 'Buying':
                    log.warn("We have a problem -- they aren't buying what we have in stock!")
                    stuff = line[0]  # F O or E.
                    if self.game.gamedata.port_buying(self.other_sector, stuff):
                        log.info("fixable")
                        self.fixable = True
                if int(parts[3]) < self.stop:
                    log.info("Port is burnt!  % < {0} (end_trans)".format(self.stop))
                    self.end_trans = True

            if "You don't have anything they want" in line:
                log.warn("Don't have anything they want.")
                # Neither!  DRAT!
                if not self.fixable:
                    self.state = 99
                    return
            if "We're not interested." in line:
                log.warn("Try, try again.  :(")
                self.state = 5
                self.trade()

        elif self.state == 7:
            # Haggle Sell
            if "We'll buy them for" in line or "Our final offer" in line:
                if "Our final offer" in line:
                    self.sell_percent -= 1
                parts = line.replace(',', '').split()
                start_price = int(parts[4])
                price = start_price * self.sell_percent // 100
                log.debug("start: {0} % {1} price {2}".format(start_price, self.sell_percent, price))
                self.sell_percent -= 1
                self.queue_player.put("{0}\r".format(price))
            if "We are selling up to" in line:
                log.info("selling up to / state 8 / set percent")
                # Buy
                self.state = 8
                self.sell_percent = 100 - self.percent  
            if "We are buying up to" in line:
                log.info("buying up to -- so sell all")
                # Sell
                self.state = 7
                self.queue_player.put("\r")
                self.sell_percent = 100 + self.percent                        
            if "We're not interested." in line:
                log.info("Not interested.  Try, try again.  :(")
                self.state = 5
                self.trade()    
            if "WHAT?!@!? you must be crazy!" in line:
                log.warn("fix offer")
                self.fix_offer = 1
            if "So, you think I'm as stupid as you look?" in line:
                log.warn("fix offer")                
                self.fix_offer = 1
            if "Quit playing around, you're wasting my time!" in line:
                log.warn("fix offer")                
                self.fix_offer = 1

        elif self.state == 8:
            # Haggle Buy
            if "We'll sell them for" in line or "Our final offer" in line:
                if "Our final offer" in line:
                    self.sell_percent += 1
                parts = line.replace(',', '').split()
                start_price = int(parts[4])
                price = start_price * self.sell_percent // 100
                log.debug("start: {0} % {1} price {2}".format(start_price, self.sell_percent, price))                
                self.sell_percent += 1
                self.queue_player.put("{0}\r".format(price))
            if "We're not interested." in line:
                log.info("Not interested.  Try, try again.  :(")
                self.state = 5
                self.trade()                

        elif self.state == 10:
            if "Sector  : " in line:
                # Trade
                self.state = 5
                reactor.callLater(0, self.trade, 0)
                # self.trade()

        # elif self.state == 3:
        #     log.debug("At state 3 [{0}]".format(line))
        #     self.queue_game.put("At state 3.")
        #     self.deactivate()
        #     return

class ScriptExplore(object):
    """ Exploration Script

        WARNINGS:
         We assume the player has lots o turns, or unlimited turns!
    """
    def __init__(self, game):
        self.game = game
        self.queue_game = game.queue_game
        self.queue_player = game.queue_player
        self.observer = game.observer
        self.r = Style.RESET_ALL
        self.c = merge(Style.BRIGHT + Fore.YELLOW)
        self.nl = "\n\r"
        
        # Our Stuff, Not our pants!
        self.dense = []         # We did a density, store that info.
        self.clear = []         # Warps that we know are clear.
        self.highsector = 0     # Selected Sector to move to next!
        self.highwarp = 0       # Selected Sector's Warp Count!
        self.stacksector = []   # Set of sectors that we have not picked but are unexplored... even though we did a holo!
        self.oneMoveSector = False
        self.times = 0
        self.maxtimes = 0

        # Activate
        self.prompt = game.buffer
        self.save = self.observer.save()
        self.observer.connect('player', self.player)
        self.observer.connect("prompt", self.game_prompt)
        self.observer.connect("game-line", self.game_line)

        self.prefer_ports = self.game.gamedata.get_config('Explorer_PrefPorts', 'N').upper()[0] == 'Y'
        
        self.defer = None
        self.send2player(Boxes.alert("Explorer", base="green"))

        # How many times we going to go today?
        ask = PlayerInput(self.game)
        
        def settimes(*_):
            times = ask.keep['times'].strip()
            log.debug("settimes got '{0}'".format(times))
            if times == '':
                self.deactivate()
            else:
                times = int(times)
                self.times = times
                self.maxtimes = times
                self.send2game("D")
                log.debug("times: {0} maxtimes: {0}".format(self.times))
                self.state = 1
            
        d = ask.prompt("How many sectors would you like to explorer?", 5, name="times", digits=True)
        #d.addCallback(ask.output)
        #d.addCallback(lambda ignore: self.settimes(ask.keep))
        d.addCallback(settimes)

    
    def whenDone(self):
        self.defer = defer.Deferred()
        # Call this to chain something after we exit.
        return self.defer
    
    def deactivate(self, andExit=False):
        self.state = 0
        log.debug("ScriptExplore.deactivate()")
        assert(not self.save is None)
        self.observer.load(self.save)
        self.save = None
        if self.defer:
            if andExit:
                self.defer.callback({'exit':True})
            else:
                self.defer.callback('done')
            self.defer = None
    
    def player(self, chunk: bytes):
        # If we receive anything -- ABORT!
        self.deactivate(True)
    
    def send2game(self, txt):
        log.debug("ScriptExplore.send2game({0})".format(txt))
        self.queue_player.put(txt)

    def send2player(self, txt):
        log.debug("ScriptExplore.send2player({0})".format(txt))
        self.queue_game.put(txt)

    def resetStuff(self):
        self.dense = []
        self.clear = []
        self.highwarp = 0
        self.highsector = 0
        log.debug("ScriptExplore.resetStuff()")

    def dead_end(self):
        """ We've reached a dead end.  

        Either pop a new location to travel to, or give it up.
        """
        self.send2player(self.nl + Boxes.alert("** DEAD END **", base="blue"))

        if self.stacksector:
            # Ok, there's somewhere to go ...
            self.highsector = self.stacksector.pop()
            # travel state
            self.state = 10
            self.send2game("{0}\r".format(self.highsector))

        else:
            self.send2player(self.nl + Boxes.alert("I've run out of places to look ({0}/{1}).".format(self.maxtimes - self.times, self.maxtimes)))
            self.deactivate(True)

    def game_over(self, msg):
        self.send2player(self.nl + Boxes.alert("STOP: {0} ({1}/{2}).".format(msg, self.maxtimes - self.times, self.maxtimes)))
        self.deactivate()

    def game_prompt(self, prompt: str):
        log.debug("{0} : {1}".format(self.state, prompt))
        if self.state == 2:
            if "Select (H)olo Scan or (D)ensity Scan or (Q)uit" in prompt:
                self.send2game("D")
                # self.state += 1
        elif self.state == 5:
            log.debug("dense is {0} sectors big".format(len(self.dense)))
            self.state += 1
            self.send2game("SH")
        elif self.state == 10:
            if prompt.startswith('Do you want to engage the TransWarp drive? '):
                self.send2game("N")
        elif self.state == 12:
            # Looking for "Engage the Autopilot?"
            if prompt.startswith('Engage the Autopilot? (Y/N/Single step/Express) [Y]'):
                self.send2game("S")
                self.travel_path.pop(0)                
            if prompt.startswith('Stop in this sector (Y,N,E,I,R,S,D,P,?) (?=Help) [N]'):
                self.send2game("SD")
                self.state += 1
            # Arriving sector :1691  Autopilot disengaging.
            if re.match(r"Command \[TL=.* \(\?=Help\)\? :", prompt):            
                log.info("We made it to where we wanted to go!")
                # can't init state 1, because we're at a prompt, so...
                self.send2game("S")
                self.state = 2
                return                
        elif self.state == 15:
            if prompt.startswith('Stop in this sector (Y,N,E,I,R,S,D,P,?) (?=Help) [N]'):
                self.send2game("N")
                self.travel_path.pop(0)
                self.state = 12
            if re.match(r"Command \[TL=.* \(\?=Help\)\? :", prompt):            
                log.info("We made it to where we wanted to go!")
                # can't init state 1, because we're at a prompt, so...
                self.send2game("S")
                self.state = 2
                return                            
        elif self.state == 20:
            if prompt.startswith('Stop in this sector (Y,N,E,I,R,S,D,P,?) (?=Help) [N]'):
                # Stop in this sector / Yes!
                self.send2game("Y")
                self.state = 1
                # this should re-trigger a scan
    
    def game_line(self, line: str):
        log.debug("{0} | {1}".format(self.state, line))
        #if "Mine Control" in line: # If we don't have a Holo-Scanner and we attempted to do a Holo-scan, abort
        #    self.deactivate()

        if line.startswith("You don't have enough turns left."):
            self.send2player(self.nl + Boxes.alert("You're out of turns!"))
            self.deactivate(True)
            return

        if self.state == 1:
            if line.startswith('You have ') and 'turns left.' in line:
                # Ok, you're in trouble!
                self.send2player(self.nl + Boxes.alert("You're running low on turns!"))
                self.deactivate(True)
                return
            self.send2game("S")
            self.state += 1
        elif self.state == 2:            
            if "Relative Density Scan" in line:
                self.state = 3
            elif "You don't have a long range scanner." in line:
                log.warn("FATAL: No Long Range Scanner Installed!")
                self.send2player(Boxes.alert("You need a Long Range Scanner!"))
                self.deactivate(True)
                return
            # elif "Long Range Scan" in line:
            #    self.state += 1

        elif self.state == 3:
            # Get the Density Data!
            if line.startswith("Sector"):
                new_sector = '(' in line
                work = line.replace(':', '').replace(')', '').replace('(', '').replace('%', '').replace('==>', '')
                work = re.split(r"\s+", work)
                log.debug(work)
                # 'Sector', '8192', '0', 'Warps', '4', 'NavHaz', '0', 'Anom', 'No'
                # 'Sector', '(', '8192)', '0', 'Warps', '4', 'NavHaz', '0', 'Anom', 'No'

                # New Sector?
                if new_sector:
                    # Switch Anom into bool state
                    # if(work[8] == 'No'):
                    #     temp = False
                    # else:
                    #     temp = True
                    #self.dense.append( {'sector': int(work[1]), 'density': int(work[2]), 'warps': int(work[4]), 'navhaz': int(work[6]), 'anom': temp} )

                    self.dense.append( {'sector': int(work[1]), 'density': int(work[2]), 'warps': int(work[4]), 'navhaz': int(work[6]), 'anom': work[8] == 'Yes'} )
                    log.debug(self.dense)
                    # {'sector': 8192, 'density': 0, 'warps': 4, 'navhaz': 0, 'anom': False}
                
            elif line == "":
                self.state += 1

        # yeah, this would be better in the above line...
        # leaving it for now.
        # Which is why I broke the elif chain. ...

        if self.state == 4:
            # Begin Processing our data we got from density scan and find highest warp count in what sectors
            # Remove sectors with one warp
            log.debug("state 4: {0}".format(self.dense))

            # Do we have a new place to go? (That is also worth going to)
            if not self.dense: # Dense contains no new sectors, abort
                log.info("No New Sectors Found!")
                self.dead_end()
                return

            # Is the sector safe to go into?
            # self.clear = [ x['sector'] for x in self.dense if not x['anom'] and not x['navhaz'] and x['density'] in (0,1,100,101) and x['warps'] > 1 ]
            self.clear = [ x for x in self.dense if not x['anom'] and not x['navhaz'] and x['density'] in (0,1,100,101) ]
          
            if self.clear: # We have sector(s) we can move to!
                log.debug("Clear Sectors: {0}".format(len(self.clear)))
                # This was state 5 but why can't we reduce number of states? ( Yeah let's kick California and New York out of the US, oh wrong states :P )
                # Sort to find greatest warp count

                if self.prefer_ports:
                    _, self.highwarp, self.highsector = max( (x['density'], x['warps'], x['sector']) for x in self.clear)
                else:
                    self.highwarp, self.highsector = max( (x['warps'], x['sector']) for x in self.clear)

                log.info("Sector: {0:5d} Warps: {1}".format(self.highsector, self.highwarp))
                self.state += 1
            else:
                log.warn("No (safe) sectors to move to!")
                # Let's try this?!
                # self.dead_end()   # NO!
                self.game_over("No SAFE moves.")
                # Another NOP state.  This also could be merged into above.
                # break the elif chain.

        if self.state == 5:
            # Add the dense scan of unknown sectors onto the stack of sectors, only save the ones we think are clear... for now.
            for c in self.clear:
                sector = c['sector']
                if sector != self.highsector:
                    if sector not in self.stacksector:
                        self.stacksector.append(sector)
            
            # Or simply not add it in the first place ...
            # Remove the sector we are just about to go to, we use discard so if the sector does not exist we don't throw a error!
            # self.stacksector.discard(self.highsector)

            # Ok, we need to decide to stop exploring -- before we
            # issue the sector move!  :P
            #             
            # Warning! Yes we can and will eat all the turns! :P
            if self.times == 0:
                self.send2player(Boxes.alert("Completed {0}".format(self.maxtimes), base="green"))
                log.info("Completed {0}".format(self.maxtimes))
                self.deactivate()
                return

            self.times -= 1
            # Ok we know the sector we want to go to now let's move it!
            self.send2game("m{0}\r".format(self.highsector))

            if self.highsector in self.stacksector:
                log.info("Removing {0} from stacksector list.".format(self.highsector))
                self.stacksector.remove(self.highsector)

            # Reset Variables for fresh data
            self.resetStuff()
            self.state = 1

        elif self.state == 10:
            if line.startswith("You are already in that sector!"):
                log.info("Already here.  (Whoops!)")
                self.state = 1
                return
            if line.startswith("Sector  : {0}".format(self.highsector)):
                log.info("We're here!")
                # Ok, we're already there!  no autopilot needed!
                self.state = 1
                return
            # Warping
            self.go_on = True
            if line.startswith('The shortest path ('):
                # Ok, we've got a path.
                self.state += 1
                self.travel_path = []
        elif self.state == 11:
            if line == '':
                # The end of the (possibly) multiline warp.
                self.state += 1
                self.travel_path.pop(0) # First sector is one we're in.
                self.stophere = False
                self.go_on = True                
            else:
                self.travel_path.extend(line.replace('(', '').replace(')', '').split(' > ') )
                log.debug("Travel path: {0}".format(self.travel_path))
        elif self.state == 12:
            # Arriving sector :1691  Autopilot disengaging.
            if 'Autopilot disengaging.' in line:
                log.info("We made it to where we wanted to go!")
                self.state = 1
                return
        elif self.state == 13:
            if 'Relative Density Scan' in line:
                self.state += 1
        elif self.state == 14:
            if line == "":
                log.debug("PATH: {0}".format(self.travel_path))

                # end of the scan, decision time
                if self.stophere:
                    log.info("STOPHERE")
                    # Ok, let's stop here!
                    # Re-save the sector we were trying to get to.  (we didn't make it there)
                    if self.highsector not in self.stacksector:
                        self.stacksector.append(self.highsector)
                    self.state = 20
                else:
                    if self.go_on:
                        log.info("GO ON")
                        # Ok, carry on!
                        self.state = 15
                    else:
                        log.warn("Our way is blocked...")
                        if self.highsector not in self.stacksector:
                            self.stacksector.append(self.highsector)
                        self.state = 20

            else:
                if line.strip('-') != '':
                    work = line.replace(' :', '').replace('%', '').replace(')', '').replace('==>', '')
                    # Does this contain something new? unseen?
                    stophere = '(' in work
                    work = work.replace('(','')
                    #Sector   XXXX  DENS Warps N NavHaz P Anom YN
                    parts = re.split(r'\s+', work)
                    # Don't bother stopping if there's only one warp

                    # YES!  Stop, even if there is just one warp!

                    # if stophere and parts[4] == '1':
                    #     stophere = False
                    
                    if stophere:
                        self.stophere = True

                    next_stop = self.travel_path[0]
                    log.debug("next_stop {0} from {1}".format(next_stop, self.travel_path))
                    log.debug("parts: {0}".format(parts))
                    if parts[1] == next_stop:
                        log.info("next_stop {0} found...".format(next_stop))
                        # Ok, this is our next stop.  Is it safe to travel to?
                        if parts[2] not in ('100', '0', '1', '101'):
                            # Ok, it's not safe to go on.
                            self.go_on = False
                        # Check the rest navhav and anom ...



class ScriptSpace(object):
    """ Space Exploration script. 
    
    Send "SD", verify paths are clear.
    Find nearest unknown.  Sector + CR.
    Save "shortest path from to" information.
    At 'Engage the Autopilot', Send "S" (Single Step)
    At '[Stop in this sector', Send "SD", verify path is clear.
    Send "SH" (glean sector/port information along the way.)
    Send "N" (Next)!

    Send "SD" / Verify clear.
    Send "SH"

    Repeat for Next closest.
        
    """
    def __init__(self, game):
        self.game = game
        self.queue_game = game.queue_game
        self.queue_player = game.queue_player
        self.observer = game.observer
        self.r = Style.RESET_ALL
        self.nl = "\n\r"

        self.this_sector = None     # Starting sector
        self.target_sector = None   # Sector going to
        self.path = []

        self.times_left = 0     # How many times to look for target
        self.density = dict()   # Results of density scan.  (Just the numbers)

        # Activate
        self.prompt = game.buffer
        self.save = self.observer.save()
        self.observer.connect('player', self.player)
        self.observer.connect("prompt", self.game_prompt)
        self.observer.connect("game-line", self.game_line)

        self.defer = None
        self.queue_game.put(
            self.nl + "Bugz (like space), is big." + self.r + self.nl
        )

        self.state = 1
        self.queue_player.put("SD")

        # Get current density scan + also get the current sector.
        # [Command [TL=00:00:00]:[XXXX] (?=Help)? : D]

    def whenDone(self):
        self.defer = defer.Deferred()
        # Call this to chain something after we exit.
        return self.defer

    def deactivate(self, andExit=False):
        self.state = 0
        log.debug("ScriptPort.deactivate ({0})".format(self.times_left))
        assert(not self.save is None)
        self.observer.load(self.save)
        self.save = None
        if self.defer:
            if andExit:
                self.defer.callback({'exit':True})                
            else:
                self.defer.callback('done')
            self.defer = None

    def player(self, chunk: bytes):
        # If we receive anything -- ABORT!
        self.deactivate(True)

    def unknown_search(self, starting_sector):
        seen = set()
        possible = set()
        possible.add(int(starting_sector))
        done = False

        while not done:
            next_possible = set()

            for s in possible:
                p = self.game.gamedata.get_warps(s)
                if p is not None:
                    for pos in p:
                        if pos not in seen:
                            next_possible.add(pos)
                else:
                    log.debug("unknown found: {0}".format(s))
                    self.unknown = s
                    done = True
                    break

                seen.add(s)

            if self.unknown is None:
                log.debug("possible: {0}".format(next_possible))
                possible = next_possible
                yield

    def find_unknown(self, starting_sector):
        log.debug("find_unknown( {0})".format(starting_sector))
        d = defer.Deferred()
        # Process things

        self.unknown = None

        c = coiterate(self.unknown_search(starting_sector))
        c.addCallback(lambda unknown: d.callback(self.unknown))
        return d

    def show_unknown(self, sector):
        if sector is None:
            self.deactivate()
            return
        log.debug("Travel to {0}...".format(sector))
        self.queue_player.put("{0}\r".format(sector))

    def game_prompt(self, prompt: str):
        log.debug("{0} : {1}".format(self.state, prompt))
        if self.state == 3:
            if re.match(r"Command \[TL=.* \(\?=Help\)\? :", prompt):
                # this_sector code isn't working -- so!  Get sector from prompt
                self.state = 4
                _, _, sector = prompt.partition(']:[')
                sector, _, _ = sector.partition(']')
                self.this_sector = int(sector)
                # Ok, we're done with Density Scan, and we're back at the command prompt
                log.debug("Go find the nearest unknown...")
                d = self.find_unknown(sector)
                d.addCallback(self.show_unknown)
        elif self.state == 6:
            # Engage the autopilot?
            if prompt.startswith('Engage the Autopilot? (Y/N/Single step/Express) [Y]'):
                self.state = 7
                sector = self.path.pop(0)
                if sector in self.density:
                    if self.density[sector] in (0, 100):
                        # Ok, looks safe!
                        self.queue_player.put("S")
                        self.this_sector = sector
                    else:
                        log.warn("FATAL: Density for {0} is {1}".format(sector, self.density[sector]))
                        self.deactivate(True)
                        return
                else:
                    log.error("{0} not in density scan? (how's that possible?)".format(sector))                
                    self.deactivate(True)
                    return
        elif self.state == 7:
            # Ok, we're in a new sector (single stepping through space)
            # update density scan
            if prompt.startswith('Stop in this sector (Y,N,E,I,R,S,D,P,?) (?=Help) [N] ?'):
                self.queue_player.put("SD")                
                self.state = 8
        elif self.state == 10:
            # Because we're here
            if prompt.startswith('Stop in this sector (Y,N,E,I,R,S,D,P,?) (?=Help) [N] ?'):
                self.queue_player.put("SH")                
                self.state = 11
        elif self.state == 11:
            if prompt.startswith('Stop in this sector (Y,N,E,I,R,S,D,P,?) (?=Help) [N] ?'):
                # Ok, is the density scan clear?
                sector = self.path.pop(0)
                if sector in self.density:
                    if self.density[sector] in (0, 100):
                        # Ok, looks safe
                        self.queue_player.put("N")
                        self.state = 7
                        self.this_sector = sector
                    else:
                        log.warn("FATAL: Density for {0} is {1}".format(sector, self.density[sector]))
                        self.deactivate()
                        return
                else:
                    log.error("{0} not in density scane? (how's that possible...)".format(sector))
                    self.deactivate()
                    return

    def next_unknown(self, sector):
        log.info("Unknown is : {0}".format(sector))
        self.deactivate()

    def game_line(self, line: str):
        log.debug("line {0} : {1}".format(self.state, line))

        if line.startswith('Sector  : '):
            work = line.strip()
            parts = re.split(r"\s+", work)
            self.this_sector = int(parts[2])
            log.debug("game_line sector {0}".format(self.this_sector))
        elif line.startswith("Command [TL=]"):
            # Ok, get the current sector from this
            _, _, sector = line.partition("]:[")
            sector, _, _ = sector.partition("]")
            self.this_sector = int(sector)
            log.debug("current sector: {0}".format(self.this_sector))
        elif line.startswith('Warps to Sector(s) :'):
            # Warps to Sector(s) :  5468
            _, _, work = line.partition(':')
            work = work.strip().replace('(', '').replace(')', '').replace(' - ', ' ')
            parts = [ int(x) for x in work.split(' ')]
            self.path = list(parts)

        if self.state in (1, 8):
            if 'Relative Density Scan' in line:
                # Start Density Scan
                self.state += 1
                self.density = {}

        elif self.state in (2, 9):
            if line == '':
                # End of Density Scan
                self.state += 1
                log.debug("Density: {0}".format(self.density))
                # self.deactivate()            
            elif line.startswith('Sector'):
                # Parse Density Scan values
                work = line.replace('(', '').replace(')', '').replace(':', '').replace('%', '').replace(',', '')
                parts = re.split(r'\s+', work)
                log.debug("Sector {0}".format(parts))
                sector = int(parts[1])
                self.density[sector] = int(parts[3])
                if parts[7] != '0':
                    log.warn("NavHaz {0} : {1}".format(parts[7], work))
                    self.density[sector] += 99
                if parts[9] != 'No':
                    log.warn("Anom {0} : {1}".format(parts[9], work))
                    self.density[sector] += 990
        elif self.state == 4:
            # Looking for shortest path message / warp info
            # Or possibly, "We're here!"
            if line.startswith('Sector  :') and str(self.unknown) in line:
                # Ok, I'd guess that we're already there!
                # Try it again!
                self.queue_player.put("SD")
                self.state = 1
            if line.startswith('The shortest path'):
                self.state = 5
        elif self.state == 5:
            # This is the warps line
            # Can this be multiple lines?
            if line == "":
                self.state = 6
            else:
                work = line.replace("(", "").replace(")", "").replace(">", "").strip()
                self.path = [int(x) for x in work.split()]
                log.debug("Path: {0}".format(self.path))

                # Verify
                current = self.path.pop(0)
                if current != self.this_sector:
                    log.warn("Failed: {0} != {1}".format(current, self.this_sector))
                    self.deactivate()
                    return
        elif self.state == 7:
            if self.unknown == self.this_sector:
                # We have arrived!
                log.info("We're here!")
                self.deactivate()


class ScriptTerror(object):
    """ Terror script. 

    This uses the Port Trading script.
    Basically, we look for the next best port trading pair.
    Move to it, fire off the Port Trading script.
    Repeat until our loop is done, or there's no more
    pairs.

    state=1 entered sector number to move to.
    state=2 (route "The shortest path")
            Fire ScriptPort.  Callback journey_on.
    """
    def __init__(self, game, proxy, count):
        self.game = game
        self.queue_game = game.queue_game
        self.queue_player = game.queue_player
        self.proxy = proxy
        self.count = count
        self.observer = game.observer
        self.r = Style.RESET_ALL
        self.nl = "\n\r"

        self.target_sector = None

        # Activate
        self.prompt = game.buffer
        self.save = self.observer.save()
        self.observer.connect('player', self.player)
        self.observer.connect("prompt", self.game_prompt)
        self.observer.connect("game-line", self.game_line)

        self.state = 0
        self.defer = None

        # Verify that they have configured auto-port trading.  
        # Otherwise, this doesn't work!
        usefirst = self.game.gamedata.get_config('Trade_UseFirst')
        if usefirst is None:
            usefirst = '?'
        if usefirst.upper()[0] != 'Y':
            self.queue_game.put(Boxes.alert("Sorry! You need to config Trade_UseFirst=Y", base="red"))
            self.deactivate()
            return

        turns = self.game.gamedata.get_config('Trade_Turns')
        if turns is None:
            turns = '0'
        try:
            t = int(turns)
        except ValueError:
            self.queue_game.put(Boxes.alert("Sorry! You need to config Trade_Turns", base="red"))
            self.deactivate()
            return

        if t < 5:
            self.queue_game.put(Boxes.alert("Sorry! You need to config Trade_Turns >", base="red"))
            self.deactivate()
            return

        c = coiterate(self.find_next_good_trade_pair())
        c.addCallback(lambda unknown: self.scary())

    def scary(self):
        if self.target_sector is None:
            self.queue_game.put(Boxes.alert("Sorry! I don't see any ports to trade with.", base="red"))
            self.deactivate()
        else:
            self.state = 1            
            self.queue_player.put("{0}\r".format(self.target_sector))

    def find_next_good_trade_pair(self):
        """ Find the next GOOD trade pair sector. 
        
            Should this be the next NEAREST?
        """

        show_limit = 90
        # Look for "GOOD" trades

        for sector in sorted(self.game.gamedata.ports.keys()):
            pd = self.game.gamedata.ports[sector]
            if not GameData.port_burnt(pd):
                # This happens when you trade with a StarDock
                if 'class' not in pd:
                    continue

                pc = pd['class']

                # Ok, let's look into it.
                if not sector in self.game.gamedata.warps:
                    continue

                warps = self.game.gamedata.warps[sector]
                for w in warps:
                    # We can get there, and get back.
                    if w in self.game.gamedata.warps and sector in self.game.gamedata.warps[w]:
                        # Ok, we can get there -- and get back!
                        if w > sector and w in self.game.gamedata.ports and not GameData.port_burnt(self.game.gamedata.ports[w]):
                            wd = self.game.gamedata.ports[w]
                            if 'class' not in wd:
                                continue
                            wc = wd['class']

                            if pc in (1,5) and wc in (2,4):
                                data = self.game.gamedata.port_trade_show(sector, w, show_limit)
                                if data:
                                    self.target_sector = sector
                                    return sector
                            elif pc in (2,4) and wc in (1,5):
                                data = self.game.gamedata.port_trade_show(sector, w, show_limit)
                                if data:
                                    self.target_sector = sector
                                    return sector
            yield 

        # Look for OK trades
        for sector in sorted(self.game.gamedata.ports.keys()):
            pd = self.game.gamedata.ports[sector]
            if not GameData.port_burnt(pd):
                if 'class' not in pd:
                    continue
                pc = pd['class']

                # Ok, let's look into it.
                if not sector in self.game.gamedata.warps:
                    continue

                warps = self.game.gamedata.warps[sector]
                for w in warps:
                    # We can get there, and get back.
                    if w in self.game.gamedata.warps and sector in self.game.gamedata.warps[w]:
                        # Ok, we can get there -- and get back!
                        if w > sector and w in self.game.gamedata.ports and not GameData.port_burnt(self.game.gamedata.ports[w]):
                            wd = self.game.gamedata.ports[w]
                            if 'class' not in wd:
                                continue
                            wc = wd['class']

                            if GameData.port_trading(pd['port'], self.game.gamedata.ports[w]['port']):
                                data = self.game.gamedata.port_trade_show(sector, w, show_limit)
                                if data:
                                    self.target_sector = sector
                                    return sector
            yield 

        self.target_sector = None
        
    def whenDone(self):
        self.defer = defer.Deferred()
        # Call this to chain something after we exit.
        return self.defer

    def deactivate(self, andExit=False):
        self.state = 0
        log.debug("ScriptTerror.deactivate")
        assert(not self.save is None)
        self.observer.load(self.save)
        self.save = None
        if self.defer:
            if andExit:
                self.defer.callback({'exit':True})                
            else:
                self.defer.callback('done')
            self.defer = None

    def player(self, chunk: bytes):
        # If we receive anything -- ABORT!
        self.deactivate(True)

    def journey_on(self, *_):
        log.info("journey_on( {0})".format(self.count))
        if self.count > 0:
            self.count -= 1
        
            c = coiterate(self.find_next_good_trade_pair())
            c.addCallback(lambda unknown: self.scary())            
            # self.target_sector = self.proxy.find_next_good_trade_pair()   # Sector going to
            # self.state = 1
            # self.queue_player.put("{0}\r".format(self.target_sector))
        else:
            self.deactivate()

    def game_prompt(self, prompt: str):
        log.debug("{0} : {1}".format(self.state, prompt))
        if self.state == 1:
            if prompt.startswith('Do you want to engage the TransWarp drive? '):
                self.queue_player.put("N")
        elif self.state == 2:
            if prompt.startswith('Engage the Autopilot? (Y/N/Single step/Express) [Y]'):
                self.queue_player.put("E")
            elif prompt.startswith('Stop in this sector (Y,N,E,I,R,S,D,P,?) (?=Help) [N] ?'):
                self.queue_player.put("N")
            elif re.match(r"Command \[TL=.* \(\?=Help\)\? :", prompt): 
                # We should be where we wanted to.
                ports = ScriptPort(self.game)
                d = ports.whenDone()
                d.addCallback(self.journey_on)
                d.addErrback(self.journey_on)

    def game_line(self, line: str):
        log.debug("line {0} : {1}".format(self.state, line))

        if self.state == 1:
            if line.startswith('The shortest path ('):
                self.state = 2
            elif line.startswith('Warping to Sector '):
                self.state = 2
            elif line.startswith("You are already in that sector!"):
                # Whoops.
                ports = ScriptPort(self.game)
                d = ports.whenDone()
                d.addCallback(self.journey_on)
                d.addErrback(self.journey_on)

class PlanetUpScript(object):
    """
        Planet Upgrade Script

        state=1  Pulling TLQ (Team/Corp List Planets)
            Pulling CYQ (Computer, Your planets)
        state=2  'Personal Planet Scan' or 'Corporate Planet Scan' parse.

        Display  list of planets, and prompt user for planet number to upgrade.

        state=3  Moving to planet
        state=4  Landing on planet, parse planet contents.  select 'C'
        state=5  Parse requirements for next upgrade
        state=6  move to next needed item. (Colonists, F, O, E)
                 If completed, 'L' and state=4
                 Otherwise move, fetch=ITEM, and state=7
        state=7  travel to where we need something.
                 Once there, L (land) for Colonist, otherwise PT (Port trade)
        state=8  Return to planet.
        state=9  At planet, or in route.  
                 Land.  Transfer Colonists/Cargo.  state=6              

            
    """
    def __init__(self, game):
        self.game = game
        self.queue_game = game.queue_game
        self.queue_player = game.queue_player
        self.observer = game.observer
        # Yes, at this point we would activate
        self.prompt = game.buffer
        self.save = self.observer.save()
        self.nl = "\n\r"
        self.cargo_index = { 'F': 0, 'O': 1, 'E': 2}
        self.index_cargo = ('F', 'O', 'E')

        # I actually don't want the player input, but I'll grab it anyway.
        self.observer.connect("player", self.player)

        self.observer.connect("prompt", self.game_prompt)
        self.observer.connect("game-line", self.game_line)

        # If we want it, it's here.
        self.defer = None
        self.to_player = self.game.to_player
        self.planets = {}
        self.citadel = False

        # Hide what's happening from the player
        self.game.to_player = False

        # self.queue_player.put("CYQ")  # Computer -> Your Planets -> Quit
        self.queue_player.put("TLQ")  # Team/Corp -> List Corp Planets -> Quit
        self.corp = True
        self.state = 1
        # self.warpdata = {}
        self.queue_game.put(Boxes.alert("Let me see what I can see here..."))  

    def game_prompt(self, prompt):
        log.info("prompt {0} : {1}".format(self.state, prompt))
        if self.state == 1 and re.match(r"Command \[TL=.* \(\?=Help\)\? :", prompt):
            # Ok, you're not on a team.  :P
            self.queue_player.put("CYQ")
        if self.state == 2 and re.match(r"Command \[TL=.* \(\?=Help\)\? :", prompt):
            if self.corp:
                self.corp = False
                self.state = 1
                self.queue_player.put("CYQ")
                return
            self.game.to_player = True
            # For now we output the information, and exit
            # self.queue_game.put("{0}\r\n".format(self.planets))
            # self.queue_game.put(pformat(self.planets).replace("\n", self.nl) + self.nl)

            if len(self.planets) == 0:
                # Ok, this is easy.
                self.queue_game.put(self.nl + Boxes.alert("You don't have any planets?  You poor, poor dear.", base="red"))
                self.deactivate()
                return

            # I need this to know if I can just land, or need to move to the planet.
            # Get current sector from the prompt
            # Command [TL=00:00:00]:[10202] (?=Help)? :
            _, _, part = prompt.partition(']:[')
            sector, _, _ = part.partition(']')
            self.current_sector = int(sector)

            # A better default is to ask which planet to upgrade.

            tc = merge(Style.BRIGHT + Fore.YELLOW + Back.BLUE)
            c1 = merge(Style.BRIGHT + Fore.WHITE + Back.BLUE)
            c2 = merge(Style.BRIGHT + Fore.CYAN + Back.BLUE)

            box = Boxes(44, color=tc)
            self.queue_game.put(box.top())
            self.queue_game.put(box.row(tc + "{0:3} {1:6} {2:33}".format(" # ", "Sector", "Planet Name")))
            self.queue_game.put(box.middle())

            def planet_output(number, sector, name):
                row = "{0}{1:^3} {2:6} {3}{4:33}".format(c1, number, sector, c2, name)
                self.queue_game.put(box.row(row))

            for s in sorted(self.planets.keys()):
                planet_output(s, self.planets[s]['sector'], self.planets[s]['name'])

            self.queue_game.put(box.bottom())

            ask = PlayerInput(self.game)
            d = ask.prompt("Choose a planet", 3, name="planet", digits=True)
            d.addCallback(self.planet_chosen)
        elif self.state == 3:
            if prompt.startswith('Do you want to engage the TransWarp drive? '):
                self.queue_player.put("N")
            elif prompt.startswith('Engage the Autopilot? (Y/N/Single step/Express) [Y]'):
                self.queue_player.put("E")
            elif prompt.startswith('Stop in this sector (Y,N,E,I,R,S,D,P,?) (?=Help) [N] ?'):
                self.queue_player.put("N")
            elif re.match(r"Command \[TL=.* \(\?=Help\)\? :", prompt):             
                # We're here!
                self.state = 4
                self.queue_player.put("L")
        elif self.state == 4:
            # If you have a planet scanner, or if there's more then one planet.
            if prompt.startswith('Land on which planet <Q to abort> ?'):
                self.queue_player.put("{0}\r".format(self.planet_number))
            if prompt.startswith('Planet command (?=help) [D] '):
                # self.queue_game.put(self.nl + "{0} : {1}".format( self.colonists, self.cargo) + self.nl)
                self.state = 5
                self.queue_player.put("C")
        elif self.state == 5:
            if re.match(r'Do you wish to construct .+\?', prompt):
                # 'Do you wish to construct a Combat Control Computer?'
                # Have we met all the needs?  If so, do it.  ;)
                # If not, xfer the cargo on the ship to the planet and get moving!
                ready = True
                for i in self.index_cargo: # ['F', 'O', 'E']:
                    if self.need[i] > self.cargo[i]:
                        ready = False
                        log.info("Need: {0}".format(i))
                        # break
                if self.need['C'] > self.colonists:
                    log.info("Need: people")
                    ready = False
                # self.queue_game.put(self.nl + "{0}".format(self.need))
                if ready:
                    self.queue_game.put(self.nl + Boxes.alert("Party Planet Pants On!"))
                    self.queue_player.put('YQ')
                    if self.citadel:
                        # Need extra Quit to get out of citadel, then out of planet.
                        self.queue_player.put('Q')
                    self.deactivate()
                    return
                if 'construct one' in prompt:
                    # No, but start moving things around to build one.
                    self.queue_player.put("N")
                else:
                    # No, and quit the Citadel menu.
                    self.queue_player.put("NQ")
                # Xfer cargo, and get ready to travel...
            elif prompt.startswith('Citadel command (?=help)'):
                self.queue_player.put('U')
                self.citadel = True
            if prompt.startswith('Planet command (?=help) [D] '):
                # self.queue_game.put(pformat(self.ship_cargo).replace("\n", self.nl) + self.nl)
                # self.queue_game.put(pformat(self.cargo).replace("\n", self.nl) + self.nl)                
                for idx, c in enumerate(self.index_cargo): # ('F', 'O', 'E')):
                    if self.ship_cargo[c] > 0:
                        # Transfer Cargo, (No display), Leave [1,2, or 3], \r = All of it.
                        self.queue_player.put("TNL{0}\r".format(idx + 1))
                        self.cargo[c] += self.ship_cargo[c]
                        self.ship_cargo[c] = 0
                        return
                        break
                self.queue_player.put("Q")
                self.state = 6
                # self.queue_game.put(pformat(self.ship_cargo).replace("\n", self.nl) + self.nl)
                # self.queue_game.put(pformat(self.cargo).replace("\n", self.nl) + self.nl)                
                # self.deactivate()
        elif self.state == 6:
            if re.match(r"Command \[TL=.* \(\?=Help\)\? :", prompt):
                # Ok, what do we need and where do we get it?
                if self.need['C'] > self.colonists:
                    # NavPoint, T, Express
                    self.fetch = 'C'
                    self.queue_player.put("NTE")
                    self.state = 7
                    self.send_land = False
                else:
                    for i in ('F','O','E'):
                        if self.need[i] > self.cargo[i]:
                            self.fetch = i
                            # TODO: Make this a config setting.
                            place = self.game.gamedata.find_nearest_selling(self.planet_sector, i, 400)
                            if place == 0:
                                self.queue_game.put(self.nl + Boxes.alert("Find Nearest Failed!"))
                                self.deactivate()
                                return
                            self.queue_player.put("{0}\r".format(place))
                            # self.queue_player.put("{0}\rE".format(place))
                            self.state = 7
                            return
                    # Ok, upgrade time!
                    self.state = 4
                    self.queue_player.put("L")                    
                    # self.queue_game.put("No, not yet!" + self.nl)
                    # self.deactivate()

                # for i in ['F', 'O', 'E']:
                #     if self.need[i] > self.cargo[i]:
                #         ready = False
                #         self.queue_game.put( "Need: {0}".format(i) + self.nl)

        elif self.state == 7:
            if re.match(r"Command \[TL=.* \(\?=Help\)\? :", prompt):
                if self.fetch == 'C':
                    # Colonist
                    # [How many groups of Colonists do you want to take ([125] empty holds) ? ]
                    if self.send_land == False:
                        self.send_land = True
                        self.queue_player.put("L")   # "LT\r")
                elif self.fetch in self.index_cargo: # ('F', 'O', 'E'):
                    # Port, Trade
                    self.queue_player.put("pt")
            elif re.match(r"How many holds of .+ do you want to sell", prompt):
                # This shouldn't occur...
                self.queue_game.put("OH NOSE!" + self.nl)
                self.deactivate()
                return
            elif prompt.startswith('Do you want to engage the TransWarp drive? '):
                self.queue_player.put("N")
            elif prompt.startswith('Engage the Autopilot? (Y/N/Single step/Express) [Y]'):
                self.queue_player.put("E")
            elif prompt.startswith('Stop in this sector (Y,N,E,I,R,S,D,P,?) (?=Help) [N] ?'):
                self.queue_player.put("N")
            elif re.match(r"How many holds of .+ do you want to buy \[\d+\]\? ", prompt):
                if prompt.startswith('How many holds of ' + self.fetch):
                    _, _, holds = prompt.partition('[')
                    holds, _, _ = holds.partition(']')
                    self.fetch_amount = int(holds)
                    log.info("Buying {0} of {1}".format(holds, self.fetch))
                    self.queue_player.put("\r\r")
                    self.state = 8
                else:
                    # We don't want to buy this one.  Skip it!
                    self.queue_player.put("0\r")
            elif prompt.startswith('Land on which planet <Q to abort> ?'):
                if self.fetch == 'C':
                    self.queue_player.put("1\r")
            elif prompt.startswith('Do you wish to (L)eave or (T)ake Colonists? [T] (Q to leave)'):
                if self.fetch == 'C':
                    self.queue_player.put("T\r")
                    self.state = 8
        elif self.state == 8:
            if re.match(r"How many holds of .+ do you want to buy \[\d+\]\? ", prompt):
                # No, no, we're done buying!
                self.queue_player.put("0\r")
            if re.match(r"Command \[TL=.* \(\?=Help\)\? :", prompt):
                # Ok, return to the planet...
                self.queue_player.put("{0}\rE".format(self.planet_sector))
                self.state = 9
        elif self.state == 9:
            log.info("prompt9 {0} : {1}".format(self.state, prompt))
            if re.match(r"Command \[TL=.* \(\?=Help\)\? :", prompt):
                # land
                self.queue_player.put('L')
            elif prompt.startswith('Do you want to engage the TransWarp drive? '):
                self.queue_player.put("N")
            elif prompt.startswith('Engage the Autopilot? (Y/N/Single step/Express) [Y]'):
                self.queue_player.put("E")
            elif prompt.startswith('Engage Express mode? (Y/N) [N] '):
                self.queue_player.put('Y')
            elif prompt.startswith('Stop in this sector (Y,N,E,I,R,S,D,P,?) (?=Help) [N] ?'):
                self.queue_player.put("N")
            elif prompt.startswith('Land on which planet <Q to abort> ?'):
                self.queue_player.put("{0}\r".format(self.planet_number))
            elif prompt.startswith("Planet command (?=help) [D]"):
                if self.fetch == 'C':
                    # Colonist / No display Planet / Leave
                    self.queue_player.put("SNL")
                elif self.fetch in self.index_cargo: # ('F', 'O', 'E'):
                    # Cargo, No display / Leave
                    self.queue_player.put("TNL")
            elif prompt.startswith('(1)Ore, (2)Org or (3)Equipment ?'):                
                self.queue_player.put("{0}\r\rQ".format(self.cargo_index[self.fetch] + 1))
                self.cargo[self.fetch] += self.fetch_amount
                self.state = 6
            elif prompt.startswith('(1)Ore, (2)Org or (3)Equipment Production?'):
                log.info("place_people: {0}".format(self.place_people))
                safe_places = [ k for k in self.place_people.keys() if self.place_people[k] ]
                if len(safe_places) == 0:
                    # Ok, (GREAT)  Class "U" Vaporous/Gaseus  >:(
                    safe_places = ['F', 'O', 'E']

                # TO FIX:  Use self.place_people to decide.
                # Ok, I'd choose, but for right now.
                log.info("Safe {0} index {1}".format(safe_places, self.place_start))                
                put_people = safe_places[self.place_start]
                log.info("Use: {0}".format(put_people))

                self.place_start += 1
                if self.place_start >= len(safe_places):
                    self.place_start = 0

                self.queue_player.put("{0}\r\rQ".format(self.cargo_index[put_people] + 1))
                self.colonists += self.fetch_amount
                self.state = 6

    def planet_chosen(self, choice: str):
        if choice.strip() == '':
            self.deactivate()
        else:
            self.planet_number = int(choice)
            if self.planet_number in self.planets:
                # Ok, this'll work
                self.planet_sector = self.planets[self.planet_number]['sector']
                self.planet_name = self.planets[self.planet_number]['name']
                if self.current_sector == self.planet_sector:
                    # We're here.  Land
                    self.state = 4
                    self.queue_player.put("L")
                else:
                    # Get moving!
                    self.state = 3
                    self.queue_player.put("{0}\r".format(self.planet_sector))
            else:
                self.deactivate()

    def game_line(self, line):
        log.info("line {0} : {1}".format(self.state, line))        
        if self.state == 1:
            if 'Personal Planet Scan' in line or 'Corporate Planet Scan' in line:
                self.state = 2
        elif self.state == 2:
            # Ok, we're in the planet scan part of this
            # 10202   #3    Home of Bugz             Class M, Earth Type        No Citadel]
            if '#' in line:
                # Ok, we have a planet detail line.
                # There's an extra T when the planet is maxed out.
                if line[7] == 'T':
                    line = line[:7] + ' ' + line[8:]

                detail, _, _ = line.partition('Class')
                detail = detail.strip() # Sector  #X  Name of planet
                sector, number, name = re.split(r'\s+', detail, 2)
                sector = int(sector)
                number = int(number[1:])
                self.last_seen = number
                self.planets[number] = {"sector": sector, "name": name}
                log.info("Planet # {0} in {1} called {2}".format( number, sector, name))
            if '---' in line:
                number = self.last_seen
                # Ok, take the last_seen number, and use it for this line
                # [ Sector  Planet Name    Ore  Org  Equ   Ore   Org   Equ   Fighters    Citadel]
                # [ Shields Population    -=Productions=-  -=-=-=-=-On Hands-=-=-=-=-    Credits]
                # [ 10202   #3    Home of Bugz             Class M, Earth Type        No Citadel]
                # [   ---   (1M)           144   49   26   145    75    12         10          0]
                details = re.split(r"\s+", line.strip())
                # OK:  Likely, I'm not going to use these numbers AT ALL.  
                self.planets[number]['population'] = details[1].replace('(', '').replace(')', '')
                # Ok, there's going to have to be some sort of modifier (K, M, etc.)
                # to these numbers.  Beware!
                self.planets[number]['ore'] = details[5]
                self.planets[number]['org'] = details[6]
                self.planets[number]['equ'] = details[7]
        elif self.state == 4:
            # Combat Control Computer under construction, 4 day(s) till complete.
            if 'under construction, ' in line and 'day(s) till complete' in line:
                # Ok, already building.
                self.queue_game.put(self.nl + Boxes.alert("NO, NOT YET!") + self.nl)
                self.queue_player.put("Q")  # quit Planet menu.
                self.deactivate()
                return

            # [  Item    Colonists  Colonists    Daily     Planet      Ship      Planet  ]
            # [Fuel Ore          0          1          0          0          0  1,000,000]
            # [Organics          0        N/A          0          0          0     10,000]
            # [Equipment         0        500          0        125        125    100,000]
            # [Fighters        N/A        N/A          0          0        400  1,000,000]
            items = ['Fuel Ore', 'Organics', 'Equipment']
            for i in items:
                if line.startswith(i):
                    cargo = line[0].upper()
                    work = line.replace(',', '')
                    if i == 'Fuel Ore':
                        work = work.replace(i, 'Fuel')
                        self.colonists = 0
                        self.cargo = {}
                        self.need = {}
                        self.ship_cargo = {}
                        self.place_people = {}
                    parts = re.split(r'\s+', work)
                    log.info("parts: {0}".format(parts))
                    c = int(parts[1])
                    planet_has = int(parts[4])
                    self.colonists += c
                    self.cargo[cargo] = planet_has
                    self.ship_cargo[cargo] = int(parts[5])
                    # Boolean, can we place people here?  If N/A, then don't!
                    self.place_people[cargo] = parts[2] != 'N/A'
                    self.place_start = 0

        elif self.state == 5:
            # [Planet command (?=help) [D] C]
            # [Be patient, your Citadel is not yet finished.]
            if line.startswith('Be patient, your Citadel is not yet finished.'):
                # Ah HA!
                self.queue_game.put(self.nl + Boxes.alert("NO, NOT YET!") + self.nl)
                self.queue_player.put("Q")  # quit Planet menu.
                self.deactivate()
            elif line.startswith('This Citadel cannot be upgraded further'):
                self.queue_game.put(self.nl + Boxes.alert("NO MORE!") + self.nl)
                self.queue_player.put("QQ")  # quit Citadel, quit Planet menu.
                self.deactivate()
            else:
                items = ['Colonists', 'Fuel Ore', 'Organics', 'Equipment']                
                work = line.replace(',', '').replace(' units of', '').strip()
                #              800,000 Colonists to support the construction,
                #                   500 units of Fuel Ore,
                #                    300 units of Organics,
                #                   600 units of Equipment and     
                for i in items:
                    if i in line:
                        count = int(work.split()[0])
                        k = i[0].upper()
                        # keep colonists in same units.
                        if k == 'C':
                            count //= 1000
                        self.need[k] = count
        elif self.state == 8:
            if re.match(r'How many groups of Colonists do you want to take \(\[\d+\] empty holds\) \?', line):
                # Ok, how many holds?
                _, _, holds = line.partition('[')
                holds, _, _ = holds.partition(']')
                self.fetch_amount = int(holds)
            if line.startswith('One turn deducted, '):
                parts = line.split()
                turns = int(parts[3])
                if turns < 200:
                    self.queue_game.put(self.nl + Boxes.alert("LOW TURNS.") + self.nl)
                    self.deactivate()                    
        elif self.state == 9:
            if re.match(r'You have \d turns left.', line):
                parts = line.split()
                turns = int(parts[2])
                log.debug("Turns: {0}".format(turns))

                

    def __del__(self):
        log.debug("PlanetUpScript {0} RIP".format(self))

    def whenDone(self):
        self.defer = defer.Deferred()
        # Call this to chain something after we exit.
        return self.defer

    def deactivate(self):
        self.state = 0
        if not self.defer is None:
            # We have something, so:
            self.game.to_player = self.to_player
            self.observer.load(self.save)
            self.save = None
            self.defer.callback(1)
            self.defer = None
        else:
            # Still "exit" out.
            self.game.to_player = self.to_player
            self.observer.load(self.save)

    def player(self, chunk):
        """ Data from player (in bytes). """
        chunk = chunk.decode("latin-1", "ignore")
        key = chunk.upper()
        log.warn("PlanetUpScript.player({0}) : I AM stopping...(user input)".format(key))

        if not self.defer is None:
            # We have something, so:
            self.game.to_player = self.to_player
            self.observer.load(self.save)
            self.save = None
            self.defer.errback(Exception("User Abort"))
            self.defer = None
        else:
            # Still "exit" out.
            self.game.to_player = self.to_player
            self.observer.load(self.save)

class ColoScript(object):
    """ Colonise Script

        Macro:
        ntel^^n1els^^1^q

        Ask what planet we want to use,
        Then Move to Terra,
        load up,
        Move to target planet,
        unload,
        repeat x times! \o/

        States:
        1 = Talk to computer, find planets of corp and personal
        2 = Grab planets from list, ask user which planet to populate
        3 = Move to Sector 1
        4 = load people, then move to sector with planet
        5 = init land
        6 = Decide to loop (jump to 3), Unload people
    """
    def __init__(self, game):
        self.game = game
        self.queue_game = game.queue_game
        self.queue_player = game.queue_player
        self.observer = game.observer
        self.r = Style.RESET_ALL
        self.c = merge(Style.BRIGHT + Fore.YELLOW)
        self.nl = "\n\r"

        # My Stuff
        self.state = 1
        self.corp = True
        self.planets = {}
        self.loops = 0
        self.maxloops = 0
        
        # Activate
        self.prompt = game.buffer
        self.save = self.observer.save()
        self.observer.connect('player', self.player)
        self.observer.connect("prompt", self.game_prompt)
        self.observer.connect("game-line", self.game_line)

        self.defer = None
        self.to_player = self.game.to_player
        self.game.to_player = False
        self.send2game("TLQ")

    def whenDone(self):
        self.defer = defer.Deferred()
        # Call this to chain something after we exit.
        return self.defer
    
    def deactivate(self, andExit=False):
        self.state = 0
        log.debug("ColoScript.deactivate()")
        self.game.to_player = True
        assert(not self.save is None)
        self.observer.load(self.save)
        self.save = None
        if self.defer:
            if andExit:
                self.defer.callback({'exit':True})
            else:
                self.defer.callback('done')
            self.defer = None
    
    def player(self, chunk: bytes):
        # If we receive anything -- ABORT!
        self.deactivate(True)
    
    def send2game(self, txt):
        log.debug("ColoScript.send2game({0})".format(txt))
        self.queue_player.put(txt)

    def send2player(self, txt):
        log.debug("ColoScript.send2player({0})".format(txt))
        self.queue_game.put(txt)

    def planet_chosen(self, choice: str):
        if choice.strip() == '':
            self.deactivate(True)
        else:
            self.planet_number = int(choice)
            if self.planet_number in self.planets:
                # Ok, this'll work
                self.planet_sector = self.planets[self.planet_number]['sector']
                self.planet_name = self.planets[self.planet_number]['name']
                # Are we really getting this? Yup
                #log.debug("Planet Number: {0} Sector: {1}".format(self.planet_number, self.planet_sector))
                ask1 = PlayerInput(self.game)
                d1 = ask1.prompt("How many times ", 3, name="rolls", digits=True)
                d1.addCallback(self.loop_chosen)
            else:
                self.deactivate(True)

    def loop_chosen(self, choice: str):
        if choice.strip() == '':
            self.deactivate(True)
        else:
            self.loops = abs(int(choice))
            if self.loops == 0:
                self.loops = 1
            self.maxloops = self.loops
            self.state = 3
            self.game.to_player = False
            self.send2game("I") # A neutral command, that won't hose up sending Express Mode? (Yes)
            # In fact this should allow us to see how many holds are avalible/empty
            # Jump to state 3 = Move to Terra

    def game_prompt(self, prompt: str):
        log.debug("P {0} | {1}".format(self.state, prompt))
        if self.state == 1 and re.match(r"Command \[TL=.* \(\?=Help\)\? :", prompt):
            # Ok, you're not on a team.  :P
            self.queue_player.put("CYQ")
        if self.state == 2 and re.match(r"Command \[TL=.* \(\?=Help\)\? :", prompt):
            if self.corp:
                self.corp = False
                self.state = 1
                self.queue_player.put("CYQ")
                return
            self.game.to_player = True
            # For now we output the information, and exit
            # self.queue_game.put("{0}\r\n".format(self.planets))
            # self.queue_game.put(pformat(self.planets).replace("\n", self.nl) + self.nl)

            if len(self.planets) == 0:
                # Ok, this is easy.
                self.queue_game.put(self.nl + Boxes.alert("You don't have any planets?  You poor, poor dear.", base="red"))
                self.deactivate()
                return

            # I need this to know if I can just land, or need to move to the planet.
            # Get current sector from the prompt
            # Command [TL=00:00:00]:[10202] (?=Help)? :
            _, _, part = prompt.partition(']:[')
            sector, _, _ = part.partition(']')
            self.current_sector = int(sector)

            # A better default is to ask which planet to upgrade.

            tc = merge(Style.BRIGHT + Fore.YELLOW + Back.BLUE)
            c1 = merge(Style.BRIGHT + Fore.WHITE + Back.BLUE)
            c2 = merge(Style.BRIGHT + Fore.CYAN + Back.BLUE)

            box = Boxes(44, color=tc)
            self.queue_game.put(box.top())
            self.queue_game.put(box.row(tc + "{0:3} {1:6} {2:33}".format(" # ", "Sector", "Planet Name")))
            self.queue_game.put(box.middle())

            def planet_output(number, sector, name):
                row = "{0}{1:^3} {2:6} {3}{4:33}".format(c1, number, sector, c2, name)
                self.queue_game.put(box.row(row))

            for s in sorted(self.planets.keys()):
                planet_output(s, self.planets[s]['sector'], self.planets[s]['name'])

            self.queue_game.put(box.bottom())

            ask = PlayerInput(self.game)
            d = ask.prompt("Choose a planet", 3, name="planet", digits=True)
            d.addCallback(self.planet_chosen)
        elif self.state == 3:
            # Initalize moving to sector 1, Terra
            if prompt.startswith('Do you want to engage the TransWarp drive? '):
                self.queue_player.put("N")
            elif prompt.startswith('Engage the Autopilot? (Y/N/Single step/Express) [Y]'):
                self.queue_player.put("E")
            elif prompt.startswith('Stop in this sector (Y,N,E,I,R,S,D,P,?) (?=Help) [N] ?'):
                self.queue_player.put("N")
            elif re.match(r"Command \[TL=.* \(\?=Help\)\? :", prompt):             
                self.state = 4
                self.game.to_player = True
                self.send2game("1\r")
                # Move to sector 1, Terra
        elif self.state == 4:
            # Moving to Terra
            if prompt.startswith('Do you want to engage the TransWarp drive? '):
                self.queue_player.put("N")
            elif prompt.startswith('Engage the Autopilot? (Y/N/Single step/Express) [Y]'):
                self.queue_player.put("E")
            elif prompt.startswith('Stop in this sector (Y,N,E,I,R,S,D,P,?) (?=Help) [N] ?'):
                self.queue_player.put("N")
            elif re.match(r"Command \[TL=.* \(\?=Help\)\? :", prompt):             
                self.state = 5
                self.send2game("L")
                # Begin Landing on Terra
        elif self.state == 5:
            if prompt.startswith('Land on which planet <Q to abort> ?'):
                self.send2game("1\r\r\r{0}\r".format(self.planet_sector))
                self.state = 6
                # Planetary Scanner Detected, Move to sector with planet
            elif prompt.startswith('Do you wish to (L)eave or (T)ake Colonists? [T] (Q to leave)'):
                self.send2game("\r\r{0}\r".format(self.planet_sector))
                self.state = 6
                # No Planetary Scanner Detected, Move to sector with planet
            elif prompt.startswith('Engage the Autopilot? (Y/N/Single step/Express) [Y]'):
                self.send2game("E")
                self.state = 4
                # We are not at terra, go back
        elif self.state == 6:
            # Moving from Terra to planet_sector
            if prompt.startswith('Do you want to engage the TransWarp drive? '):
                self.queue_player.put("N")
            elif prompt.startswith('Engage the Autopilot? (Y/N/Single step/Express) [Y]'):
                self.queue_player.put("E")
            elif prompt.startswith('Stop in this sector (Y,N,E,I,R,S,D,P,?) (?=Help) [N] ?'):
                self.queue_player.put("N")
            elif re.match(r"Command \[TL=.* \(\?=Help\)\? :", prompt):             
                self.state = 6
                self.send2game("L")
                # Begin Landing on planet
            elif prompt.startswith('Land on which planet <Q to abort> ?'):
                self.state = 7
                self.send2game("{0}\r".format(self.planet_number))
                # Planetary Scanner Detected selecting planet number
            elif prompt.startswith('Planet command (?=help) [D] '):
                self.state = 7
                self.send2game("D")
                # No Planetary Scaner skip on
        elif self.state == 7:
            if prompt.startswith('Engage the Autopilot? (Y/N/Single step/Express) [Y]'):
                self.state = 6
                self.send2game("E")
                # Missed moving jump back to state 6
            if prompt.startswith('Land on which planet <Q to abort> ?'):
                self.queue_player.put("{0}\r".format(self.planet_number))
                # Planetary Scanner Detected selecting planet number
            if prompt.startswith('Planet command (?=help) [D] '):
                # Unload people and process the loop
                self.loops -= 1
                if self.loops:
                    self.state = 3
                    self.send2game("S\r\r1\rQ")
                    # Jump to state 3 we are not done
                else:
                    self.send2game("S\r\r1\rQ")
                    self.send2player("\r" + Boxes.alert("Completed ({0})".format(self.maxloops)))
                    self.deactivate(True)
                    # Ok we are done
            

    def game_line(self, line: str):
        log.debug("L {0} | {1}".format(self.state, line))
        # IF at any state we see turns left lets grab it
        if 'turns left' in line:
                work = line[19:].replace(' turns left.', '').strip()
                self.turns = work
                log.debug("TURNS LEFT: {0}".format(self.turns))
                if int(self.turns) < 200:
                    self.send2player("\r" + Boxes.alert("Low Turns! ({0})".format(self.turns)))
                    self.deactivate(True)
        # IF at any state we see how many holds avalible let's get that
        if 'Total Holds' in line:
            work = line[16:].replace('-', '').replace('=', ' ').split()
            self.total_holds = int(work[0])
            count = 0
            for w in work:
                if(w != 'Empty'):
                    count += 1
                elif(w == 'Empty'):
                    count += 1
                    self.holds = int(work[count])
                    log.debug("EMPTY HOLDS = {0}".format(self.holds))
                    self.holds_percent = int((self.holds / self.total_holds) * 100.0)
                    log.debug("HOLDS PERCENT = {0}%".format(self.holds_percent))
                    if(self.holds < self.total_holds):
                        self.send2player("\r" + Boxes.alert("You need {0} holds empty! ({1} Empty)".format(self.total_holds, self.holds)))
                        self.deactivate(True)
        # Now back to our scheduled program
        if self.state == 1:
            if 'Personal Planet Scan' in line or 'Corporate Planet Scan' in line:
                self.state = 2
        elif self.state == 2:
            # Ok, we're in the planet scan part of this
            # 10202   #3    Home of Bugz             Class M, Earth Type        No Citadel]
            if '#' in line:
                # Ok, we have a planet detail line.
                # There's an extra T when the planet is maxed out.
                if line[7] == 'T':
                    line = line[:7] + ' ' + line[8:]

                detail, _, _ = line.partition('Class')
                detail = detail.strip() # Sector  #X  Name of planet
                sector, number, name = re.split(r'\s+', detail, 2)
                sector = int(sector)
                number = int(number[1:])
                self.last_seen = number
                self.planets[number] = {"sector": sector, "name": name}
                log.info("Planet # {0} in {1} called {2}".format( number, sector, name))
            if '---' in line:
                number = self.last_seen
                # Ok, take the last_seen number, and use it for this line
                # [ Sector  Planet Name    Ore  Org  Equ   Ore   Org   Equ   Fighters    Citadel]
                # [ Shields Population    -=Productions=-  -=-=-=-=-On Hands-=-=-=-=-    Credits]
                # [ 10202   #3    Home of Bugz             Class M, Earth Type        No Citadel]
                # [   ---   (1M)           144   49   26   145    75    12         10          0]
                details = re.split(r"\s+", line.strip())
                # OK:  Likely, I'm not going to use these numbers AT ALL.  
                self.planets[number]['population'] = details[1].replace('(', '').replace(')', '')
                # Ok, there's going to have to be some sort of modifier (K, M, etc.)
                # to these numbers.  Beware!
                self.planets[number]['ore'] = details[5]
                self.planets[number]['org'] = details[6]
                self.planets[number]['equ'] = details[7]

class ProxyMenu(object):
    """ Display ProxyMenu 
    
    Example:

    from flexible import ProxyMenu

    if re.match(r"Command \[TL=.* \(\?=Help\)\? :", prompt): 
        menu = ProxyMenu(self.game)
    """
    def __init__(self, game):
        self.nl = "\n\r"
        self.c = merge(Style.BRIGHT + Fore.YELLOW + Back.BLUE)
        self.r = Style.RESET_ALL
        self.c1 = merge(Style.BRIGHT + Fore.WHITE + Back.BLUE)
        self.c2 = merge(Style.NORMAL + Fore.CYAN + Back.BLUE)
        # self.portdata = None
        self.game = game
        self.queue_game = game.queue_game
        self.observer = game.observer

        self.game.gamedata.get_config('Macro', 'D^1N^D')

        # Am I using self or game?  (I think I want game, not self.)
        # if hasattr(self.game, "portdata"):
        #     self.portdata = self.game.portdata
        # else:
        #     self.portdata = {}

        # if hasattr(self.game, 'warpdata'):
        #     self.warpdata = self.game.warpdata
        # else:
        #    self.warpdata = {}

        if hasattr(self.game, 'trade_report'):
            self.trade_report = self.game.trade_report
        else:
            self.trade_report = []

        # Yes, at this point we would activate
        self.prompt = game.buffer
        self.save = self.observer.save()
        self.observer.connect("player", self.player)

        # If we want it, it's here.
        self.defer = None
        self.game.to_player = True

        self.keepalive = task.LoopingCall(self.awake)
        self.keepalive.start(30)
        self.menu()

    def __del__(self):
        log.debug("ProxyMenu {0} RIP".format(self))
        # When we exit, always make sure player echo is on.
        self.game.to_player = True

    def whenDone(self):
        self.defer = defer.Deferred()
        # Call this to chain something after we exit.
        return self.defer

    def menu(self):
        box = Boxes(30, color=self.c)

        self.queue_game.put(box.top())
        text = self.c + "{0:^30}".format("TradeWars Proxy Active")
        text = text.replace('Active', BLINK + 'Active' + Style.RESET_ALL + self.c)
        self.queue_game.put(box.row(text))
        self.queue_game.put(box.middle())

        def menu_item(ch: str, desc: str):
            row = self.c1 + " {0} {1}- {2}{3:25}".format(ch, self.c2, self.c1, desc)
            self.queue_game.put(box.row(row))

            # self.queue_game.put(
            #     " " + self.c1 + ch + self.c2 + " - " + self.c1 + desc + self.nl
            # )

        menu_item("C", "Configuration ({0})".format(len(self.game.gamedata.config)))
        menu_item("D", "Display Report again")
        menu_item("E", "Export Data (Save)")
        # menu_item("Q", "Quest")
        menu_item("M", "Macro")
        menu_item("P", "Port CIM Report ({0})".format(len(self.game.gamedata.ports)))
        menu_item("W", "Warp CIM Report ({0})".format(len(self.game.gamedata.warps)))
        menu_item("R", "Restock Report")
        menu_item("T", "Trading Report")
        menu_item("S", "Scripts")
        menu_item("X", "eXit")

        self.queue_game.put(box.bottom())
        self.queue_game.put("   " + self.c + "-=>" + self.r + " ")

    def awake(self):
        log.info("ProxyMenu.awake()")
        self.game.queue_player.put(" ")

    def port_report(self, portdata: dict):
        # Check to see if the old data is close to the new data.
        # If so, don't toss out the special!
        matches = 0
        for k, v in self.old_ports.items():
            if k in self.game.gamedata.ports:
                # Ok, key exists.  Is the class the same
                if self.game.gamedata.ports[k]['class'] == v['class']:
                    matches += 1
        log.info("Got {0} matches old ports to new.".format( matches))
        if matches > 12:
            self.queue_game.put("Restoring (SPECIAL) class ports ({0}).".format(len(self.specials)) + self.nl)            
            for p in self.specials.keys():
                self.game.gamedata.ports[int(p)] = self.specials[p]

        # self.portdata = portdata
        # self.game.portdata = portdata
        self.queue_game.put("Loaded {0} ports.".format(len(self.game.ports)) + self.nl)
        self.welcome_back()

    def warp_report(self, warpdata: dict):
        # self.warpdata = warpdata
        # self.game.warpdata = warpdata
        self.queue_game.put("Loaded {0} sectors.".format(len(warpdata)) + self.nl)
        self.welcome_back()

    def make_trade_report(self):
        log.debug("make_trade_report()")
        ok_trades = []
        best_trades = []

        show_best = self.game.gamedata.get_config('Display_Best', 'Y').upper()[0] == 'Y'
        show_ok = self.game.gamedata.get_config('Display_Ok', 'N').upper()[0] == 'Y'
        show_limit = self.game.gamedata.get_config('Display_Percent', '90')
        
        update_config = False

        try:
            show_limit = int(show_limit)
        except ValueError:
            show_limit = 90
            update_config = True

        if show_limit < 0:
            show_limit = 0
            update_config = True
        elif show_limit > 100:
            show_limit = 100
            update_config = True

        if update_config:
            self.game.gamedata.set_config('Display_Percent', show_limit)

        # for sector, pd in self.game.gamedata.ports.items():
        for sector in sorted(self.game.gamedata.ports.keys()):
            pd = self.game.gamedata.ports[sector]
            if not GameData.port_burnt(pd):
                # This happens if you trade with a StarDock.  (It doesn't get the class set.)
                if 'class' not in pd:
                    continue

                pc = pd['class']

                # Ok, let's look into it.
                if not sector in self.game.gamedata.warps:
                    continue

                warps = self.game.gamedata.warps[sector]
                for w in warps:
                    # Verify that we have that warp's info, and that the sector is in it.
                    # (We can get back from it)
                    if w in self.game.gamedata.warps and sector in self.game.gamedata.warps[w]:
                        # Ok, we can get there -- and get back!
                        if w > sector and w in self.game.gamedata.ports and not GameData.port_burnt(self.game.gamedata.ports[w]):
                            # it is > and has a port.
                            wd = self.game.gamedata.ports[w]
                            if 'class' not in wd:
                                continue
                            wc = wd['class']

                            # 1: "BBS",
                            # 2: "BSB",
                            # 3: "SBB",
                            # 4: "SSB",
                            # 5: "SBS",
                            # 6: "BSS",
                            # 7: "SSS",
                            # 8: "BBB",

                            if pc in (1,5) and wc in (2,4):
                                data = self.game.gamedata.port_trade_show(sector, w, show_limit)
                                if data:
                                    best_trades.append(data)
                                # best_trades.append( "{0:5} -=- {1:5}".format(sector, w))
                            elif pc in (2,4) and wc in (1,5):
                                data = self.game.gamedata.port_trade_show(sector, w, show_limit)
                                if data:
                                    best_trades.append(data)                                    
                                # best_trades.append( "{0:5} -=- {1:5}".format(sector, w))
                            elif GameData.port_trading(pd['port'], self.game.gamedata.ports[w]['port']):
                                # ok_trades.append( "{0:5} -=- {1:5}".format(sector,w))
                                data = self.game.gamedata.port_trade_show(sector, w, show_limit)
                                if data:
                                    ok_trades.append(data)
            yield

        if show_best:
            self.trade_report.append("Best Trades: (org/equ)")
            self.trade_report.extend(best_trades)
        if show_ok:
            self.trade_report.append("Ok Trades:")
            self.trade_report.extend(ok_trades)

        if not show_best and not show_ok:
            self.queue_game.put(Boxes.alert("You probably want to choose something to display in configuration!", base="red"))

        # self.queue_game.put("BEST TRADES:" + self.nl + self.nl.join(best_trades) + self.nl)
        # self.queue_game.put("OK TRADES:" + self.nl + self.nl.join(ok_trades) + self.nl)

    def get_display_maxlines(self):
        show_maxlines = self.game.gamedata.get_config('Display_Maxlines', '0')
        try:
            show_maxlines = int(show_maxlines)        
        except ValueError:
            show_maxlines = 0

        if show_maxlines <= 0:
            show_maxlines = None
        return show_maxlines

    def show_trade_report(self, *_):
        show_maxlines = self.get_display_maxlines()

        self.game.trade_report = self.trade_report
        for t in self.trade_report[:show_maxlines]:
            self.queue_game.put(t + self.nl)

        self.queue_game.put(self.nl + Boxes.alert("Proxy done.", base="green"))
        self.observer.load(self.save)
        self.save = None
        self.keepalive = None
        self.prompt = None                    
        # self.welcome_back()

    def player(self, chunk: bytes):
        """ Data from player (in bytes). """
        chunk = chunk.decode("latin-1", "ignore")
        key = chunk.upper()
        log.debug("ProxyMenu.player({0})".format(key))

        # Stop the keepalive if we are activating something else
        # or leaving...
        self.keepalive.stop()

        if key == "T":
            self.queue_game.put(self.c + key + self.r + self.nl)
            # Trade Report
            # do we have enough information to do this?

            # if not hasattr(self.game, 'portdata') and not hasattr(self.game, 'warpdata'):
            #     self.queue_game.put("Missing portdata and warpdata." + self.nl)
            # elif not hasattr(self.game, 'portdata'):
            #     self.queue_game.put("Missing portdata." + self.nl)
            # elif not hasattr(self.game, 'warpdata'):
            #     self.queue_game.put("Missing warpdata." + self.nl)
            # else:
            if True:
                # Yes, so let's start!
                self.trade_report = []
                d = coiterate(self.make_trade_report())
                d.addCallback(self.show_trade_report)
                return      
        elif key == "P":
            self.queue_game.put(self.c + key + self.r + self.nl)
            # Save specials, save 10 ports
            self.specials = self.game.gamedata.special_ports()
            # Save 20 ports.  https://stackoverflow.com/questions/7971618/python-return-first-n-keyvalue-pairs-from-dict#7971655
            self.old_ports = {k: self.game.gamedata.ports[k] for k in list(self.game.gamedata.ports)[:20]}
            self.game.gamedata.reset_ports()            
            # Activate CIM Port Report
            report = CIMPortReport(self.game)
            d = report.whenDone()
            d.addCallback(self.port_report)
            d.addErrback(self.welcome_back)
            return
        elif key == "W":
            self.queue_game.put(self.c + key + self.r + self.nl)
            self.game.gamedata.reset_warps()
            # Activate CIM Warp Report
            report = CIMWarpReport(self.game)
            d = report.whenDone()
            d.addCallback(self.warp_report)
            d.addErrback(self.welcome_back)            
            return
        elif key == "M":
            self.queue_game.put(self.c + key + self.r + self.nl)
            self.activate_macro(1)
            if False:
                ask = PlayerInput(self.game)
                d = ask.prompt("How many times?", 10, name="times", abort_blank=True, digits=True)
                d.addCallback(self.activate_macro)
                d.addErrback(self.welcome_back)
            return
        elif key == "S":
            self.queue_game.put(self.c + key + self.r + self.nl)
            # Scripts
            self.activate_scripts_menu()
            return
        elif key == "R":
            self.queue_game.put(self.c + key + self.r + self.nl)
            s = self.game.gamedata.special_ports()
            box = Boxes(14, color=self.c)

            self.queue_game.put(box.top())
            self.queue_game.put(box.row(self.c1 + " Sector Class "))
            for sector, data in s.items():
                self.queue_game.put(box.row("{0}  {1:5}{2} {3:^5} ".format( self.c1, sector, self.c2, data['class'])))
            self.queue_game.put(box.bottom())
        elif key == "D":
            self.queue_game.put(self.c + key + self.r + self.nl)
            # (Re) Display Trade Report
            show_maxlines = self.get_display_maxlines()

            if self.trade_report:
                for t in self.trade_report[:show_maxlines]:
                    self.queue_game.put(t + self.nl)
                self.queue_game.put(self.nl + Boxes.alert("Proxy done.", base="green"))                    
                self.observer.load(self.save)
                self.save = None
                self.keepalive = None
                self.prompt = None                    
                return
            else:
                self.queue_game.put("Missing trade_report." + self.nl)
        elif key == 'E':
            self.queue_game.put(self.c + key + self.r + self.nl)
            self.queue_game.put(Boxes.alert("Saving..."))
            then_do = coiterate(self.game.gamedata.save())
            then_do.addCallback(self.welcome_back)
            return
        elif key == "C":
            self.queue_game.put(self.c + key + self.r + self.nl)
            self.activate_config_menu()
            return
            # self.queue_game.put(pformat(self.portdata).replace("\n", "\n\r") + self.nl)
            # self.queue_game.put(pformat(self.warpdata).replace("\n", "\n\r") + self.nl)    
        #elif key == "Q":
        #    self.queue_game.put(self.c + key + self.r + self.nl)
        #
        #    # This is an example of chaining PlayerInput prompt calls.
        #    
        #    ask = PlayerInput(self.game)
        #    d = ask.prompt("What is your quest?", 40, name="quest", abort_blank=True)
        #
        #    # Display the user's input
        #    d.addCallback(ask.output)
        #    
        #    d.addCallback(
        #        lambda ignore: ask.prompt(
        #            "What is your favorite color?", 10, name="color"
        #        )
        #    )
        #    d.addCallback(ask.output)
        #    
        #    d.addCallback(
        #        lambda ignore: ask.prompt(
        #            "What is the meaning of the squirrel?",
        #            12,
        #            name="squirrel",
        #            digits=True,
        #        )
        #    )
        #    d.addCallback(ask.output)
        #
        #    def show_values(show):
        #        log.debug(show)
        #        self.queue_game.put(pformat(show).replace("\n", "\n\r") + self.nl)
        #
        #    d.addCallback(lambda ignore: show_values(ask.keep))
        #    d.addCallback(self.welcome_back)
        #
        #    # On error, just return back
        #    # This doesn't seem to be getting called.
        #    # d.addErrback(lambda ignore: self.welcome_back)
        #    d.addErrback(self.welcome_back)
        #    return

        elif key == "X":
            self.queue_game.put(self.c + key + self.r + self.nl)
            self.queue_game.put(Boxes.alert("Proxy done.", base="green"))
            self.observer.load(self.save)
            self.save = None
            # It isn't running (NOW), so don't try to stop it.
            # self.keepalive.stop()
            self.keepalive = None
            # Ok, this is a HORRIBLE idea, because the prompt might be
            # outdated.
            # self.queue_game.put(self.prompt)
            self.prompt = None

            # Send '\r' to re-display the prompt
            # instead of displaying the original one.
            self.game.queue_player.put("d")

            # Were we asked to do something when we were done here?
            if self.defer:
                reactor.CallLater(0, self.defer.callback)
                # self.defer.callback()
                self.defer = None
            return

        self.keepalive.start(30, True)
        self.menu()

    def activate_config_menu(self):
        self.observer.disconnect("player", self.player)
        self.observer.connect("player", self.config_player)
        self.config_menu()

    def deactivate_config_menu(self, *data):
        log.warn("deactivate_config_menu ({0})".format(data))
        self.observer.disconnect("player", self.config_player)
        self.observer.connect("player", self.player)  
        self.welcome_back() 

    def activate_macro(self, *data):
        log.warn("macro: ({0})".format(data))
        
        macro = self.game.gamedata.get_config('Macro', 'D')
        # Macro processing would go in here ...
        macro = macro.replace('^', "\r")
        log.warn("macro: [{0}]".format(repr(macro)))
        self.game.queue_player.put(macro)

        log.warn("Restore ...")
        self.observer.load(self.save)
        self.save = None
        self.keepalive = None

        if self.defer:
            reactor.CallLater(0, self.defer.callback)
            self.defer = None

        # self.welcome_back()

    def activate_scripts_menu(self):
        self.observer.disconnect("player", self.player)
        self.observer.connect("player", self.scripts_player)
        self.scripts_menu()

    def option_entry(self, entry):
        if len(entry) > 0:
            # Ok, they gave us something
            self.game.gamedata.set_config(self.option_select, entry.strip())
        else:
            self.queue_game.put("Edit aborted." + self.nl)
        self.config_menu()

    def option_input(self, option):
        if len(option) > 0:
            option = int(option)
            if option in self.config_opt:
                # Ok, it's a valid option!
                self.option_select = self.config_opt[option]
                ask = PlayerInput(self.game)
                if self.option_select == 'Macro':
                    d = ask.prompt("Change {0} to?".format(self.option_select), 48)
                else:                    
                    d = ask.prompt("Change {0} to?".format(self.option_select), 18)
                d.addCallback(self.option_entry)
                # d.addErrback(self.config_menu)
            else:
                self.queue_game.put("Unknown option, sorry." + self.nl)
                self.config_menu()
        else:
            # Aborted
            self.config_menu()

    def config_player(self, chunk: bytes):
        """ Data from player (in bytes). """
        chunk = chunk.decode("latin-1", "ignore")
        key = chunk.upper()

        if key == 'C':
            self.queue_game.put(self.c + key + self.r + self.nl)            
            self.game.gamedata.config = {}
        elif key == 'E':
            self.queue_game.put(self.c + key + self.r + self.nl)            
            ask = PlayerInput(self.game)
            d = ask.prompt("Which to edit?", 4, name='option', abort_blank=True, digits=True)
            d.addCallback(self.option_input)
            d.addErrback(self.config_menu)
            return
        elif key in ('1','2','3','4','5','6','7','8','9'):
            self.queue_game.put(self.c + key + self.r + self.nl)
            option = int(key)
            if option in self.config_opt:
                # Ok, it's a valid option!
                self.option_select = self.config_opt[option]
                ask = PlayerInput(self.game)
                if self.option_select == 'Macro':
                    d = ask.prompt("Change {0} to?".format(self.option_select), 48)
                else:
                    d = ask.prompt("Change {0} to?".format(self.option_select), 18)
                d.addCallback(self.option_entry)
                # d.addErrback(self.config_menu)
                return
            else:
                self.queue_game.put("Unknown option, sorry." + self.nl)

        elif key == 'X':
            self.queue_game.put(self.c + key + self.r + self.nl)            
            self.deactivate_config_menu()
            return
        else:
            self.queue_game.put(self.c + "?" + self.r + self.nl)
        self.config_menu()

    def config_menu(self, *_):
        titlecolor = merge(Style.BRIGHT + Fore.CYAN + Back.BLUE)
        tc = merge(Style.BRIGHT + Fore.YELLOW + Back.BLUE)

        c1 = merge(Style.BRIGHT + Fore.WHITE + Back.BLUE)
        c2 = merge(Style.BRIGHT + Fore.CYAN + Back.BLUE)

        #box = Boxes(44, color=titlecolor)
        box = Boxes(44, color=tc)

        self.queue_game.put(box.top())
        #self.queue_game.put(box.row(titlecolor + "{0:^44}".format("Configuration")))
        self.queue_game.put(box.row(tc + "{0:^44}".format("Configuration")))
        self.queue_game.put(box.middle())

        def config_option(index, key, value):
            row = "{0}{1:2}   {2:19}{3}{4:<20.20}".format(c1, index, key, c2, value)
            self.queue_game.put(box.row(row))

        def menu_item(ch, desc):
            row = "{0} {1} {2}-{3} {4:39}".format(c1, ch, c2, c1, desc)
            # self.queue_game.put(
            #     " " + c1 + ch + c2 + " - " + c1 + desc + self.nl
            # )
            self.queue_game.put(box.row(row))

        index = 1
        self.config_opt = {}

        for k in sorted(self.game.gamedata.config.keys()):
        # for k, v in self.game.gamedata.config.items():
            v = self.game.gamedata.config[k]
            self.config_opt[index] = k
            config_option(index, k, v)
            index += 1

        self.queue_game.put(box.middle())

        menu_item("C", "Clear Config")
        menu_item("E", "Edit Item")
        menu_item("X", "eXit")
        self.queue_game.put(box.bottom())
        self.queue_game.put("   " + tc + "-=>" + self.r + " ")

    def deactivate_scripts_menu(self, *data):
        log.warn("deactivate_scripts_menu ({0})".format(data))
        self.observer.disconnect("player", self.scripts_player)
        self.observer.connect("player", self.player)   

        # Did they request exit?
        if len(data) > 0 and type(data[0]) == dict:
            info = data[0]
            if 'exit' in info and info['exit']:
                log.warn("exit proxy...")
                # Exit Proxy Code 
                self.queue_game.put(self.nl + Boxes.alert("Proxy done.", base="green",style=3))
                self.observer.load(self.save)
                self.save = None
                # It isn't running (NOW), so don't try to stop it.
                # self.keepalive.stop()
                self.keepalive = None
                # Ok, this is a HORRIBLE idea, because the prompt might be
                # outdated.
                # self.queue_game.put(self.prompt)
                self.prompt = None

                # I'm not sure where we are, we might not be at a prompt.
                # let's check!
                if re.match(r"Command \[TL=.* \(\?=Help\)\? :", self.game.getPrompt()):
                    # Send '\r' to re-display the prompt
                    # instead of displaying the original one.
                    self.game.queue_player.put("d")

                # Were we asked to do something when we were done here?
                if self.defer:
                    reactor.CallLater(0, self.defer.callback)
                    # self.defer.callback()
                    self.defer = None
                return

        log.warn("calling welcome_back")
        self.welcome_back()

    def scripts_menu(self, *_):
        c1 = merge(Style.BRIGHT + Fore.CYAN)
        c2 = merge(Style.NORMAL + Fore.CYAN)

        box = Boxes(40, color=c1)

        self.queue_game.put(box.top())
        self.queue_game.put(box.row(c1 + "{0:^40}".format("Scripts")))
        self.queue_game.put(box.middle())

        def menu_item(ch, desc):
            row = " {0}{1} {2}-{3} {4:35}".format(c1, ch, c2, c1, desc)
            # self.queue_game.put(
            #     " " + c1 + ch + c2 + " - " + c1 + desc + self.nl
            # )
            self.queue_game.put(box.row(row))

        menu_item("1", "Ports (Trades between two sectors)")
        menu_item("!", "Terrorize Ports/Trades")
        menu_item("2", "Explore (Strange new sectors)")
        menu_item("3", "Space... the broken script...")
        menu_item("4", "Upgrade Planet")
        menu_item("5", "Colonize Planet")
        menu_item("X", "eXit")
        self.queue_game.put(box.bottom())
        self.queue_game.put("   " + c1 + "-=>" + self.r + " ")

    def terror(self, *_):
        log.debug("terror {0}".format(_))
        loops = _[0]
        if loops.strip() == '':
            self.deactivate_scripts_menu()
        else:
            # Ok, we have something here, I think...
            terror = ScriptTerror(self.game, self, int(loops))
            d = terror.whenDone()
            d.addCallback(self.deactivate_scripts_menu)
            d.addErrback(self.deactivate_scripts_menu)

    def scripts_player(self, chunk: bytes):
        """ Data from player (in bytes). """
        chunk = chunk.decode("latin-1", "ignore")
        key = chunk.upper()
        
        if key == '1':
            self.queue_game.put(self.c + key + self.r + self.nl)
            # Activate this magical event here
            ports = ScriptPort(self.game)
            d = ports.whenDone()
            # d.addCallback(self.scripts_menu)
            # d.addErrback(self.scripts_menu)
            d.addCallback(self.deactivate_scripts_menu)
            d.addErrback(self.deactivate_scripts_menu)
            return
        elif key == '!':
            self.queue_game.put(self.c + key + self.r + self.nl)
            ask = PlayerInput(self.game)
            # This is TERROR, so do something!
            ask.color(merge(Style.BRIGHT + Fore.WHITE + Back.RED))
            ask.colorp(merge(Style.BRIGHT + Fore.YELLOW + Back.RED))
            d = ask.prompt("How many loops of terror?", 4, name="loops", digits=True, abort_blank=True)
            d.addCallback(self.terror, ask)
            d.addErrback(self.deactivate_scripts_menu)
            return            
        elif key == '2':
            self.queue_game.put(self.c + key + self.r + self.nl)
            explore = ScriptExplore(self.game)
            d = explore.whenDone()
            d.addCallback(self.deactivate_scripts_menu)
            d.addErrback(self.deactivate_scripts_menu)
            return
        elif key == '3':
            self.queue_game.put(self.c + key + self.r + self.nl)
            space = ScriptSpace(self.game)
            d = space.whenDone()
            d.addCallback(self.deactivate_scripts_menu)
            d.addErrback(self.deactivate_scripts_menu)
            return
        elif key == '4':
            self.queue_game.put(self.c + key + self.r + self.nl)
            upgrade = PlanetUpScript(self.game)
            d = upgrade.whenDone()
            d.addCallback(self.deactivate_scripts_menu)
            d.addErrback(self.deactivate_scripts_menu)
            return
        elif key == '5':
            self.queue_game.put(self.c + key + self.r + self.nl)
            colo = ColoScript(self.game)
            d = colo.whenDone()
            d.addCallback(self.deactivate_scripts_menu)
            d.addErrback(self.deactivate_scripts_menu)
            return
        elif key == 'X':
            self.queue_game.put(self.c + key + self.r + self.nl)            
            self.deactivate_scripts_menu()
            return
        else:
            self.queue_game.put(self.c + "?" + self.r + self.nl)
        self.scripts_menu()


    def welcome_back(self, *_):
        log.debug("welcome_back")
        self.keepalive.start(30, True)
        self.menu()