JSETC/bot bond sell.py

#!/usr/bin/env python3
# ~~~~~==============   HOW TO RUN   ==============~~~~~
# 1) Configure things in CONFIGURATION section
# 2) Change permissions: chmod +x bot.py
# 3) Run in loop: while true; do ./bot.py --test prod-like; sleep 1; done

import argparse
from collections import deque
from enum import Enum
import time
import socket
import json

# ~~~~~============== CONFIGURATION  ==============~~~~~
# Replace "REPLACEME" with your team name!
team_name = "HanyangFloorFunction"

# ~~~~~============== MAIN LOOP ==============~~~~~

# You should put your code here! We provide some starter code as an example,
# but feel free to change/remove/edit/update any of it as you'd like. If you
# have any questions about the starter code, or what to do next, please ask us!
#
# To help you get started, the sample code below tries to buy BOND for a low
# price, and it prints the current prices for VALE every second. The sample
# code is intended to be a working example, but it needs some improvement
# before it will start making good trades!


def main():
    args = parse_arguments()

    exchange = ExchangeConnection(args=args)

    # Store and print the "hello" message received from the exchange. This
    # contains useful information about your positions. Normally you start with
    # all positions at zero, but if you reconnect during a round, you might
    # have already bought/sold symbols and have non-zero positions.
    hello_message = exchange.read_message()
    print("First message from exchange:", hello_message)

    # Send an order for BOND at a good price, but it is low enough that it is
    # unlikely it will be traded against. Maybe there is a better price to
    # pick? Also, you will need to send more orders over time.
    # --- BOND 마켓 메이킹 설정 ---
    FAIR_VALUE = 1000       # BOND fair value (고정)
    ORDER_SIZE = 5          # 가격대별 주문 수량
    MAX_POSITION = 100      # 최대 포지션 한도
    REFRESH_INTERVAL = 5.0  # 주문 갱신 주기 (초)

    # 매수: 999, 998, 997 / 매도: 1001, 1002, 1003
    BUY_PRICES  = [FAIR_VALUE - 1, FAIR_VALUE - 2, FAIR_VALUE - 3]
    SELL_PRICES = [FAIR_VALUE + 1, FAIR_VALUE + 2, FAIR_VALUE + 3]

    position = 0            # 현재 BOND 포지션
    order_id = 0            # 단조 증가하는 주문 ID
    active_orders = {}      # {order_id: {"dir": ..., "price": ...}}
    market_open = False     # 시장 open 여부 (open 전에는 주문 불가)

    def next_id():
        nonlocal order_id
        order_id += 1
        return order_id

    def cancel_all_bond_orders():
        """활성 BOND 주문 전부 취소"""
        for oid in list(active_orders.keys()):
            exchange.send_cancel_message(oid)
            active_orders.pop(oid, None)

    def place_bond_orders():
        """여러 가격대에 분산해서 매수/매도 주문"""
        if not market_open:
            return

        cancel_all_bond_orders()

        # 포지션에 따라 size 조정
        base_size = ORDER_SIZE
        adjustment = abs(position) // 5

        if position < 0:
            buy_size  = min(base_size + adjustment, MAX_POSITION)
            sell_size = max(base_size - adjustment, 1)
        elif position > 0:
            buy_size  = max(base_size - adjustment, 1)
            sell_size = min(base_size + adjustment, MAX_POSITION)
        else:
            buy_size  = base_size
            sell_size = base_size

        # 999, 998, 997 세 가격대에 매수 주문
        for buy_price in BUY_PRICES:
            if position < MAX_POSITION:
                bid = next_id()
                exchange.send_add_message(
                    order_id=bid, symbol="BOND",
                    dir=Dir.BUY, price=buy_price, size=buy_size
                )
                active_orders[bid] = {"dir": Dir.BUY, "price": buy_price}

        # 1001, 1002, 1003 세 가격대에 매도 주문
        for sell_price in SELL_PRICES:
            if position > -MAX_POSITION:
                ask = next_id()
                exchange.send_add_message(
                    order_id=ask, symbol="BOND",
                    dir=Dir.SELL, price=sell_price, size=sell_size
                )
                active_orders[ask] = {"dir": Dir.SELL, "price": sell_price}

        print(f"  BOND 주문 → 매수: {BUY_PRICES} x{buy_size}, 매도: {SELL_PRICES} x{sell_size}, 포지션: {position}")

    # Set up some variables to track the bid and ask price of a symbol. Right
    # now this doesn't track much information, but it's enough to get a sense
    # of the VALE market.
    vale_bid_price, vale_ask_price = None, None
    vale_last_print_time = time.time()

    last_refresh = time.time()

    # Here is the main loop of the program. It will continue to read and
    # process messages in a loop until a "close" message is received. You
    # should write to code handle more types of messages (and not just print
    # the message). Feel free to modify any of the starter code below.
    #
    # Note: a common mistake people make is to call write_message() at least
    # once for every read_machine() response.
    #
    # Every message sent to the exchange generates at least one response
    # message. Sending a message in response to every exchange message will
    # cause a feedback loop where your bot's messages will quickly be
    # rate-limited and ignored. Please, don't do that!
    while True:
        message = exchange.read_message()

        # Some of the message types below happen infrequently and contain
        # important information to help you understand what your bot is doing,
        # so they are printed in full. We recommend not always printing every
        # message because it can be a lot of information to read. Instead, let
        # your code handle the messages and just print the information
        # important for you!
        if message["type"] == "close":
            print("The round has ended")
            break
        elif message["type"] == "open":
            # 시장이 열렸을 때 주문 시작 (open 전에 주문하면 reject됨)
            print("Market opened:", message)
            market_open = True
            place_bond_orders()
        elif message["type"] == "error":
            print(message)
        elif message["type"] == "reject":
            print(message)
            # 거부된 주문은 active_orders에서 제거
            oid = message.get("order_id")
            active_orders.pop(oid, None)
        elif message["type"] == "fill":
            print(message)
            # 체결 시 포지션 업데이트 후 주문 재보충
            qty = message["size"]
            if message["dir"] == Dir.BUY:
                position += qty
            else:
                position -= qty
            place_bond_orders()
        elif message["type"] == "book":
            if message["symbol"] == "VALE":

                def best_price(side):
                    if message[side]:
                        return message[side][0][0]

                vale_bid_price = best_price("buy")
                vale_ask_price = best_price("sell")

                now = time.time()

                if now > vale_last_print_time + 1:
                    vale_last_print_time = now
                    print(
                        {
                            "vale_bid_price": vale_bid_price,
                            "vale_ask_price": vale_ask_price,
                        }
                    )

            # 주기적으로 BOND 주문 갱신 (주문 만료 방지)
            now = time.time()
            if now - last_refresh > REFRESH_INTERVAL:
                last_refresh = now
                place_bond_orders()


# ~~~~~============== PROVIDED CODE ==============~~~~~

# You probably don't need to edit anything below this line, but feel free to
# ask if you have any questions about what it is doing or how it works. If you
# do need to change anything below this line, please feel free to


class Dir(str, Enum):
    BUY = "BUY"
    SELL = "SELL"


class ExchangeConnection:
    def __init__(self, args):
        self.message_timestamps = deque(maxlen=500)
        self.exchange_hostname = args.exchange_hostname
        self.port = args.port
        exchange_socket = self._connect(add_socket_timeout=args.add_socket_timeout)
        self.reader = exchange_socket.makefile("r", 1)
        self.writer = exchange_socket

        self._write_message({"type": "hello", "team": team_name.upper()})

    def read_message(self):
        """Read a single message from the exchange"""
        message = json.loads(self.reader.readline())
        if "dir" in message:
            message["dir"] = Dir(message["dir"])
        return message

    def send_add_message(
        self, order_id: int, symbol: str, dir: Dir, price: int, size: int
    ):
        """Add a new order"""
        self._write_message(
            {
                "type": "add",
                "order_id": order_id,
                "symbol": symbol,
                "dir": dir,
                "price": price,
                "size": size,
                "tif": "DAY",  # 설명서 필수 필드: DAY or IOC
            }
        )

    def send_convert_message(self, order_id: int, symbol: str, dir: Dir, size: int):
        """Convert between related symbols"""
        self._write_message(
            {
                "type": "convert",
                "order_id": order_id,
                "symbol": symbol,
                "dir": dir,
                "size": size,
            }
        )

    def send_cancel_message(self, order_id: int):
        """Cancel an existing order"""
        self._write_message({"type": "cancel", "order_id": order_id})

    def _connect(self, add_socket_timeout):
        s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)

        if add_socket_timeout:
            # Automatically raise an exception if no data has been recieved for
            # multiple seconds. This should not be enabled on an "empty" test
            # exchange.
            s.settimeout(5)
        s.connect((self.exchange_hostname, self.port))
        return s

    def _write_message(self, message):
        what_to_write = json.dumps(message)
        if not what_to_write.endswith("\n"):
            what_to_write = what_to_write + "\n"

        length_to_send = len(what_to_write)
        total_sent = 0
        while total_sent < length_to_send:
            sent_this_time = self.writer.send(
                what_to_write[total_sent:].encode("utf-8")
            )
            if sent_this_time == 0:
                raise Exception("Unable to send data to exchange")
            total_sent += sent_this_time

        now = time.time()
        self.message_timestamps.append(now)
        if len(
            self.message_timestamps
        ) == self.message_timestamps.maxlen and self.message_timestamps[0] > (now - 1):
            print(
                "WARNING: You are sending messages too frequently. The exchange will start ignoring your messages. Make sure you are not sending a message in response to every exchange message."
            )


def parse_arguments():
    test_exchange_port_offsets = {"prod-like": 0, "slower": 1, "empty": 2}

    parser = argparse.ArgumentParser(description="Trade on an ETC exchange!")
    exchange_address_group = parser.add_mutually_exclusive_group(required=True)
    exchange_address_group.add_argument(
        "--production", action="store_true", help="Connect to the production exchange."
    )
    exchange_address_group.add_argument(
        "--test",
        type=str,
        choices=test_exchange_port_offsets.keys(),
        help="Connect to a test exchange.",
    )

    # Connect to a specific host. This is only intended to be used for debugging.
    exchange_address_group.add_argument(
        "--specific-address", type=str, metavar="HOST:PORT", help=argparse.SUPPRESS
    )

    args = parser.parse_args()
    args.add_socket_timeout = True

    if args.production:
        args.exchange_hostname = "production"
        args.port = 25000
    elif args.test:
        args.exchange_hostname = "test-exch-" + team_name
        args.port = 22000 + test_exchange_port_offsets[args.test]
        if args.test == "empty":
            args.add_socket_timeout = False
    elif args.specific_address:
        args.exchange_hostname, port = args.specific_address.split(":")
        args.port = int(port)

    return args


if __name__ == "__main__":
    # Check that [team_name] has been updated.
    assert team_name != "REPLAC" + "EME", (
        "Please put your team name in the variable [team_name]."
    )

    main()