# -*- coding: utf-8 -*- # ------------------------------------------------------------------------------ # # Copyright 2023 Valory AG # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # # ------------------------------------------------------------------------------ import functools import warnings from datetime import datetime, timedelta from typing import Optional, Generator, Callable import pandas as pd import requests from tqdm import tqdm from typing import List, Dict from utils import SUBGRAPH_API_KEY, DATA_DIR, TMP_DIR, transform_to_datetime from web3_utils import ( FPMM_QS_CREATOR, FPMM_PEARL_CREATOR, query_omen_xdai_subgraph, OMEN_SUBGRAPH_URL, ) from queries import ( FPMMS_QUERY, ID_FIELD, DATA_FIELD, ANSWER_FIELD, QUERY_FIELD, TITLE_FIELD, OUTCOMES_FIELD, ERROR_FIELD, QUESTION_FIELD, FPMMS_FIELD, ) ResponseItemType = List[Dict[str, str]] SubgraphResponseType = Dict[str, ResponseItemType] BATCH_SIZE = 1000 DEFAULT_TO_TIMESTAMP = 2147483647 # around year 2038 DEFAULT_FROM_TIMESTAMP = 0 MAX_UINT_HEX = "0xffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff" DEFAULT_FILENAME = "fpmms.parquet" market_creators_map = {"quickstart": FPMM_QS_CREATOR, "pearl": FPMM_PEARL_CREATOR} class RetriesExceeded(Exception): """Exception to raise when retries are exceeded during data-fetching.""" def __init__( self, msg="Maximum retries were exceeded while trying to fetch the data!" ): super().__init__(msg) def hacky_retry(func: Callable, n_retries: int = 3) -> Callable: """Create a hacky retry strategy. Unfortunately, we cannot use `requests.packages.urllib3.util.retry.Retry`, because the subgraph does not return the appropriate status codes in case of failure. Instead, it always returns code 200. Thus, we raise exceptions manually inside `make_request`, catch those exceptions in the hacky retry decorator and try again. Finally, if the allowed number of retries is exceeded, we raise a custom `RetriesExceeded` exception. :param func: the input request function. :param n_retries: the maximum allowed number of retries. :return: The request method with the hacky retry strategy applied. """ @functools.wraps(func) def wrapper_hacky_retry(*args, **kwargs) -> SubgraphResponseType: """The wrapper for the hacky retry. :return: a response dictionary. """ retried = 0 while retried <= n_retries: try: if retried > 0: warnings.warn(f"Retrying {retried}/{n_retries}...") return func(*args, **kwargs) except (ValueError, ConnectionError) as e: warnings.warn(e.args[0]) finally: retried += 1 raise RetriesExceeded() return wrapper_hacky_retry @hacky_retry def query_subgraph(url: str, query: str, key: str) -> SubgraphResponseType: """Query a subgraph. Args: url: the subgraph's URL. query: the query to be used. key: the key to use in order to access the required data. Returns: a response dictionary. """ content = {QUERY_FIELD: query} headers = { "Accept": "application/json", "Content-Type": "application/json", } res = requests.post(url, json=content, headers=headers) if res.status_code != 200: raise ConnectionError( "Something went wrong while trying to communicate with the subgraph " f"(Error: {res.status_code})!\n{res.text}" ) body = res.json() if ERROR_FIELD in body.keys(): raise ValueError(f"The given query is not correct: {body[ERROR_FIELD]}") data = body.get(DATA_FIELD, {}).get(key, None) if data is None: raise ValueError(f"Unknown error encountered!\nRaw response: \n{body}") return data def transform_fpmmTrades(df: pd.DataFrame) -> pd.DataFrame: print("Transforming trades dataframe") # convert creator to address df["creator"] = df["creator"].apply(lambda x: x["id"]) # normalize fpmm column fpmm = pd.json_normalize(df["fpmm"]) fpmm.columns = [f"fpmm.{col}" for col in fpmm.columns] df = pd.concat([df, fpmm], axis=1) # drop fpmm column df.drop(["fpmm"], axis=1, inplace=True) # change creator to creator_address df.rename(columns={"creator": "trader_address"}, inplace=True) return df def create_fpmmTrades( from_timestamp: int = DEFAULT_FROM_TIMESTAMP, to_timestamp: int = DEFAULT_TO_TIMESTAMP, ): """Create fpmmTrades for all trades.""" print("Getting trades from Quickstart markets") # Quickstart trades qs_trades_json = query_omen_xdai_subgraph( trader_category="quickstart", from_timestamp=from_timestamp, to_timestamp=to_timestamp, fpmm_from_timestamp=from_timestamp, fpmm_to_timestamp=to_timestamp, ) print(f"length of the qs_trades_json dataset {len(qs_trades_json)}") # convert to dataframe qs_df = pd.DataFrame(qs_trades_json["data"]["fpmmTrades"]) qs_df["market_creator"] = "quickstart" qs_df = transform_fpmmTrades(qs_df) # Pearl trades print("Getting trades from Pearl markets") pearl_trades_json = query_omen_xdai_subgraph( trader_category="pearl", from_timestamp=from_timestamp, to_timestamp=DEFAULT_TO_TIMESTAMP, fpmm_from_timestamp=from_timestamp, fpmm_to_timestamp=DEFAULT_TO_TIMESTAMP, ) print(f"length of the pearl_trades_json dataset {len(pearl_trades_json)}") # convert to dataframe pearl_df = pd.DataFrame(pearl_trades_json["data"]["fpmmTrades"]) pearl_df["market_creator"] = "pearl" pearl_df = transform_fpmmTrades(pearl_df) return pd.concat([qs_df, pearl_df], ignore_index=True) def fpmms_fetcher(trader_category: str) -> Generator[ResponseItemType, int, None]: """An indefinite fetcher for the FPMMs.""" omen_subgraph = OMEN_SUBGRAPH_URL.substitute(subgraph_api_key=SUBGRAPH_API_KEY) print(f"omen_subgraph = {omen_subgraph}") if trader_category == "pearl": creator_id = FPMM_PEARL_CREATOR else: # quickstart creator_id = FPMM_QS_CREATOR while True: fpmm_id = yield fpmms_query = FPMMS_QUERY.substitute( creator=creator_id, fpmm_id=fpmm_id, fpmms_field=FPMMS_FIELD, first=BATCH_SIZE, id_field=ID_FIELD, answer_field=ANSWER_FIELD, question_field=QUESTION_FIELD, outcomes_field=OUTCOMES_FIELD, title_field=TITLE_FIELD, ) print(f"markets query = {fpmms_query}") yield query_subgraph(omen_subgraph, fpmms_query, FPMMS_FIELD) def fetch_qs_fpmms() -> pd.DataFrame: """Fetch all the fpmms of the creator.""" latest_id = "" fpmms = [] trader_category = "quickstart" print(f"Getting markets for {trader_category}") fetcher = fpmms_fetcher(trader_category) for _ in tqdm(fetcher, unit="fpmms", unit_scale=BATCH_SIZE): batch = fetcher.send(latest_id) if len(batch) == 0: break latest_id = batch[-1].get(ID_FIELD, "") if latest_id == "": raise ValueError(f"Unexpected data format retrieved: {batch}") fpmms.extend(batch) return pd.DataFrame(fpmms) def fetch_pearl_fpmms() -> pd.DataFrame: """Fetch all the fpmms of the creator.""" latest_id = "" fpmms = [] trader_category = "pearl" print(f"Getting markets for {trader_category}") fetcher = fpmms_fetcher(trader_category) for _ in tqdm(fetcher, unit="fpmms", unit_scale=BATCH_SIZE): batch = fetcher.send(latest_id) if len(batch) == 0: break latest_id = batch[-1].get(ID_FIELD, "") if latest_id == "": raise ValueError(f"Unexpected data format retrieved: {batch}") fpmms.extend(batch) return pd.DataFrame(fpmms) def get_answer(fpmm: pd.Series) -> str: """Get an answer from its index, using Series of an FPMM.""" return fpmm[QUESTION_FIELD][OUTCOMES_FIELD][fpmm[ANSWER_FIELD]] def transform_fpmms(fpmms: pd.DataFrame) -> pd.DataFrame: """Transform an FPMMS dataframe.""" transformed = fpmms.dropna() transformed = transformed.drop_duplicates([ID_FIELD]) transformed = transformed.loc[transformed[ANSWER_FIELD] != MAX_UINT_HEX] transformed.loc[:, ANSWER_FIELD] = ( transformed[ANSWER_FIELD].str.slice(-1).astype(int) ) transformed.loc[:, ANSWER_FIELD] = transformed.apply(get_answer, axis=1) transformed = transformed.drop(columns=[QUESTION_FIELD]) return transformed def etl(filename: Optional[str] = None) -> pd.DataFrame: """Fetch, process, store and return the markets as a Dataframe.""" qs_fpmms = fetch_qs_fpmms() qs_fpmms = transform_fpmms(qs_fpmms) qs_fpmms["market_creator"] = "quickstart" print(f"Results for the market creator quickstart. Len = {len(qs_fpmms)}") pearl_fpmms = fetch_pearl_fpmms() pearl_fpmms = transform_fpmms(pearl_fpmms) pearl_fpmms["market_creator"] = "pearl" print(f"Results for the market creator pearl. Len = {len(pearl_fpmms)}") fpmms = pd.concat([qs_fpmms, pearl_fpmms], ignore_index=True) if filename: fpmms.to_parquet(DATA_DIR / filename, index=False) return fpmms def read_global_trades_file() -> pd.DataFrame: try: trades_filename = "fpmmTrades.parquet" fpmms_trades = pd.read_parquet(TMP_DIR / trades_filename) except FileNotFoundError: print("Error: fpmmTrades.parquet not found. No market creator added") return return fpmms_trades def add_market_creator(tools: pd.DataFrame) -> None: # Check if fpmmTrades.parquet is in the same directory fpmms_trades = read_global_trades_file() tools["market_creator"] = "" # traverse the list of traders tools_no_market_creator = 0 traders_list = list(tools.trader_address.unique()) for trader_address in traders_list: market_creator = "" try: trades = fpmms_trades[fpmms_trades["trader_address"] == trader_address] market_creator = trades.iloc[0]["market_creator"] # first value is enough except Exception: print(f"ERROR getting the market creator of {trader_address}") tools_no_market_creator += 1 continue # update tools.loc[tools["trader_address"] == trader_address, "market_creator"] = ( market_creator ) # filter those tools where we don't have market creator info tools = tools.loc[tools["market_creator"] != ""] print(f"Number of tools with no market creator info = {tools_no_market_creator}") return tools def fpmmTrades_etl( trades_filename: str, from_timestamp: int, to_timestamp: int = DEFAULT_TO_TIMESTAMP ) -> None: print("Generating the trades file") try: fpmmTrades = create_fpmmTrades( from_timestamp=from_timestamp, to_timestamp=to_timestamp ) except FileNotFoundError: print(f"Error creating {trades_filename} file .") # make sure trader_address is in the columns assert "trader_address" in fpmmTrades.columns, "trader_address column not found" # lowercase and strip creator_address fpmmTrades["trader_address"] = fpmmTrades["trader_address"].str.lower().str.strip() fpmmTrades.to_parquet(DATA_DIR / trades_filename, index=False) return def check_current_week_data(trades_df: pd.DataFrame) -> pd.DataFrame: """Function to check if all current weeks data is present, if not, then add the missing data from previous file""" # Get current date now = datetime.now() # Get start of the current week (Monday) start_of_week = now - timedelta(days=now.weekday()) start_of_week = start_of_week.replace(hour=0, minute=0, second=0, microsecond=0) print(f"start of the week = {start_of_week}") trades_df["creation_timestamp"] = pd.to_datetime(trades_df["creationTimestamp"]) trades_df["creation_date"] = trades_df["creation_timestamp"].dt.date trades_df["creation_date"] = pd.to_datetime(trades_df["creation_date"]) # Check dataframe min_date = min(trades_df.creation_date) if min_date > start_of_week: # missing data of current week in the trades file fpmms_trades = read_global_trades_file() # get missing data missing_data = fpmms_trades[ (fpmms_trades["creation_date"] >= start_of_week) & (fpmms_trades["creation_date"] < min_date) ] merge_df = pd.concat([trades_df, missing_data], ignore_index=True) merge_df.drop_duplicates("id", keep="last", inplace=True) return merge_df # no update needed return trades_df if __name__ == "__main__": etl("all_fpmms.parquet")