# Analyzing bot data with Jupyter notebooks You can analyze the results of backtests and trading history easily using Jupyter notebooks. Sample notebooks are located at `user_data/notebooks/`. ## Pro tips * See [jupyter.org](https://jupyter.org/documentation) for usage instructions. * Don't forget to start a Jupyter notebook server from within your conda or venv environment or use [nb_conda_kernels](https://github.com/Anaconda-Platform/nb_conda_kernels)* * Copy the example notebook before use so your changes don't get clobbered with the next freqtrade update. ## Fine print Some tasks don't work especially well in notebooks. For example, anything using asynchronous execution is a problem for Jupyter. Also, freqtrade's primary entry point is the shell cli, so using pure python in a notebook bypasses arguments that provide required objects and parameters to helper functions. You may need to set those values or create expected objects manually. ## Recommended workflow | Task | Tool | --- | --- Bot operations | CLI Repetitive tasks | Shell scripts Data analysis & visualization | Notebook 1. Use the CLI to * download historical data * run a backtest * run with real-time data * export results 1. Collect these actions in shell scripts * save complicated commands with arguments * execute multi-step operations * automate testing strategies and preparing data for analysis 1. Use a notebook to * visualize data * munge and plot to generate insights ## Example utility snippets ### Change directory to root Jupyter notebooks execute from the notebook directory. The following snippet searches for the project root, so relative paths remain consistent. ```python import os from pathlib import Path # Change directory # Modify this cell to insure that the output shows the correct path. # Define all paths relative to the project root shown in the cell output project_root = "somedir/freqtrade" i=0 try: os.chdirdir(project_root) assert Path('LICENSE').is_file() except: while i<4 and (not Path('LICENSE').is_file()): os.chdir(Path(Path.cwd(), '../')) i+=1 project_root = Path.cwd() print(Path.cwd()) ``` ## Load existing objects into a Jupyter notebook These examples assume that you have already generated data using the cli. They will allow you to drill deeper into your results, and perform analysis which otherwise would make the output very difficult to digest due to information overload. ### Load backtest results into a pandas dataframe ```python from freqtrade.data.btanalysis import load_backtest_data # Load backtest results df = load_backtest_data("user_data/backtest_data/backtest-result.json") # Show value-counts per pair df.groupby("pair")["sell_reason"].value_counts() ``` ### Load live trading results into a pandas dataframe ``` python from freqtrade.data.btanalysis import load_trades_from_db # Fetch trades from database df = load_trades_from_db("sqlite:///tradesv3.sqlite") # Display results df.groupby("pair")["sell_reason"].value_counts() ``` ### Load multiple configuration files This option can be useful to inspect the results of passing in multiple configs ``` python import json from freqtrade.configuration import Configuration # Load config from multiple files config = Configuration.from_files(["config1.json", "config2.json"]) # Show the config in memory print(json.dumps(config, indent=1)) ``` ### Load exchange data to a pandas dataframe This loads candle data to a dataframe ```python from pathlib import Path from freqtrade.data.history import load_pair_history # Load data using values passed to function ticker_interval = "5m" data_location = Path('user_data', 'data', 'bitrex') pair = "BTC_USDT" candles = load_pair_history(datadir=data_location, ticker_interval=ticker_interval, pair=pair) # Confirm success print(f"Loaded len(candles) rows of data for {pair} from {data_location}") candles.head() ``` ## Strategy debugging example Debugging a strategy can be time-consuming. FreqTrade offers helper functions to visualize raw data. ### Define variables used in analyses You can override strategy settings as demonstrated below. ```python # Customize these according to your needs. # Define some constants ticker_interval = "5m" # Name of the strategy class strategy_name = 'TestStrategy' # Path to user data user_data_dir = 'user_data' # Location of the strategy strategy_location = Path(user_data_dir, 'strategies') # Location of the data data_location = Path(user_data_dir, 'data', 'binance') # Pair to analyze - Only use one pair here pair = "BTC_USDT" ``` ### Load exchange data ```python from pathlib import Path from freqtrade.data.history import load_pair_history # Load data using values set above candles = load_pair_history(datadir=data_location, ticker_interval=ticker_interval, pair=pair) # Confirm success print(f"Loaded {len(candles)} rows of data for {pair} from {data_location}") candles.head() ``` ### Load and run strategy * Rerun each time the strategy file is changed ```python from freqtrade.resolvers import StrategyResolver # Load strategy using values set above strategy = StrategyResolver({'strategy': strategy_name, 'user_data_dir': user_data_dir, 'strategy_path': strategy_location}).strategy # Generate buy/sell signals using strategy df = strategy.analyze_ticker(candles, {'pair': pair}) ``` ### Display the trade details * Note that using `data.tail()` is preferable to `data.head()` as most indicators have some "startup" data at the top of the dataframe. * Some possible problems * Columns with NaN values at the end of the dataframe * Columns used in `crossed*()` functions with completely different units * Comparison with full backtest * having 200 buy signals as output for one pair from `analyze_ticker()` does not necessarily mean that 200 trades will be made during backtesting. * Assuming you use only one condition such as, `df['rsi'] < 30` as buy condition, this will generate multiple "buy" signals for each pair in sequence (until rsi returns > 29). The bot will only buy on the first of these signals (and also only if a trade-slot ("max_open_trades") is still available), or on one of the middle signals, as soon as a "slot" becomes available. ```python # Report results print(f"Generated {df['buy'].sum()} buy signals") data = df.set_index('date', drop=True) data.tail() ``` Feel free to submit an issue or Pull Request enhancing this document if you would like to share ideas on how to best analyze the data.