# Research Script API Usage Research scripts executed via the `execute_research` MCP tool have access to the global API instance, which provides both data fetching and charting capabilities. ## Accessing the API ```python from dexorder.api import get_api import asyncio # Get the global API instance api = get_api() ``` ## Using the Data API The data API provides access to historical OHLC (Open, High, Low, Close) market data with smart caching via Iceberg. ### Fetching Historical Data The API accepts flexible timestamp formats for convenience: ```python from dexorder.api import get_api import asyncio from datetime import datetime api = get_api() # Method 1: Using Unix timestamps (seconds) df = asyncio.run(api.data.historical_ohlc( ticker="BINANCE:BTC/USDT", period_seconds=3600, # 1 hour candles start_time=1640000000, # Unix timestamp in seconds end_time=1640086400, extra_columns=["volume"] )) # Method 2: Using date strings df = asyncio.run(api.data.historical_ohlc( ticker="BINANCE:BTC/USDT", period_seconds=3600, start_time="2021-12-20", # Simple date string end_time="2021-12-21", extra_columns=["volume"] )) # Method 3: Using date strings with time df = asyncio.run(api.data.historical_ohlc( ticker="BINANCE:BTC/USDT", period_seconds=3600, start_time="2021-12-20 00:00:00", end_time="2021-12-20 23:59:59", extra_columns=["volume"] )) # Method 4: Using datetime objects df = asyncio.run(api.data.historical_ohlc( ticker="BINANCE:BTC/USDT", period_seconds=3600, start_time=datetime(2021, 12, 20), end_time=datetime(2021, 12, 21), extra_columns=["volume"] )) print(f"Loaded {len(df)} candles") print(df.head()) ``` ### Available Extra Columns - `"volume"` - Total volume - `"buy_vol"` - Buy-side volume - `"sell_vol"` - Sell-side volume - `"open_time"`, `"high_time"`, `"low_time"`, `"close_time"` - Timestamps for each price point - `"open_interest"` - Open interest (for futures) - `"ticker"` - Market identifier - `"period_seconds"` - Period in seconds ## Using the Charting API The charting API provides styled financial charts with OHLC candlesticks and technical indicators. ### Creating a Basic Candlestick Chart ```python from dexorder.api import get_api import asyncio from datetime import datetime api = get_api() # Fetch data df = asyncio.run(api.data.historical_ohlc( ticker="BINANCE:BTC/USDT", period_seconds=3600, start_time="2021-12-20", end_time="2021-12-21", extra_columns=["volume"] )) # Create candlestick chart (synchronous) fig, ax = api.charting.plot_ohlc( df, title="BTC/USDT 1H", volume=True, # Show volume bars style="charles" # Chart style ) # The figure is automatically captured and returned to the MCP client ``` ### Adding Indicator Panels ```python from dexorder.api import get_api import asyncio import pandas as pd api = get_api() # Fetch data df = asyncio.run(api.data.historical_ohlc( ticker="BINANCE:BTC/USDT", period_seconds=3600, start_time="2021-12-20", end_time="2021-12-21" )) # Calculate a simple moving average df['sma_20'] = df['close'].rolling(window=20).mean() # Create chart fig, ax = api.charting.plot_ohlc(df, title="BTC/USDT with SMA") # Overlay the SMA on the price chart ax.plot(df.index, df['sma_20'], label="SMA 20", color="blue", linewidth=2) ax.legend() # Add RSI indicator panel below df['rsi'] = calculate_rsi(df['close'], 14) # Your RSI calculation rsi_ax = api.charting.add_indicator_panel( fig, df, columns=["rsi"], ylabel="RSI", ylim=(0, 100) ) rsi_ax.axhline(70, color='red', linestyle='--', alpha=0.5) rsi_ax.axhline(30, color='green', linestyle='--', alpha=0.5) ``` ## Complete Example ```python from dexorder.api import get_api import asyncio import pandas as pd # Get API instance api = get_api() # Fetch historical data using date strings (easiest for research) df = asyncio.run(api.data.historical_ohlc( ticker="BINANCE:BTC/USDT", period_seconds=3600, # 1 hour start_time="2021-12-20", end_time="2021-12-21", extra_columns=["volume"] )) # Add some analysis df['sma_20'] = df['close'].rolling(window=20).mean() df['sma_50'] = df['close'].rolling(window=50).mean() # Create chart with volume fig, ax = api.charting.plot_ohlc( df, title="BTC/USDT Analysis", volume=True, style="charles" ) # Overlay moving averages ax.plot(df.index, df['sma_20'], label="SMA 20", color="blue", linewidth=1.5) ax.plot(df.index, df['sma_50'], label="SMA 50", color="red", linewidth=1.5) ax.legend() # Print summary statistics print(f"Period: {len(df)} candles") print(f"High: {df['high'].max()}") print(f"Low: {df['low'].min()}") print(f"Mean Volume: {df['volume'].mean():.2f}") ``` ## Notes - **Async vs Sync**: Data API methods are async and require `asyncio.run()`. Charting API methods are synchronous. - **Figure Capture**: All matplotlib figures created during script execution are automatically captured and returned as PNG images. - **Print Statements**: All `print()` output is captured and returned as text content. - **Errors**: Exceptions are caught and reported in the execution results. - **Timestamps**: The API accepts flexible timestamp formats: - Unix timestamps in **seconds** (int or float) - e.g., `1640000000` - Date strings - e.g., `"2021-12-20"` or `"2021-12-20 12:00:00"` - datetime objects - e.g., `datetime(2021, 12, 20)` - pandas Timestamp objects - Internally, the system uses microseconds since epoch, but you don't need to worry about this conversion. - **Price/Volume Values**: All prices and volumes are returned as decimal floats, automatically converted from internal storage format using market metadata. No manual conversion is needed. ## Available Chart Styles - `"charles"` (default) - `"binance"` - `"blueskies"` - `"brasil"` - `"checkers"` - `"classic"` - `"mike"` - `"nightclouds"` - `"sas"` - `"starsandstripes"` - `"yahoo"`