""" Agent Session Logic =================== Core agent interaction functions for running autonomous coding sessions. """ import asyncio import io import re import sys from datetime import datetime, timedelta from pathlib import Path from typing import Optional from zoneinfo import ZoneInfo from claude_agent_sdk import ClaudeSDKClient # Fix Windows console encoding for Unicode characters (emoji, etc.) # Without this, print() crashes when Claude outputs emoji like ✅ if sys.platform == "win32": sys.stdout = io.TextIOWrapper(sys.stdout.buffer, encoding="utf-8", errors="replace", line_buffering=True) sys.stderr = io.TextIOWrapper(sys.stderr.buffer, encoding="utf-8", errors="replace", line_buffering=True) from client import create_client from progress import count_passing_tests, has_features, print_progress_summary, print_session_header from prompts import ( copy_spec_to_project, get_coding_prompt, get_initializer_prompt, get_single_feature_prompt, get_testing_prompt, ) # Configuration AUTO_CONTINUE_DELAY_SECONDS = 3 async def run_agent_session( client: ClaudeSDKClient, message: str, project_dir: Path, ) -> tuple[str, str]: """ Run a single agent session using Claude Agent SDK. Args: client: Claude SDK client message: The prompt to send project_dir: Project directory path Returns: (status, response_text) where status is: - "continue" if agent should continue working - "error" if an error occurred """ print("Sending prompt to Claude Agent SDK...\n") try: # Send the query await client.query(message) # Collect response text and show tool use response_text = "" async for msg in client.receive_response(): msg_type = type(msg).__name__ # Handle AssistantMessage (text and tool use) if msg_type == "AssistantMessage" and hasattr(msg, "content"): for block in msg.content: block_type = type(block).__name__ if block_type == "TextBlock" and hasattr(block, "text"): response_text += block.text print(block.text, end="", flush=True) elif block_type == "ToolUseBlock" and hasattr(block, "name"): print(f"\n[Tool: {block.name}]", flush=True) if hasattr(block, "input"): input_str = str(block.input) if len(input_str) > 200: print(f" Input: {input_str[:200]}...", flush=True) else: print(f" Input: {input_str}", flush=True) # Handle UserMessage (tool results) elif msg_type == "UserMessage" and hasattr(msg, "content"): for block in msg.content: block_type = type(block).__name__ if block_type == "ToolResultBlock": result_content = getattr(block, "content", "") is_error = getattr(block, "is_error", False) # Check if command was blocked by security hook if "blocked" in str(result_content).lower(): print(f" [BLOCKED] {result_content}", flush=True) elif is_error: # Show errors (truncated) error_str = str(result_content)[:500] print(f" [Error] {error_str}", flush=True) else: # Tool succeeded - just show brief confirmation print(" [Done]", flush=True) print("\n" + "-" * 70 + "\n") return "continue", response_text except Exception as e: print(f"Error during agent session: {e}") return "error", str(e) async def run_autonomous_agent( project_dir: Path, model: str, max_iterations: Optional[int] = None, yolo_mode: bool = False, feature_id: Optional[int] = None, agent_type: Optional[str] = None, ) -> None: """ Run the autonomous agent loop. Args: project_dir: Directory for the project model: Claude model to use max_iterations: Maximum number of iterations (None for unlimited) yolo_mode: If True, skip browser testing in coding agent prompts feature_id: If set, work only on this specific feature (used by orchestrator for coding agents) agent_type: Type of agent: "initializer", "coding", "testing", or None (auto-detect) """ print("\n" + "=" * 70) print(" AUTONOMOUS CODING AGENT") print("=" * 70) print(f"\nProject directory: {project_dir}") print(f"Model: {model}") if agent_type: print(f"Agent type: {agent_type}") if yolo_mode: print("Mode: YOLO (testing agents disabled)") if feature_id: print(f"Feature assignment: #{feature_id}") if max_iterations: print(f"Max iterations: {max_iterations}") else: print("Max iterations: Unlimited (will run until completion)") print() # Create project directory project_dir.mkdir(parents=True, exist_ok=True) # Determine agent type if not explicitly set if agent_type is None: # Auto-detect based on whether we have features # (This path is for legacy compatibility - orchestrator should always set agent_type) is_first_run = not has_features(project_dir) if is_first_run: agent_type = "initializer" else: agent_type = "coding" is_initializer = agent_type == "initializer" if is_initializer: print("Running as INITIALIZER agent") print() print("=" * 70) print(" NOTE: Initialization takes 10-20+ minutes!") print(" The agent is generating detailed test cases.") print(" This may appear to hang - it's working. Watch for [Tool: ...] output.") print("=" * 70) print() # Copy the app spec into the project directory for the agent to read copy_spec_to_project(project_dir) elif agent_type == "testing": print("Running as TESTING agent (regression testing)") print_progress_summary(project_dir) else: print("Running as CODING agent") print_progress_summary(project_dir) # Main loop iteration = 0 while True: iteration += 1 # Check if all features are already complete (before starting a new session) # Skip this check if running as initializer (needs to create features first) if not is_initializer and iteration == 1: passing, in_progress, total = count_passing_tests(project_dir) if total > 0 and passing == total: print("\n" + "=" * 70) print(" ALL FEATURES ALREADY COMPLETE!") print("=" * 70) print(f"\nAll {total} features are passing. Nothing left to do.") break # Check max iterations if max_iterations and iteration > max_iterations: print(f"\nReached max iterations ({max_iterations})") print("To continue, run the script again without --max-iterations") break # Print session header print_session_header(iteration, is_initializer) # Create client (fresh context) # Pass agent_id for browser isolation in multi-agent scenarios import os if agent_type == "testing": agent_id = f"testing-{os.getpid()}" # Unique ID for testing agents elif feature_id: agent_id = f"feature-{feature_id}" else: agent_id = None client = create_client(project_dir, model, yolo_mode=yolo_mode, agent_id=agent_id) # Choose prompt based on agent type if agent_type == "initializer": prompt = get_initializer_prompt(project_dir) elif agent_type == "testing": prompt = get_testing_prompt(project_dir) elif feature_id: # Single-feature mode (used by orchestrator for coding agents) prompt = get_single_feature_prompt(feature_id, project_dir, yolo_mode) else: # General coding prompt (legacy path) prompt = get_coding_prompt(project_dir) # Run session with async context manager # Wrap in try/except to handle MCP server startup failures gracefully try: async with client: status, response = await run_agent_session(client, prompt, project_dir) except Exception as e: print(f"Client/MCP server error: {e}") # Don't crash - return error status so the loop can retry status, response = "error", str(e) # Handle status if status == "continue": delay_seconds = AUTO_CONTINUE_DELAY_SECONDS target_time_str = None if "limit reached" in response.lower(): print("Claude Agent SDK indicated limit reached.") # Try to parse reset time from response match = re.search( r"(?i)\bresets(?:\s+at)?\s+(\d+)(?::(\d+))?\s*(am|pm)\s*\(([^)]+)\)", response, ) if match: hour = int(match.group(1)) minute = int(match.group(2)) if match.group(2) else 0 period = match.group(3).lower() tz_name = match.group(4).strip() # Convert to 24-hour format if period == "pm" and hour != 12: hour += 12 elif period == "am" and hour == 12: hour = 0 try: tz = ZoneInfo(tz_name) now = datetime.now(tz) target = now.replace( hour=hour, minute=minute, second=0, microsecond=0 ) # If target time has already passed today, wait until tomorrow if target <= now: target += timedelta(days=1) delta = target - now delay_seconds = min( delta.total_seconds(), 24 * 60 * 60 ) # Clamp to 24 hours max target_time_str = target.strftime("%B %d, %Y at %I:%M %p %Z") except Exception as e: print(f"Error parsing reset time: {e}, using default delay") if target_time_str: print( f"\nClaude Code Limit Reached. Agent will auto-continue in {delay_seconds:.0f}s ({target_time_str})...", flush=True, ) else: print( f"\nAgent will auto-continue in {delay_seconds:.0f}s...", flush=True ) sys.stdout.flush() # this should allow the pause to be displayed before sleeping print_progress_summary(project_dir) # Check if all features are complete - exit gracefully if done passing, in_progress, total = count_passing_tests(project_dir) if total > 0 and passing == total: print("\n" + "=" * 70) print(" ALL FEATURES COMPLETE!") print("=" * 70) print(f"\nCongratulations! All {total} features are passing.") print("The autonomous agent has finished its work.") break # Single-feature mode: exit after one session (orchestrator manages agents) if feature_id is not None: print(f"\nSingle-feature mode: Feature #{feature_id} session complete.") break await asyncio.sleep(delay_seconds) elif status == "error": print("\nSession encountered an error") print("Will retry with a fresh session...") await asyncio.sleep(AUTO_CONTINUE_DELAY_SECONDS) # Small delay between sessions if max_iterations is None or iteration < max_iterations: print("\nPreparing next session...\n") await asyncio.sleep(1) # Final summary print("\n" + "=" * 70) print(" SESSION COMPLETE") print("=" * 70) print(f"\nProject directory: {project_dir}") print_progress_summary(project_dir) # Print instructions for running the generated application print("\n" + "-" * 70) print(" TO RUN THE GENERATED APPLICATION:") print("-" * 70) print(f"\n cd {project_dir.resolve()}") print(" ./init.sh # Run the setup script") print(" # Or manually:") print(" npm install && npm run dev") print("\n Then open http://localhost:3000 (or check init.sh for the URL)") print("-" * 70) print("\nDone!")