refactor: break up delegate_to_kimi into helpers

Extract _find_kimi_cli, _resolve_workdir, and _run_kimi from the 68-line
delegate_to_kimi function, reducing it to ~15 lines.

Fixes #635

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>

src/dashboard/routes/calm.py

@@ -38,6 +38,56 @@ def get_later_tasks(db: Session) -> list[Task]:
     )
 
 
+def _create_mit_tasks(db: Session, titles: list[str | None]) -> list[int]:
+    """Create MIT tasks from a list of titles, return their IDs."""
+    task_ids: list[int] = []
+    for title in titles:
+        if title:
+            task = Task(
+                title=title,
+                is_mit=True,
+                state=TaskState.LATER,
+                certainty=TaskCertainty.SOFT,
+            )
+            db.add(task)
+            db.commit()
+            db.refresh(task)
+            task_ids.append(task.id)
+    return task_ids
+
+
+def _create_other_tasks(db: Session, other_tasks: str):
+    """Create non-MIT tasks from newline-separated text."""
+    for line in other_tasks.split("\n"):
+        line = line.strip()
+        if line:
+            task = Task(
+                title=line,
+                state=TaskState.LATER,
+                certainty=TaskCertainty.FUZZY,
+            )
+            db.add(task)
+
+
+def _seed_now_next(db: Session):
+    """Set initial NOW/NEXT states when both slots are empty."""
+    if get_now_task(db) or get_next_task(db):
+        return
+    later_tasks = (
+        db.query(Task)
+        .filter(Task.state == TaskState.LATER)
+        .order_by(Task.is_mit.desc(), Task.sort_order)
+        .all()
+    )
+    if later_tasks:
+        later_tasks[0].state = TaskState.NOW
+        db.add(later_tasks[0])
+        db.flush()
+        if len(later_tasks) > 1:
+            later_tasks[1].state = TaskState.NEXT
+            db.add(later_tasks[1])
+
+
 def promote_tasks(db: Session):
     """Enforce the NOW/NEXT/LATER state machine invariants.
 
@@ -114,63 +164,19 @@ async def post_morning_ritual(
     other_tasks: str = Form(""),
 ):
     """Process morning ritual: create MITs, other tasks, and set initial states."""
-    # Create Journal Entry
-    mit_task_ids = []
     journal_entry = JournalEntry(entry_date=date.today())
     db.add(journal_entry)
     db.commit()
     db.refresh(journal_entry)
 
-    # Create MIT tasks
-    for mit_title in [mit1_title, mit2_title, mit3_title]:
-        if mit_title:
-            task = Task(
-                title=mit_title,
-                is_mit=True,
-                state=TaskState.LATER,  # Initially LATER, will be promoted
-                certainty=TaskCertainty.SOFT,
-            )
-            db.add(task)
-            db.commit()
-            db.refresh(task)
-            mit_task_ids.append(task.id)
-
-    journal_entry.mit_task_ids = mit_task_ids
+    journal_entry.mit_task_ids = _create_mit_tasks(db, [mit1_title, mit2_title, mit3_title])
     db.add(journal_entry)
 
-    # Create other tasks
-    for task_title in other_tasks.split("\n"):
-        task_title = task_title.strip()
-        if task_title:
-            task = Task(
-                title=task_title,
-                state=TaskState.LATER,
-                certainty=TaskCertainty.FUZZY,
-            )
-            db.add(task)
-
+    _create_other_tasks(db, other_tasks)
     db.commit()
 
-    # Set initial NOW/NEXT states
-    # Set initial NOW/NEXT states after all tasks are created
-    if not get_now_task(db) and not get_next_task(db):
-        later_tasks = (
-            db.query(Task)
-            .filter(Task.state == TaskState.LATER)
-            .order_by(Task.is_mit.desc(), Task.sort_order)
-            .all()
-        )
-        if later_tasks:
-            # Set the highest priority LATER task to NOW
-            later_tasks[0].state = TaskState.NOW
-            db.add(later_tasks[0])
-            db.flush()  # Flush to make the change visible for the next query
-
-            # Set the next highest priority LATER task to NEXT
-            if len(later_tasks) > 1:
-                later_tasks[1].state = TaskState.NEXT
-                db.add(later_tasks[1])
-    db.commit()  # Commit changes after initial NOW/NEXT setup
+    _seed_now_next(db)
+    db.commit()
 
     return templates.TemplateResponse(
         request,

src/timmy/conversation.py

@@ -174,15 +174,8 @@ class ConversationManager:
 
         return None
 
-    def should_use_tools(self, message: str, context: ConversationContext) -> bool:
-        """Determine if this message likely requires tools.
-
-        Returns True if tools are likely needed, False for simple chat.
-        """
-        message_lower = message.lower().strip()
-
-        # Tool keywords that suggest tool usage is needed
-        tool_keywords = [
+    _TOOL_KEYWORDS = frozenset(
+        {
             "search",
             "look up",
             "find",
@@ -203,10 +196,11 @@ class ConversationManager:
             "shell",
             "command",
             "install",
-        ]
+        }
+    )
 
-        # Chat-only keywords that definitely don't need tools
-        chat_only = [
+    _CHAT_ONLY_KEYWORDS = frozenset(
+        {
             "hello",
             "hi ",
             "hey",
@@ -221,30 +215,47 @@ class ConversationManager:
             "goodbye",
             "tell me about yourself",
             "what can you do",
-        ]
+        }
+    )
 
-        # Check for chat-only patterns first
-        for pattern in chat_only:
-            if pattern in message_lower:
-                return False
+    _SIMPLE_QUESTION_PREFIXES = ("what is", "who is", "how does", "why is", "when did", "where is")
+    _TIME_WORDS = ("today", "now", "current", "latest", "this week", "this month")
 
-        # Check for tool keywords
-        for keyword in tool_keywords:
-            if keyword in message_lower:
-                return True
+    def _is_chat_only(self, message_lower: str) -> bool:
+        """Return True if the message matches a chat-only pattern."""
+        return any(kw in message_lower for kw in self._CHAT_ONLY_KEYWORDS)
 
-        # Simple questions (starting with what, who, how, why, when, where)
-        # usually don't need tools unless about current/real-time info
-        simple_question_words = ["what is", "who is", "how does", "why is", "when did", "where is"]
-        for word in simple_question_words:
-            if message_lower.startswith(word):
-                # Check if it's asking about current/real-time info
-                time_words = ["today", "now", "current", "latest", "this week", "this month"]
-                if any(t in message_lower for t in time_words):
-                    return True
-                return False
+    def _has_tool_keyword(self, message_lower: str) -> bool:
+        """Return True if the message contains a tool-related keyword."""
+        return any(kw in message_lower for kw in self._TOOL_KEYWORDS)
+
+    def _is_simple_question(self, message_lower: str) -> bool | None:
+        """Check if message is a simple question.
+
+        Returns True if it needs tools (real-time info), False if it
+        doesn't, or None if the message isn't a simple question.
+        """
+        for prefix in self._SIMPLE_QUESTION_PREFIXES:
+            if message_lower.startswith(prefix):
+                return any(t in message_lower for t in self._TIME_WORDS)
+        return None
+
+    def should_use_tools(self, message: str, context: ConversationContext) -> bool:
+        """Determine if this message likely requires tools.
+
+        Returns True if tools are likely needed, False for simple chat.
+        """
+        message_lower = message.lower().strip()
+
+        if self._is_chat_only(message_lower):
+            return False
+        if self._has_tool_keyword(message_lower):
+            return True
+
+        simple = self._is_simple_question(message_lower)
+        if simple is not None:
+            return simple
 
-        # Default: don't use tools for unclear cases
         return False
 
 

src/timmy/tools_delegation/__init__.py

@@ -89,52 +89,41 @@ def list_swarm_agents() -> dict[str, Any]:
         }
 
 
-def delegate_to_kimi(task: str, working_directory: str = "") -> dict[str, Any]:
-    """Delegate a coding task to Kimi, the external coding agent.
-
-    Kimi has 262K context and is optimized for code tasks: writing,
-    debugging, refactoring, test writing. Timmy thinks and plans,
-    Kimi executes bulk code changes.
-
-    Args:
-        task: Clear, specific coding task description. Include file paths
-              and expected behavior. Good: "Fix the bug in src/timmy/session.py
-              where sessions don't persist." Bad: "Fix all bugs."
-        working_directory: Directory for Kimi to work in. Defaults to repo root.
-
-    Returns:
-        Dict with success status and Kimi's output or error.
-    """
+def _find_kimi_cli() -> str | None:
+    """Return the path to the kimi CLI, or None if not installed."""
     import shutil
-    import subprocess
+
+    return shutil.which("kimi")
+
+
+def _resolve_workdir(working_directory: str) -> str | dict[str, Any]:
+    """Resolve and validate the working directory.
+
+    Returns the resolved path string, or an error dict if invalid.
+    """
     from pathlib import Path
 
     from config import settings
 
-    kimi_path = shutil.which("kimi")
-    if not kimi_path:
-        return {
-            "success": False,
-            "error": "kimi CLI not found on PATH. Install with: pip install kimi-cli",
-        }
-
     workdir = working_directory or settings.repo_root
     if not Path(workdir).is_dir():
         return {
             "success": False,
             "error": f"Working directory does not exist: {workdir}",
         }
+    return workdir
 
-    cmd = [kimi_path, "--print", "-p", task]
 
-    logger.info("Delegating to Kimi: %s (cwd=%s)", task[:80], workdir)
+def _run_kimi(cmd: list[str], workdir: str) -> dict[str, Any]:
+    """Execute the kimi subprocess and return a result dict."""
+    import subprocess
 
     try:
         result = subprocess.run(
             cmd,
             capture_output=True,
             text=True,
-            timeout=300,  # 5 minute timeout for coding tasks
+            timeout=300,
             cwd=workdir,
         )
 
@@ -157,3 +146,34 @@ def delegate_to_kimi(task: str, working_directory: str = "") -> dict[str, Any]:
             "success": False,
             "error": f"Failed to run Kimi: {exc}",
         }
+
+
+def delegate_to_kimi(task: str, working_directory: str = "") -> dict[str, Any]:
+    """Delegate a coding task to Kimi, the external coding agent.
+
+    Kimi has 262K context and is optimized for code tasks: writing,
+    debugging, refactoring, test writing. Timmy thinks and plans,
+    Kimi executes bulk code changes.
+
+    Args:
+        task: Clear, specific coding task description. Include file paths
+              and expected behavior. Good: "Fix the bug in src/timmy/session.py
+              where sessions don't persist." Bad: "Fix all bugs."
+        working_directory: Directory for Kimi to work in. Defaults to repo root.
+
+    Returns:
+        Dict with success status and Kimi's output or error.
+    """
+    kimi_path = _find_kimi_cli()
+    if not kimi_path:
+        return {
+            "success": False,
+            "error": "kimi CLI not found on PATH. Install with: pip install kimi-cli",
+        }
+
+    workdir = _resolve_workdir(working_directory)
+    if isinstance(workdir, dict):
+        return workdir
+
+    logger.info("Delegating to Kimi: %s (cwd=%s)", task[:80], workdir)
+    return _run_kimi([kimi_path, "--print", "-p", task], workdir)