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[loop-cycle-1] refactor: split dispatcher.py into dispatch/ package (#1450) #1469

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Timmy merged 1 commits from refactor/split-dispatcher into main 2026-03-24 21:16:23 +00:00
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5 changed files with 966 additions and 883 deletions
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40
src/timmy/dispatch/__init__.py Normal file
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"""Agent dispatch package — split from ``timmy.dispatcher``.
Re-exports all public (and commonly-tested private) names so that
``from timmy.dispatch import X`` works for every symbol that was
previously available in ``timmy.dispatcher``.
"""
from .assignment import (
DispatchResult,
_dispatch_local,
_dispatch_via_api,
_dispatch_via_gitea,
dispatch_task,
)
from .queue import wait_for_completion
from .routing import (
AGENT_REGISTRY,
AgentSpec,
AgentType,
DispatchStatus,
TaskType,
infer_task_type,
select_agent,
)
__all__ = [
"AgentType",
"TaskType",
"DispatchStatus",
"AgentSpec",
"AGENT_REGISTRY",
"DispatchResult",
"select_agent",
"infer_task_type",
"dispatch_task",
"wait_for_completion",
"_dispatch_local",
"_dispatch_via_api",
"_dispatch_via_gitea",
]

491
src/timmy/dispatch/assignment.py Normal file
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"""Core dispatch functions — validate, format, and send tasks to agents.
Contains :func:`dispatch_task` (the primary entry point) and the
per-interface dispatch helpers (:func:`_dispatch_via_gitea`,
:func:`_dispatch_via_api`, :func:`_dispatch_local`).
"""
from __future__ import annotations
import logging
from dataclasses import dataclass, field
from typing import Any
from config import settings
from .queue import _apply_gitea_label, _log_escalation, _post_gitea_comment
from .routing import (
AGENT_REGISTRY,
AgentType,
DispatchStatus,
TaskType,
infer_task_type,
select_agent,
)
logger = logging.getLogger(__name__)
# ---------------------------------------------------------------------------
# Dispatch result
# ---------------------------------------------------------------------------
@dataclass
class DispatchResult:
"""Outcome of a dispatch call."""
task_type: TaskType
agent: AgentType
issue_number: int | None
status: DispatchStatus
comment_id: int | None = None
label_applied: str | None = None
error: str | None = None
retry_count: int = 0
metadata: dict[str, Any] = field(default_factory=dict)
@property
def success(self) -> bool: # noqa: D401
return self.status in (DispatchStatus.ASSIGNED, DispatchStatus.COMPLETED)
# ---------------------------------------------------------------------------
# Core dispatch functions
# ---------------------------------------------------------------------------
def _format_assignment_comment(
display_name: str,
task_type: TaskType,
description: str,
acceptance_criteria: list[str],
) -> str:
"""Build the markdown comment body for a task assignment.
Args:
display_name: Human-readable agent name.
task_type: The inferred task type.
description: Task description.
acceptance_criteria: List of acceptance criteria strings.
Returns:
Formatted markdown string for the comment.
"""
criteria_md = (
"\n".join(f"- {c}" for c in acceptance_criteria)
if acceptance_criteria
else "_None specified_"
)
return (
f"## Assigned to {display_name}\n\n"
f"**Task type:** `{task_type.value}`\n\n"
f"**Description:**\n{description}\n\n"
f"**Acceptance criteria:**\n{criteria_md}\n\n"
f"---\n*Dispatched by Timmy agent dispatcher.*"
)
def _select_label(agent: AgentType) -> str | None:
"""Return the Gitea label for an agent based on its spec.
Args:
agent: The target agent.
Returns:
Label name or None if the agent has no label.
"""
return AGENT_REGISTRY[agent].gitea_label
async def _dispatch_via_gitea(
agent: AgentType,
issue_number: int,
title: str,
description: str,
acceptance_criteria: list[str],
) -> DispatchResult:
"""Assign a task by applying a Gitea label and posting an assignment comment.
Args:
agent: Target agent.
issue_number: Gitea issue to assign.
title: Short task title.
description: Full task description.
acceptance_criteria: List of acceptance criteria strings.
Returns:
:class:`DispatchResult` describing the outcome.
"""
try:
import httpx
except ImportError as exc:
return DispatchResult(
task_type=TaskType.ROUTINE_CODING,
agent=agent,
issue_number=issue_number,
status=DispatchStatus.FAILED,
error=f"Missing dependency: {exc}",
)
spec = AGENT_REGISTRY[agent]
task_type = infer_task_type(title, description)
if not settings.gitea_enabled or not settings.gitea_token:
return DispatchResult(
task_type=task_type,
agent=agent,
issue_number=issue_number,
status=DispatchStatus.FAILED,
error="Gitea integration not configured (no token or disabled).",
)
base_url = f"{settings.gitea_url}/api/v1"
repo = settings.gitea_repo
headers = {
"Authorization": f"token {settings.gitea_token}",
"Content-Type": "application/json",
}
comment_id: int | None = None
label_applied: str | None = None
async with httpx.AsyncClient(timeout=15) as client:
# 1. Apply agent label (if applicable)
label = _select_label(agent)
if label:
ok = await _apply_gitea_label(client, base_url, repo, headers, issue_number, label)
if ok:
label_applied = label
logger.info(
"Applied label %r to issue #%s for %s",
label,
issue_number,
spec.display_name,
)
else:
logger.warning(
"Could not apply label %r to issue #%s",
label,
issue_number,
)
# 2. Post assignment comment
comment_body = _format_assignment_comment(
spec.display_name, task_type, description, acceptance_criteria
)
comment_id = await _post_gitea_comment(
client, base_url, repo, headers, issue_number, comment_body
)
if comment_id is not None or label_applied is not None:
logger.info(
"Dispatched issue #%s to %s (label=%r, comment=%s)",
issue_number,
spec.display_name,
label_applied,
comment_id,
)
return DispatchResult(
task_type=task_type,
agent=agent,
issue_number=issue_number,
status=DispatchStatus.ASSIGNED,
comment_id=comment_id,
label_applied=label_applied,
)
return DispatchResult(
task_type=task_type,
agent=agent,
issue_number=issue_number,
status=DispatchStatus.FAILED,
error="Failed to apply label and post comment — check Gitea connectivity.",
)
async def _dispatch_via_api(
agent: AgentType,
title: str,
description: str,
acceptance_criteria: list[str],
issue_number: int | None = None,
endpoint: str | None = None,
) -> DispatchResult:
"""Dispatch a task to an external HTTP API agent.
Args:
agent: Target agent.
title: Short task title.
description: Task description.
acceptance_criteria: List of acceptance criteria.
issue_number: Optional Gitea issue for cross-referencing.
endpoint: Override API endpoint URL (uses spec default if omitted).
Returns:
:class:`DispatchResult` describing the outcome.
"""
spec = AGENT_REGISTRY[agent]
task_type = infer_task_type(title, description)
url = endpoint or spec.api_endpoint
if not url:
return DispatchResult(
task_type=task_type,
agent=agent,
issue_number=issue_number,
status=DispatchStatus.FAILED,
error=f"No API endpoint configured for agent {agent.value}.",
)
payload = {
"title": title,
"description": description,
"acceptance_criteria": acceptance_criteria,
"issue_number": issue_number,
"agent": agent.value,
"task_type": task_type.value,
}
try:
import httpx
async with httpx.AsyncClient(timeout=30) as client:
resp = await client.post(url, json=payload)
if resp.status_code in (200, 201, 202):
logger.info("Dispatched %r to API agent %s at %s", title[:60], agent.value, url)
return DispatchResult(
task_type=task_type,
agent=agent,
issue_number=issue_number,
status=DispatchStatus.ASSIGNED,
metadata={"response": resp.json() if resp.content else {}},
)
return DispatchResult(
task_type=task_type,
agent=agent,
issue_number=issue_number,
status=DispatchStatus.FAILED,
error=f"API agent returned {resp.status_code}: {resp.text[:200]}",
)
except Exception as exc:
logger.warning("API dispatch to %s failed: %s", url, exc)
return DispatchResult(
task_type=task_type,
agent=agent,
issue_number=issue_number,
status=DispatchStatus.FAILED,
error=str(exc),
)
async def _dispatch_local(
title: str,
description: str = "",
acceptance_criteria: list[str] | None = None,
issue_number: int | None = None,
) -> DispatchResult:
"""Handle a task locally — Timmy processes it directly.
This is a lightweight stub. Real local execution should be wired
into the agentic loop or a dedicated Timmy tool.
Args:
title: Short task title.
description: Task description.
acceptance_criteria: Acceptance criteria list.
issue_number: Optional Gitea issue number for logging.
Returns:
:class:`DispatchResult` with ASSIGNED status (local execution is
assumed to succeed at dispatch time).
"""
task_type = infer_task_type(title, description)
logger.info("Timmy handling task locally: %r (issue #%s)", title[:60], issue_number)
return DispatchResult(
task_type=task_type,
agent=AgentType.TIMMY,
issue_number=issue_number,
status=DispatchStatus.ASSIGNED,
metadata={"local": True, "description": description},
)
# ---------------------------------------------------------------------------
# Public entry point
# ---------------------------------------------------------------------------
def _validate_task(
title: str,
task_type: TaskType | None,
agent: AgentType | None,
issue_number: int | None,
) -> DispatchResult | None:
"""Validate task preconditions.
Args:
title: Task title to validate.
task_type: Optional task type for result construction.
agent: Optional agent for result construction.
issue_number: Optional issue number for result construction.
Returns:
A failed DispatchResult if validation fails, None otherwise.
"""
if not title.strip():
return DispatchResult(
task_type=task_type or TaskType.ROUTINE_CODING,
agent=agent or AgentType.TIMMY,
issue_number=issue_number,
status=DispatchStatus.FAILED,
error="`title` is required.",
)
return None
def _select_dispatch_strategy(agent: AgentType, issue_number: int | None) -> str:
"""Select the dispatch strategy based on agent interface and context.
Args:
agent: The target agent.
issue_number: Optional Gitea issue number.
Returns:
Strategy name: "gitea", "api", or "local".
"""
spec = AGENT_REGISTRY[agent]
if spec.interface == "gitea" and issue_number is not None:
return "gitea"
if spec.interface == "api":
return "api"
return "local"
def _log_dispatch_result(
title: str,
result: DispatchResult,
attempt: int,
max_retries: int,
) -> None:
"""Log the outcome of a dispatch attempt.
Args:
title: Task title for logging context.
result: The dispatch result.
attempt: Current attempt number (0-indexed).
max_retries: Maximum retry attempts allowed.
"""
if result.success:
return
if attempt > 0:
logger.info("Retry %d/%d for task %r", attempt, max_retries, title[:60])
logger.warning(
"Dispatch attempt %d failed for task %r: %s",
attempt + 1,
title[:60],
result.error,
)
async def dispatch_task(
title: str,
description: str = "",
acceptance_criteria: list[str] | None = None,
task_type: TaskType | None = None,
agent: AgentType | None = None,
issue_number: int | None = None,
api_endpoint: str | None = None,
max_retries: int = 1,
) -> DispatchResult:
"""Route a task to the best available agent.
This is the primary entry point. Callers can either specify the
*agent* and *task_type* explicitly or let the dispatcher infer them
from the *title* and *description*.
Args:
title: Short human-readable task title.
description: Full task description with context.
acceptance_criteria: List of acceptance criteria strings.
task_type: Override automatic task type inference.
agent: Override automatic agent selection.
issue_number: Gitea issue number to log the assignment on.
api_endpoint: Override API endpoint for AGENT_API dispatches.
max_retries: Number of retry attempts on failure (default 1).
Returns:
:class:`DispatchResult` describing the final dispatch outcome.
Example::
result = await dispatch_task(
issue_number=1072,
title="Build the cascade LLM router",
description="We need automatic failover...",
acceptance_criteria=["Circuit breaker works", "Metrics exposed"],
)
if result.success:
print(f"Assigned to {result.agent.value}")
"""
# 1. Validate
validation_error = _validate_task(title, task_type, agent, issue_number)
if validation_error:
return validation_error
# 2. Resolve task type and agent
criteria = acceptance_criteria or []
resolved_type = task_type or infer_task_type(title, description)
resolved_agent = agent or select_agent(resolved_type)
logger.info(
"Dispatching task %r%s (type=%s, issue=#%s)",
title[:60],
resolved_agent.value,
resolved_type.value,
issue_number,
)
# 3. Select strategy and dispatch with retries
strategy = _select_dispatch_strategy(resolved_agent, issue_number)
last_result: DispatchResult | None = None
for attempt in range(max_retries + 1):
if strategy == "gitea":
result = await _dispatch_via_gitea(
resolved_agent, issue_number, title, description, criteria
)
elif strategy == "api":
result = await _dispatch_via_api(
resolved_agent, title, description, criteria, issue_number, api_endpoint
)
else:
result = await _dispatch_local(title, description, criteria, issue_number)
result.retry_count = attempt
last_result = result
if result.success:
return result
_log_dispatch_result(title, result, attempt, max_retries)
# 4. All attempts exhausted — escalate
assert last_result is not None
last_result.status = DispatchStatus.ESCALATED
logger.error(
"Task %r escalated after %d failed attempt(s): %s",
title[:60],
max_retries + 1,
last_result.error,
)
# Try to log the escalation on the issue
if issue_number is not None:
await _log_escalation(issue_number, resolved_agent, last_result.error or "unknown error")
return last_result

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src/timmy/dispatch/queue.py Normal file
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"""Gitea polling and comment helpers for task dispatch.
Provides low-level helpers that interact with the Gitea API to post
comments, apply labels, poll for issue completion, and log escalations.
"""
from __future__ import annotations
import asyncio
import logging
from typing import Any
from config import settings
from .routing import AGENT_REGISTRY, AgentType, DispatchStatus
logger = logging.getLogger(__name__)
async def _post_gitea_comment(
client: Any,
base_url: str,
repo: str,
headers: dict[str, str],
issue_number: int,
body: str,
) -> int | None:
"""Post a comment on a Gitea issue and return the comment ID."""
try:
resp = await client.post(
f"{base_url}/repos/{repo}/issues/{issue_number}/comments",
headers=headers,
json={"body": body},
)
if resp.status_code in (200, 201):
return resp.json().get("id")
logger.warning(
"Comment on #%s returned %s: %s",
issue_number,
resp.status_code,
resp.text[:200],
)
except Exception as exc:
logger.warning("Failed to post comment on #%s: %s", issue_number, exc)
return None
async def _apply_gitea_label(
client: Any,
base_url: str,
repo: str,
headers: dict[str, str],
issue_number: int,
label_name: str,
label_color: str = "#0075ca",
) -> bool:
"""Ensure *label_name* exists and apply it to an issue.
Returns True if the label was successfully applied.
"""
# Resolve or create the label
label_id: int | None = None
try:
resp = await client.get(f"{base_url}/repos/{repo}/labels", headers=headers)
if resp.status_code == 200:
for lbl in resp.json():
if lbl.get("name") == label_name:
label_id = lbl["id"]
break
except Exception as exc:
logger.warning("Failed to list labels: %s", exc)
return False
if label_id is None:
try:
resp = await client.post(
f"{base_url}/repos/{repo}/labels",
headers=headers,
json={"name": label_name, "color": label_color},
)
if resp.status_code in (200, 201):
label_id = resp.json().get("id")
except Exception as exc:
logger.warning("Failed to create label %r: %s", label_name, exc)
return False
if label_id is None:
return False
# Apply label to the issue
try:
resp = await client.post(
f"{base_url}/repos/{repo}/issues/{issue_number}/labels",
headers=headers,
json={"labels": [label_id]},
)
return resp.status_code in (200, 201)
except Exception as exc:
logger.warning("Failed to apply label %r to #%s: %s", label_name, issue_number, exc)
return False
async def _poll_issue_completion(
issue_number: int,
poll_interval: int = 60,
max_wait: int = 7200,
) -> DispatchStatus:
"""Poll a Gitea issue until closed (completed) or timeout.
Args:
issue_number: Gitea issue to watch.
poll_interval: Seconds between polls.
max_wait: Maximum total seconds to wait.
Returns:
:attr:`DispatchStatus.COMPLETED` if the issue was closed,
:attr:`DispatchStatus.TIMED_OUT` otherwise.
"""
try:
import httpx
except ImportError as exc:
logger.warning("poll_issue_completion: missing dependency: %s", exc)
return DispatchStatus.FAILED
base_url = f"{settings.gitea_url}/api/v1"
repo = settings.gitea_repo
headers = {"Authorization": f"token {settings.gitea_token}"}
issue_url = f"{base_url}/repos/{repo}/issues/{issue_number}"
elapsed = 0
while elapsed < max_wait:
try:
async with httpx.AsyncClient(timeout=10) as client:
resp = await client.get(issue_url, headers=headers)
if resp.status_code == 200 and resp.json().get("state") == "closed":
logger.info("Issue #%s closed — task completed", issue_number)
return DispatchStatus.COMPLETED
except Exception as exc:
logger.warning("Poll error for issue #%s: %s", issue_number, exc)
await asyncio.sleep(poll_interval)
elapsed += poll_interval
logger.warning("Timed out waiting for issue #%s after %ss", issue_number, max_wait)
return DispatchStatus.TIMED_OUT
async def _log_escalation(
issue_number: int,
agent: AgentType,
error: str,
) -> None:
"""Post an escalation notice on the Gitea issue."""
try:
import httpx
if not settings.gitea_enabled or not settings.gitea_token:
return
base_url = f"{settings.gitea_url}/api/v1"
repo = settings.gitea_repo
headers = {
"Authorization": f"token {settings.gitea_token}",
"Content-Type": "application/json",
}
body = (
f"## Dispatch Escalated\n\n"
f"Could not assign to **{AGENT_REGISTRY[agent].display_name}** "
f"after {1} attempt(s).\n\n"
f"**Error:** {error}\n\n"
f"Manual intervention required.\n\n"
f"---\n*Timmy agent dispatcher.*"
)
async with httpx.AsyncClient(timeout=10) as client:
await _post_gitea_comment(client, base_url, repo, headers, issue_number, body)
except Exception as exc:
logger.warning("Failed to post escalation comment: %s", exc)
async def wait_for_completion(
issue_number: int,
poll_interval: int = 60,
max_wait: int = 7200,
) -> DispatchStatus:
"""Block until the assigned Gitea issue is closed or the timeout fires.
Useful for synchronous orchestration where the caller wants to wait for
the assigned agent to finish before proceeding.
Args:
issue_number: Gitea issue to monitor.
poll_interval: Seconds between status polls.
max_wait: Maximum wait in seconds (default 2 hours).
Returns:
:attr:`DispatchStatus.COMPLETED` or :attr:`DispatchStatus.TIMED_OUT`.
"""
return await _poll_issue_completion(issue_number, poll_interval, max_wait)

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src/timmy/dispatch/routing.py Normal file
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"""Routing logic — enums, agent registry, and task-to-agent mapping.
Defines the core types (:class:`AgentType`, :class:`TaskType`,
:class:`DispatchStatus`), the :data:`AGENT_REGISTRY`, and the functions
that decide which agent handles a given task.
"""
from __future__ import annotations
import logging
from dataclasses import dataclass
from enum import StrEnum
logger = logging.getLogger(__name__)
# ---------------------------------------------------------------------------
# Enumerations
# ---------------------------------------------------------------------------
class AgentType(StrEnum):
"""Known agents in the swarm."""
CLAUDE_CODE = "claude_code"
KIMI_CODE = "kimi_code"
AGENT_API = "agent_api"
TIMMY = "timmy"
class TaskType(StrEnum):
"""Categories of engineering work."""
# Claude Code strengths
ARCHITECTURE = "architecture"
REFACTORING = "refactoring"
COMPLEX_REASONING = "complex_reasoning"
CODE_REVIEW = "code_review"
# Kimi Code strengths
PARALLEL_IMPLEMENTATION = "parallel_implementation"
ROUTINE_CODING = "routine_coding"
FAST_ITERATION = "fast_iteration"
# Agent API strengths
RESEARCH = "research"
ANALYSIS = "analysis"
SPECIALIZED = "specialized"
# Timmy strengths
TRIAGE = "triage"
PLANNING = "planning"
CREATIVE = "creative"
ORCHESTRATION = "orchestration"
class DispatchStatus(StrEnum):
"""Lifecycle state of a dispatched task."""
PENDING = "pending"
ASSIGNED = "assigned"
IN_PROGRESS = "in_progress"
COMPLETED = "completed"
FAILED = "failed"
ESCALATED = "escalated"
TIMED_OUT = "timed_out"
# ---------------------------------------------------------------------------
# Agent registry
# ---------------------------------------------------------------------------
@dataclass
class AgentSpec:
"""Capabilities and limits for a single agent."""
name: AgentType
display_name: str
strengths: frozenset[TaskType]
gitea_label: str | None # label to apply when dispatching
max_concurrent: int = 1
interface: str = "gitea" # "gitea" | "api" | "local"
api_endpoint: str | None = None # for interface="api"
#: Authoritative agent registry — all known agents and their capabilities.
AGENT_REGISTRY: dict[AgentType, AgentSpec] = {
AgentType.CLAUDE_CODE: AgentSpec(
name=AgentType.CLAUDE_CODE,
display_name="Claude Code",
strengths=frozenset(
{
TaskType.ARCHITECTURE,
TaskType.REFACTORING,
TaskType.COMPLEX_REASONING,
TaskType.CODE_REVIEW,
}
),
gitea_label="claude-ready",
max_concurrent=1,
interface="gitea",
),
AgentType.KIMI_CODE: AgentSpec(
name=AgentType.KIMI_CODE,
display_name="Kimi Code",
strengths=frozenset(
{
TaskType.PARALLEL_IMPLEMENTATION,
TaskType.ROUTINE_CODING,
TaskType.FAST_ITERATION,
}
),
gitea_label="kimi-ready",
max_concurrent=1,
interface="gitea",
),
AgentType.AGENT_API: AgentSpec(
name=AgentType.AGENT_API,
display_name="Agent API",
strengths=frozenset(
{
TaskType.RESEARCH,
TaskType.ANALYSIS,
TaskType.SPECIALIZED,
}
),
gitea_label=None,
max_concurrent=5,
interface="api",
),
AgentType.TIMMY: AgentSpec(
name=AgentType.TIMMY,
display_name="Timmy",
strengths=frozenset(
{
TaskType.TRIAGE,
TaskType.PLANNING,
TaskType.CREATIVE,
TaskType.ORCHESTRATION,
}
),
gitea_label=None,
max_concurrent=1,
interface="local",
),
}
#: Map from task type to preferred agent (primary routing table).
_TASK_ROUTING: dict[TaskType, AgentType] = {
TaskType.ARCHITECTURE: AgentType.CLAUDE_CODE,
TaskType.REFACTORING: AgentType.CLAUDE_CODE,
TaskType.COMPLEX_REASONING: AgentType.CLAUDE_CODE,
TaskType.CODE_REVIEW: AgentType.CLAUDE_CODE,
TaskType.PARALLEL_IMPLEMENTATION: AgentType.KIMI_CODE,
TaskType.ROUTINE_CODING: AgentType.KIMI_CODE,
TaskType.FAST_ITERATION: AgentType.KIMI_CODE,
TaskType.RESEARCH: AgentType.AGENT_API,
TaskType.ANALYSIS: AgentType.AGENT_API,
TaskType.SPECIALIZED: AgentType.AGENT_API,
TaskType.TRIAGE: AgentType.TIMMY,
TaskType.PLANNING: AgentType.TIMMY,
TaskType.CREATIVE: AgentType.TIMMY,
TaskType.ORCHESTRATION: AgentType.TIMMY,
}
# ---------------------------------------------------------------------------
# Routing logic
# ---------------------------------------------------------------------------
def select_agent(task_type: TaskType) -> AgentType:
"""Return the best agent for *task_type* based on the routing table.
Args:
task_type: The category of engineering work to be done.
Returns:
The :class:`AgentType` best suited to handle this task.
"""
return _TASK_ROUTING.get(task_type, AgentType.TIMMY)
def infer_task_type(title: str, description: str = "") -> TaskType:
"""Heuristic: guess the most appropriate :class:`TaskType` from text.
Scans *title* and *description* for keyword signals and returns the
strongest match. Falls back to :attr:`TaskType.ROUTINE_CODING`.
Args:
title: Short task title.
description: Longer task description (optional).
Returns:
The inferred :class:`TaskType`.
"""
text = (title + " " + description).lower()
_SIGNALS: list[tuple[TaskType, frozenset[str]]] = [
(
TaskType.ARCHITECTURE,
frozenset({"architect", "design", "adr", "system design", "schema"}),
),
(
TaskType.REFACTORING,
frozenset({"refactor", "clean up", "cleanup", "reorganise", "reorganize"}),
),
(TaskType.CODE_REVIEW, frozenset({"review", "pr review", "pull request review", "audit"})),
(
TaskType.COMPLEX_REASONING,
frozenset({"complex", "hard problem", "debug", "investigate", "diagnose"}),
),
(
TaskType.RESEARCH,
frozenset({"research", "survey", "literature", "benchmark", "analyse", "analyze"}),
),
(TaskType.ANALYSIS, frozenset({"analysis", "profil", "trace", "metric", "performance"})),
(TaskType.TRIAGE, frozenset({"triage", "classify", "prioritise", "prioritize"})),
(TaskType.PLANNING, frozenset({"plan", "roadmap", "milestone", "epic", "spike"})),
(TaskType.CREATIVE, frozenset({"creative", "persona", "story", "write", "draft"})),
(TaskType.ORCHESTRATION, frozenset({"orchestrat", "coordinat", "swarm", "dispatch"})),
(TaskType.PARALLEL_IMPLEMENTATION, frozenset({"parallel", "concurrent", "batch"})),
(TaskType.FAST_ITERATION, frozenset({"quick", "fast", "iterate", "prototype", "poc"})),
]
for task_type, keywords in _SIGNALS:
if any(kw in text for kw in keywords):
return task_type
return TaskType.ROUTINE_CODING

890
src/timmy/dispatcher.py
View File

@@ -30,888 +30,12 @@ Usage::
description="We need a cascade router...",
acceptance_criteria=["Failover works", "Metrics exposed"],
)
.. note::
This module is a backward-compatibility shim. The implementation now
lives in :mod:`timmy.dispatch`. All public *and* private names that
tests rely on are re-exported here.
"""
from __future__ import annotations
import asyncio
import logging
from dataclasses import dataclass, field
from enum import StrEnum
from typing import Any
from config import settings
logger = logging.getLogger(__name__)
# ---------------------------------------------------------------------------
# Enumerations
# ---------------------------------------------------------------------------
class AgentType(StrEnum):
"""Known agents in the swarm."""
CLAUDE_CODE = "claude_code"
KIMI_CODE = "kimi_code"
AGENT_API = "agent_api"
TIMMY = "timmy"
class TaskType(StrEnum):
"""Categories of engineering work."""
# Claude Code strengths
ARCHITECTURE = "architecture"
REFACTORING = "refactoring"
COMPLEX_REASONING = "complex_reasoning"
CODE_REVIEW = "code_review"
# Kimi Code strengths
PARALLEL_IMPLEMENTATION = "parallel_implementation"
ROUTINE_CODING = "routine_coding"
FAST_ITERATION = "fast_iteration"
# Agent API strengths
RESEARCH = "research"
ANALYSIS = "analysis"
SPECIALIZED = "specialized"
# Timmy strengths
TRIAGE = "triage"
PLANNING = "planning"
CREATIVE = "creative"
ORCHESTRATION = "orchestration"
class DispatchStatus(StrEnum):
"""Lifecycle state of a dispatched task."""
PENDING = "pending"
ASSIGNED = "assigned"
IN_PROGRESS = "in_progress"
COMPLETED = "completed"
FAILED = "failed"
ESCALATED = "escalated"
TIMED_OUT = "timed_out"
# ---------------------------------------------------------------------------
# Agent registry
# ---------------------------------------------------------------------------
@dataclass
class AgentSpec:
"""Capabilities and limits for a single agent."""
name: AgentType
display_name: str
strengths: frozenset[TaskType]
gitea_label: str | None # label to apply when dispatching
max_concurrent: int = 1
interface: str = "gitea" # "gitea" | "api" | "local"
api_endpoint: str | None = None # for interface="api"
#: Authoritative agent registry — all known agents and their capabilities.
AGENT_REGISTRY: dict[AgentType, AgentSpec] = {
AgentType.CLAUDE_CODE: AgentSpec(
name=AgentType.CLAUDE_CODE,
display_name="Claude Code",
strengths=frozenset(
{
TaskType.ARCHITECTURE,
TaskType.REFACTORING,
TaskType.COMPLEX_REASONING,
TaskType.CODE_REVIEW,
}
),
gitea_label="claude-ready",
max_concurrent=1,
interface="gitea",
),
AgentType.KIMI_CODE: AgentSpec(
name=AgentType.KIMI_CODE,
display_name="Kimi Code",
strengths=frozenset(
{
TaskType.PARALLEL_IMPLEMENTATION,
TaskType.ROUTINE_CODING,
TaskType.FAST_ITERATION,
}
),
gitea_label="kimi-ready",
max_concurrent=1,
interface="gitea",
),
AgentType.AGENT_API: AgentSpec(
name=AgentType.AGENT_API,
display_name="Agent API",
strengths=frozenset(
{
TaskType.RESEARCH,
TaskType.ANALYSIS,
TaskType.SPECIALIZED,
}
),
gitea_label=None,
max_concurrent=5,
interface="api",
),
AgentType.TIMMY: AgentSpec(
name=AgentType.TIMMY,
display_name="Timmy",
strengths=frozenset(
{
TaskType.TRIAGE,
TaskType.PLANNING,
TaskType.CREATIVE,
TaskType.ORCHESTRATION,
}
),
gitea_label=None,
max_concurrent=1,
interface="local",
),
}
#: Map from task type to preferred agent (primary routing table).
_TASK_ROUTING: dict[TaskType, AgentType] = {
TaskType.ARCHITECTURE: AgentType.CLAUDE_CODE,
TaskType.REFACTORING: AgentType.CLAUDE_CODE,
TaskType.COMPLEX_REASONING: AgentType.CLAUDE_CODE,
TaskType.CODE_REVIEW: AgentType.CLAUDE_CODE,
TaskType.PARALLEL_IMPLEMENTATION: AgentType.KIMI_CODE,
TaskType.ROUTINE_CODING: AgentType.KIMI_CODE,
TaskType.FAST_ITERATION: AgentType.KIMI_CODE,
TaskType.RESEARCH: AgentType.AGENT_API,
TaskType.ANALYSIS: AgentType.AGENT_API,
TaskType.SPECIALIZED: AgentType.AGENT_API,
TaskType.TRIAGE: AgentType.TIMMY,
TaskType.PLANNING: AgentType.TIMMY,
TaskType.CREATIVE: AgentType.TIMMY,
TaskType.ORCHESTRATION: AgentType.TIMMY,
}
# ---------------------------------------------------------------------------
# Dispatch result
# ---------------------------------------------------------------------------
@dataclass
class DispatchResult:
"""Outcome of a dispatch call."""
task_type: TaskType
agent: AgentType
issue_number: int | None
status: DispatchStatus
comment_id: int | None = None
label_applied: str | None = None
error: str | None = None
retry_count: int = 0
metadata: dict[str, Any] = field(default_factory=dict)
@property
def success(self) -> bool: # noqa: D401
return self.status in (DispatchStatus.ASSIGNED, DispatchStatus.COMPLETED)
# ---------------------------------------------------------------------------
# Routing logic
# ---------------------------------------------------------------------------
def select_agent(task_type: TaskType) -> AgentType:
"""Return the best agent for *task_type* based on the routing table.
Args:
task_type: The category of engineering work to be done.
Returns:
The :class:`AgentType` best suited to handle this task.
"""
return _TASK_ROUTING.get(task_type, AgentType.TIMMY)
def infer_task_type(title: str, description: str = "") -> TaskType:
"""Heuristic: guess the most appropriate :class:`TaskType` from text.
Scans *title* and *description* for keyword signals and returns the
strongest match. Falls back to :attr:`TaskType.ROUTINE_CODING`.
Args:
title: Short task title.
description: Longer task description (optional).
Returns:
The inferred :class:`TaskType`.
"""
text = (title + " " + description).lower()
_SIGNALS: list[tuple[TaskType, frozenset[str]]] = [
(
TaskType.ARCHITECTURE,
frozenset({"architect", "design", "adr", "system design", "schema"}),
),
(
TaskType.REFACTORING,
frozenset({"refactor", "clean up", "cleanup", "reorganise", "reorganize"}),
),
(TaskType.CODE_REVIEW, frozenset({"review", "pr review", "pull request review", "audit"})),
(
TaskType.COMPLEX_REASONING,
frozenset({"complex", "hard problem", "debug", "investigate", "diagnose"}),
),
(
TaskType.RESEARCH,
frozenset({"research", "survey", "literature", "benchmark", "analyse", "analyze"}),
),
(TaskType.ANALYSIS, frozenset({"analysis", "profil", "trace", "metric", "performance"})),
(TaskType.TRIAGE, frozenset({"triage", "classify", "prioritise", "prioritize"})),
(TaskType.PLANNING, frozenset({"plan", "roadmap", "milestone", "epic", "spike"})),
(TaskType.CREATIVE, frozenset({"creative", "persona", "story", "write", "draft"})),
(TaskType.ORCHESTRATION, frozenset({"orchestrat", "coordinat", "swarm", "dispatch"})),
(TaskType.PARALLEL_IMPLEMENTATION, frozenset({"parallel", "concurrent", "batch"})),
(TaskType.FAST_ITERATION, frozenset({"quick", "fast", "iterate", "prototype", "poc"})),
]
for task_type, keywords in _SIGNALS:
if any(kw in text for kw in keywords):
return task_type
return TaskType.ROUTINE_CODING
# ---------------------------------------------------------------------------
# Gitea helpers
# ---------------------------------------------------------------------------
async def _post_gitea_comment(
client: Any,
base_url: str,
repo: str,
headers: dict[str, str],
issue_number: int,
body: str,
) -> int | None:
"""Post a comment on a Gitea issue and return the comment ID."""
try:
resp = await client.post(
f"{base_url}/repos/{repo}/issues/{issue_number}/comments",
headers=headers,
json={"body": body},
)
if resp.status_code in (200, 201):
return resp.json().get("id")
logger.warning(
"Comment on #%s returned %s: %s",
issue_number,
resp.status_code,
resp.text[:200],
)
except Exception as exc:
logger.warning("Failed to post comment on #%s: %s", issue_number, exc)
return None
async def _apply_gitea_label(
client: Any,
base_url: str,
repo: str,
headers: dict[str, str],
issue_number: int,
label_name: str,
label_color: str = "#0075ca",
) -> bool:
"""Ensure *label_name* exists and apply it to an issue.
Returns True if the label was successfully applied.
"""
# Resolve or create the label
label_id: int | None = None
try:
resp = await client.get(f"{base_url}/repos/{repo}/labels", headers=headers)
if resp.status_code == 200:
for lbl in resp.json():
if lbl.get("name") == label_name:
label_id = lbl["id"]
break
except Exception as exc:
logger.warning("Failed to list labels: %s", exc)
return False
if label_id is None:
try:
resp = await client.post(
f"{base_url}/repos/{repo}/labels",
headers=headers,
json={"name": label_name, "color": label_color},
)
if resp.status_code in (200, 201):
label_id = resp.json().get("id")
except Exception as exc:
logger.warning("Failed to create label %r: %s", label_name, exc)
return False
if label_id is None:
return False
# Apply label to the issue
try:
resp = await client.post(
f"{base_url}/repos/{repo}/issues/{issue_number}/labels",
headers=headers,
json={"labels": [label_id]},
)
return resp.status_code in (200, 201)
except Exception as exc:
logger.warning("Failed to apply label %r to #%s: %s", label_name, issue_number, exc)
return False
async def _poll_issue_completion(
issue_number: int,
poll_interval: int = 60,
max_wait: int = 7200,
) -> DispatchStatus:
"""Poll a Gitea issue until closed (completed) or timeout.
Args:
issue_number: Gitea issue to watch.
poll_interval: Seconds between polls.
max_wait: Maximum total seconds to wait.
Returns:
:attr:`DispatchStatus.COMPLETED` if the issue was closed,
:attr:`DispatchStatus.TIMED_OUT` otherwise.
"""
try:
import httpx
except ImportError as exc:
logger.warning("poll_issue_completion: missing dependency: %s", exc)
return DispatchStatus.FAILED
base_url = f"{settings.gitea_url}/api/v1"
repo = settings.gitea_repo
headers = {"Authorization": f"token {settings.gitea_token}"}
issue_url = f"{base_url}/repos/{repo}/issues/{issue_number}"
elapsed = 0
while elapsed < max_wait:
try:
async with httpx.AsyncClient(timeout=10) as client:
resp = await client.get(issue_url, headers=headers)
if resp.status_code == 200 and resp.json().get("state") == "closed":
logger.info("Issue #%s closed — task completed", issue_number)
return DispatchStatus.COMPLETED
except Exception as exc:
logger.warning("Poll error for issue #%s: %s", issue_number, exc)
await asyncio.sleep(poll_interval)
elapsed += poll_interval
logger.warning("Timed out waiting for issue #%s after %ss", issue_number, max_wait)
return DispatchStatus.TIMED_OUT
# ---------------------------------------------------------------------------
# Core dispatch functions
# ---------------------------------------------------------------------------
def _format_assignment_comment(
display_name: str,
task_type: TaskType,
description: str,
acceptance_criteria: list[str],
) -> str:
"""Build the markdown comment body for a task assignment.
Args:
display_name: Human-readable agent name.
task_type: The inferred task type.
description: Task description.
acceptance_criteria: List of acceptance criteria strings.
Returns:
Formatted markdown string for the comment.
"""
criteria_md = (
"\n".join(f"- {c}" for c in acceptance_criteria)
if acceptance_criteria
else "_None specified_"
)
return (
f"## Assigned to {display_name}\n\n"
f"**Task type:** `{task_type.value}`\n\n"
f"**Description:**\n{description}\n\n"
f"**Acceptance criteria:**\n{criteria_md}\n\n"
f"---\n*Dispatched by Timmy agent dispatcher.*"
)
def _select_label(agent: AgentType) -> str | None:
"""Return the Gitea label for an agent based on its spec.
Args:
agent: The target agent.
Returns:
Label name or None if the agent has no label.
"""
return AGENT_REGISTRY[agent].gitea_label
async def _dispatch_via_gitea(
agent: AgentType,
issue_number: int,
title: str,
description: str,
acceptance_criteria: list[str],
) -> DispatchResult:
"""Assign a task by applying a Gitea label and posting an assignment comment.
Args:
agent: Target agent.
issue_number: Gitea issue to assign.
title: Short task title.
description: Full task description.
acceptance_criteria: List of acceptance criteria strings.
Returns:
:class:`DispatchResult` describing the outcome.
"""
try:
import httpx
except ImportError as exc:
return DispatchResult(
task_type=TaskType.ROUTINE_CODING,
agent=agent,
issue_number=issue_number,
status=DispatchStatus.FAILED,
error=f"Missing dependency: {exc}",
)
spec = AGENT_REGISTRY[agent]
task_type = infer_task_type(title, description)
if not settings.gitea_enabled or not settings.gitea_token:
return DispatchResult(
task_type=task_type,
agent=agent,
issue_number=issue_number,
status=DispatchStatus.FAILED,
error="Gitea integration not configured (no token or disabled).",
)
base_url = f"{settings.gitea_url}/api/v1"
repo = settings.gitea_repo
headers = {
"Authorization": f"token {settings.gitea_token}",
"Content-Type": "application/json",
}
comment_id: int | None = None
label_applied: str | None = None
async with httpx.AsyncClient(timeout=15) as client:
# 1. Apply agent label (if applicable)
label = _select_label(agent)
if label:
ok = await _apply_gitea_label(client, base_url, repo, headers, issue_number, label)
if ok:
label_applied = label
logger.info(
"Applied label %r to issue #%s for %s",
label,
issue_number,
spec.display_name,
)
else:
logger.warning(
"Could not apply label %r to issue #%s",
label,
issue_number,
)
# 2. Post assignment comment
comment_body = _format_assignment_comment(
spec.display_name, task_type, description, acceptance_criteria
)
comment_id = await _post_gitea_comment(
client, base_url, repo, headers, issue_number, comment_body
)
if comment_id is not None or label_applied is not None:
logger.info(
"Dispatched issue #%s to %s (label=%r, comment=%s)",
issue_number,
spec.display_name,
label_applied,
comment_id,
)
return DispatchResult(
task_type=task_type,
agent=agent,
issue_number=issue_number,
status=DispatchStatus.ASSIGNED,
comment_id=comment_id,
label_applied=label_applied,
)
return DispatchResult(
task_type=task_type,
agent=agent,
issue_number=issue_number,
status=DispatchStatus.FAILED,
error="Failed to apply label and post comment — check Gitea connectivity.",
)
async def _dispatch_via_api(
agent: AgentType,
title: str,
description: str,
acceptance_criteria: list[str],
issue_number: int | None = None,
endpoint: str | None = None,
) -> DispatchResult:
"""Dispatch a task to an external HTTP API agent.
Args:
agent: Target agent.
title: Short task title.
description: Task description.
acceptance_criteria: List of acceptance criteria.
issue_number: Optional Gitea issue for cross-referencing.
endpoint: Override API endpoint URL (uses spec default if omitted).
Returns:
:class:`DispatchResult` describing the outcome.
"""
spec = AGENT_REGISTRY[agent]
task_type = infer_task_type(title, description)
url = endpoint or spec.api_endpoint
if not url:
return DispatchResult(
task_type=task_type,
agent=agent,
issue_number=issue_number,
status=DispatchStatus.FAILED,
error=f"No API endpoint configured for agent {agent.value}.",
)
payload = {
"title": title,
"description": description,
"acceptance_criteria": acceptance_criteria,
"issue_number": issue_number,
"agent": agent.value,
"task_type": task_type.value,
}
try:
import httpx
async with httpx.AsyncClient(timeout=30) as client:
resp = await client.post(url, json=payload)
if resp.status_code in (200, 201, 202):
logger.info("Dispatched %r to API agent %s at %s", title[:60], agent.value, url)
return DispatchResult(
task_type=task_type,
agent=agent,
issue_number=issue_number,
status=DispatchStatus.ASSIGNED,
metadata={"response": resp.json() if resp.content else {}},
)
return DispatchResult(
task_type=task_type,
agent=agent,
issue_number=issue_number,
status=DispatchStatus.FAILED,
error=f"API agent returned {resp.status_code}: {resp.text[:200]}",
)
except Exception as exc:
logger.warning("API dispatch to %s failed: %s", url, exc)
return DispatchResult(
task_type=task_type,
agent=agent,
issue_number=issue_number,
status=DispatchStatus.FAILED,
error=str(exc),
)
async def _dispatch_local(
title: str,
description: str = "",
acceptance_criteria: list[str] | None = None,
issue_number: int | None = None,
) -> DispatchResult:
"""Handle a task locally — Timmy processes it directly.
This is a lightweight stub. Real local execution should be wired
into the agentic loop or a dedicated Timmy tool.
Args:
title: Short task title.
description: Task description.
acceptance_criteria: Acceptance criteria list.
issue_number: Optional Gitea issue number for logging.
Returns:
:class:`DispatchResult` with ASSIGNED status (local execution is
assumed to succeed at dispatch time).
"""
task_type = infer_task_type(title, description)
logger.info("Timmy handling task locally: %r (issue #%s)", title[:60], issue_number)
return DispatchResult(
task_type=task_type,
agent=AgentType.TIMMY,
issue_number=issue_number,
status=DispatchStatus.ASSIGNED,
metadata={"local": True, "description": description},
)
# ---------------------------------------------------------------------------
# Public entry point
# ---------------------------------------------------------------------------
def _validate_task(
title: str,
task_type: TaskType | None,
agent: AgentType | None,
issue_number: int | None,
) -> DispatchResult | None:
"""Validate task preconditions.
Args:
title: Task title to validate.
task_type: Optional task type for result construction.
agent: Optional agent for result construction.
issue_number: Optional issue number for result construction.
Returns:
A failed DispatchResult if validation fails, None otherwise.
"""
if not title.strip():
return DispatchResult(
task_type=task_type or TaskType.ROUTINE_CODING,
agent=agent or AgentType.TIMMY,
issue_number=issue_number,
status=DispatchStatus.FAILED,
error="`title` is required.",
)
return None
def _select_dispatch_strategy(agent: AgentType, issue_number: int | None) -> str:
"""Select the dispatch strategy based on agent interface and context.
Args:
agent: The target agent.
issue_number: Optional Gitea issue number.
Returns:
Strategy name: "gitea", "api", or "local".
"""
spec = AGENT_REGISTRY[agent]
if spec.interface == "gitea" and issue_number is not None:
return "gitea"
if spec.interface == "api":
return "api"
return "local"
def _log_dispatch_result(
title: str,
result: DispatchResult,
attempt: int,
max_retries: int,
) -> None:
"""Log the outcome of a dispatch attempt.
Args:
title: Task title for logging context.
result: The dispatch result.
attempt: Current attempt number (0-indexed).
max_retries: Maximum retry attempts allowed.
"""
if result.success:
return
if attempt > 0:
logger.info("Retry %d/%d for task %r", attempt, max_retries, title[:60])
logger.warning(
"Dispatch attempt %d failed for task %r: %s",
attempt + 1,
title[:60],
result.error,
)
async def dispatch_task(
title: str,
description: str = "",
acceptance_criteria: list[str] | None = None,
task_type: TaskType | None = None,
agent: AgentType | None = None,
issue_number: int | None = None,
api_endpoint: str | None = None,
max_retries: int = 1,
) -> DispatchResult:
"""Route a task to the best available agent.
This is the primary entry point. Callers can either specify the
*agent* and *task_type* explicitly or let the dispatcher infer them
from the *title* and *description*.
Args:
title: Short human-readable task title.
description: Full task description with context.
acceptance_criteria: List of acceptance criteria strings.
task_type: Override automatic task type inference.
agent: Override automatic agent selection.
issue_number: Gitea issue number to log the assignment on.
api_endpoint: Override API endpoint for AGENT_API dispatches.
max_retries: Number of retry attempts on failure (default 1).
Returns:
:class:`DispatchResult` describing the final dispatch outcome.
Example::
result = await dispatch_task(
issue_number=1072,
title="Build the cascade LLM router",
description="We need automatic failover...",
acceptance_criteria=["Circuit breaker works", "Metrics exposed"],
)
if result.success:
print(f"Assigned to {result.agent.value}")
"""
# 1. Validate
validation_error = _validate_task(title, task_type, agent, issue_number)
if validation_error:
return validation_error
# 2. Resolve task type and agent
criteria = acceptance_criteria or []
resolved_type = task_type or infer_task_type(title, description)
resolved_agent = agent or select_agent(resolved_type)
logger.info(
"Dispatching task %r%s (type=%s, issue=#%s)",
title[:60],
resolved_agent.value,
resolved_type.value,
issue_number,
)
# 3. Select strategy and dispatch with retries
strategy = _select_dispatch_strategy(resolved_agent, issue_number)
last_result: DispatchResult | None = None
for attempt in range(max_retries + 1):
if strategy == "gitea":
result = await _dispatch_via_gitea(
resolved_agent, issue_number, title, description, criteria
)
elif strategy == "api":
result = await _dispatch_via_api(
resolved_agent, title, description, criteria, issue_number, api_endpoint
)
else:
result = await _dispatch_local(title, description, criteria, issue_number)
result.retry_count = attempt
last_result = result
if result.success:
return result
_log_dispatch_result(title, result, attempt, max_retries)
# 4. All attempts exhausted — escalate
assert last_result is not None
last_result.status = DispatchStatus.ESCALATED
logger.error(
"Task %r escalated after %d failed attempt(s): %s",
title[:60],
max_retries + 1,
last_result.error,
)
# Try to log the escalation on the issue
if issue_number is not None:
await _log_escalation(issue_number, resolved_agent, last_result.error or "unknown error")
return last_result
async def _log_escalation(
issue_number: int,
agent: AgentType,
error: str,
) -> None:
"""Post an escalation notice on the Gitea issue."""
try:
import httpx
if not settings.gitea_enabled or not settings.gitea_token:
return
base_url = f"{settings.gitea_url}/api/v1"
repo = settings.gitea_repo
headers = {
"Authorization": f"token {settings.gitea_token}",
"Content-Type": "application/json",
}
body = (
f"## Dispatch Escalated\n\n"
f"Could not assign to **{AGENT_REGISTRY[agent].display_name}** "
f"after {1} attempt(s).\n\n"
f"**Error:** {error}\n\n"
f"Manual intervention required.\n\n"
f"---\n*Timmy agent dispatcher.*"
)
async with httpx.AsyncClient(timeout=10) as client:
await _post_gitea_comment(client, base_url, repo, headers, issue_number, body)
except Exception as exc:
logger.warning("Failed to post escalation comment: %s", exc)
# ---------------------------------------------------------------------------
# Monitoring helper
# ---------------------------------------------------------------------------
async def wait_for_completion(
issue_number: int,
poll_interval: int = 60,
max_wait: int = 7200,
) -> DispatchStatus:
"""Block until the assigned Gitea issue is closed or the timeout fires.
Useful for synchronous orchestration where the caller wants to wait for
the assigned agent to finish before proceeding.
Args:
issue_number: Gitea issue to monitor.
poll_interval: Seconds between status polls.
max_wait: Maximum wait in seconds (default 2 hours).
Returns:
:attr:`DispatchStatus.COMPLETED` or :attr:`DispatchStatus.TIMED_OUT`.
"""
return await _poll_issue_completion(issue_number, poll_interval, max_wait)
from timmy.dispatch import * # noqa: F401, F403