Implement Feature (SAM Workflow Execution)

As you review code, update your agent memory with patterns, conventions, and recurring issues you discover.

This workflow continues from add-new-feature. It executes tasks from a SAM task file until complete (or blocked).

<feature_input>$ARGUMENTS</feature_input>

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Resolve Task File

Rules:

• If <feature_input/> ends with .md, treat it as the task file path and extract the plan address P{N} from the filename (e.g., plan/tasks-3-integrate-sam-schema.md → P3).
• Otherwise, treat it as a feature slug (or partial slug) and resolve plan address via sam_status:

mcp__plugin_dh_sam__sam_status(plan="<feature_input/>")

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Progress Loop

1. Query status:

mcp__plugin_dh_sam__sam_status(plan="P{N}")

2. If tasks remain, query ready tasks:

If parent story issue number is known, prefer the MCP tool:

backlog_get_ready_sam_tasks(parent_issue_number=N)
Output shape: {"feature": "...", "ready_tasks": [...], "count": N}
Falls back to local cache if GitHub unavailable.

If parent issue number is unknown, use the SAM MCP tool:

mcp__plugin_dh_sam__sam_ready(plan="P{N}")

3. For each ready task (or batch of ready tasks):

When multiple tasks are simultaneously ready (non-zero count with 2+ tasks in the ready list), dispatch them in parallel using TeamCreate:

TeamCreate(team_name: "impl-{slug}")

Spawn one teammate per ready task. When only one task is ready, a single Agent call is acceptable. TeamCreate is the standard parallel dispatch mechanism — use it whenever 2+ tasks are ready at the same time.

For each task being dispatched:

• Route to the agent named in the task's agent field (or resolved from role).
• Check the task's skills list from the ready-tasks JSON output.
• If skills is non-empty, include skill-loading instructions in the delegation prompt:

Before starting work, load these skills: {comma-separated skill names}.
For each skill, call: Skill(skill="{skill-name}")

• If skills is empty or missing, do not add skill-loading instructions (backward compatible).
• Launch the agent with a prompt that invokes start-task:

Skill(skill="start-task", args="{task_file_path} --task {task_id}")

Note: Task-level skills are additive to agent-level skills. If the agent definition already declares skills via its frontmatter, task-level skills supplement them (they do not replace agent-level skills). Loading the same skill twice is a no-op.

4. After each agent returns, check its output for a <concerns> block. If present, append each concern to the backlog item as a checklist entry:

mcp__plugin_dh_backlog__backlog_groom(
    selector="#{issue}",
    section="Concerns",
    content="- [ ] {concern text} (reported by {agent_name} on {task_id})",
    append=True
)

Concerns accumulate across all task agents. They feed into the validation stage in /complete-implementation — each verified concern becomes a new backlog item.

5. Repeat until no tasks remain ready.

Hook behavior on SubagentStop: When a sub-agent finishes, task_status_hook.py marks the task complete in the local task file. After marking the task complete locally, the hook calls backlog_core.github.update_task_status() to sync the completion to the GitHub sub-issue (if github_issue field is set in the task YAML). GitHub sync failure does not affect the hook exit code.

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Bookend Task Ordering

When the plan contains acceptance-criteria-structured entries, swarm-task-planner generates T0 and TN bookend tasks. No special handling is needed in this loop — existing readiness logic dispatches them in the correct order automatically:

• T0 has priority: 1 and dependencies: [], so it is the first ready task and dispatches before any implementation task.
• TN has dependencies: [all non-bookend task IDs], so it becomes ready only after all implementation tasks complete and dispatches last.

T0 runs agent t0-baseline-capture. TN runs agent tn-verification-gate. Both agents write YAML result files to ~/.dh/projects/{project-slug}/plan/T0-baseline-{slug}.yaml and ~/.dh/projects/{project-slug}/plan/TN-verification-{slug}.yaml (resolved via dh_paths.plan_dir()). These files are read by /complete-implementation in its pre-Phase 1 check.

Bookend Artifact Registration

When the parent story issue number is known, include artifact_register instructions in each bookend task's delegation prompt so the bookend artifacts are registered in the issue's artifact manifest:

T0 delegation prompt addition:

After writing plan/T0-baseline-{slug}.yaml, register it:
  mcp__plugin_dh_backlog__artifact_register(issue_number=N, artifact_type="T0-baseline", path="plan/T0-baseline-{slug}.yaml", agent="t0-baseline-capture")

TN delegation prompt addition:

After writing plan/TN-verification-{slug}.yaml, register it:
  mcp__plugin_dh_backlog__artifact_register(issue_number=N, artifact_type="TN-verification", path="plan/TN-verification-{slug}.yaml", agent="tn-verification-gate")

If the issue number is not known, skip registration. The artifacts remain discoverable via filesystem conventions.

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Completion Gate

When all tasks show COMPLETE, invoke:

Skill(skill="complete-implementation", args="{task_file_path}")