implement_plan_micro
Implement technical plans from thoughts/shared/plans with verification
适合你,如果经常需要将技术方案转为可执行计划并验证
/ 下载安装
用别的 agent?下载 .zip 解压,把文件夹放进它的技能目录
Claude Code
~/.claude/skills/(项目级 .claude/skills/)Codex CLI
~/.codex/skills/Cursor自动读取上面两处目录
其他工具见其文档的「skills」目录;两个下载是同一份文件,只是名字不同
/ 通过 npx 安装 校验哈希
npx oh-my-skill add parcadei/continuous-claude-v3/implement_plan_micro/ 通过 bash 安装
curl -fsSL https://oh-my-skill.com/install.sh | bash -s -- parcadei/continuous-claude-v3/implement_plan_micro/ 已经装过?验证本机副本,不用重装
npx oh-my-skill verify parcadei/continuous-claude-v3/implement_plan_micro安装目标可用 --agent / --scope 或 --to 明确指定;省略时只会在唯一已存在的 agent 目录上自动选择,零命中或多命中会停止并提示。content_hash 缺失或不一致均拒装。
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怎么用
商店整理自技能原文 · 版本 d07ff4b · 表述以原文为准它做什么
安装后,Claude 会按照技术计划逐步实施任务,自动读取计划、选择直接或编排模式,执行并验证每个阶段,生成交接文档,遇到问题会暂停询问用户。
什么时候触发
当用户提供一份技术计划(如 thoughts/shared/plans 中的文件)并指示实施时触发。
装好后可以这样说
Claude 会读取计划并开始执行。
Claude 会读取上一个交接文档并继续。
Claude 会运行自动验证并等待手动确认。
技能原文 SKILL.md
Formal Specification
Multimodal Logic Integration
Five modal logics via fusion with bridge principles:
- JL: Justification Logic - evidence-backed claims
- IEL: Inferential Erotetic Logic - question handling
- TEL: Temporal Epistemic Logic - phase sequencing
- SDL: Standard Deontic Logic - obligations/permissions
- DEL: Dynamic Epistemic Logic - action modalities
Justification Logic (JL)
# Justification terms
[h]:context(task_n) # Handoff h justifies task context
[v]:verified(phase_n) # Verification v justifies completion
[p]:plan(tasks) # Plan p justifies task list
# Evidence production
[read(f)]exists e. [e]:content(f)
[verify(c)]exists v. [v]:pass(c) | [v]:fail(c)
# Handoff chain: evidence propagates
[h_n]:complete(task_n) -> [h_{n+1}]:context(task_{n+1})
proceed(task) <-> exists h. [h]:validated
Inferential Erotetic Logic (IEL)
# Mode and blocker questions
?{direct, orchestration} # Mode selection
?{continue, retry, ask_user} # Blocker resolution
mismatch(plan, reality) -> ?{how_proceed}
no_validation -> ?{run_validation_first}
Temporal Epistemic Logic (TEL)
# File reading constraints [](mentioned(f) -> <>read_fully(f)) # Eventually read [](mentioned(f) -> not spawn U read_fully(f)) # No spawn until read [](partial_read(f) -> false) # Partial reads forbidden # Phase sequencing [](phase(n) -> P(phase(n-1) & verified(n-1))) # Verified before next [](automated_pass -> <>manual_verify) # Automated gates manual [](manual_pass(n) -> <>phase(n+1)) # Manual gates next phase # Handoff persistence [](handoff_created(h) -> []exists_on_disk(h)) # Survives compaction # Termination <>(all_complete | abandoned)
Standard Deontic Logic (SDL)
# Reading obligations
O(read_fully(plan))
O(read_fully(f)) <- mentioned_in_plan(f)
O(check_existing_checkmarks)
F(partial_read)
# Verification obligations
O(run_automated) <- impl_complete
O(pause_for_manual) <- automated_pass
O(present_manual_checklist)
F(checkoff_manual) <- not user_confirmed
# Mode selection
O(orchestration) <- tasks >= 4
P(direct) <- tasks <= 3
O(respect_user_preference)
# Orchestration obligations
O(read_previous_handoff) <- exists_handoff(task_{n-1})
O(create_handoff) <- agent_completes
O(update_ledger) <- task_complete
F(batch_tasks) # One agent per task
F(proceed_on_mismatch) <- not user_guidance
Dynamic Epistemic Logic (DEL)
# Implementation actions
[read(plan)]K(tasks) & K(phases) & K(criteria)
[read(handoff_n)]K(context_{n+1})
[spawn(agent, task)]<>result(agent)
[verify(c)](K(pass) | K(fail))
# Composed workflows
[select_direct][implement ; verify_auto ; present_manual ; wait]*
[select_orchestration][prepare ; spawn ; wait ; read_handoff ; update]*
# Recovery
[compaction ; read_ledger ; list_handoffs ; read_last]resume
# Mismatch
[detect_mismatch ; stop ; present ; wait]proceed_or_abort
Bridge Principles
# Evidence persistence (JL-TEL)
[h]:context(n) -> [][h]:context(n)
# Evidence obligations (JL-SDL)
O(exists h. [h]:validated) <- pre_implement
O(exists v. [v]:pass(auto)) <- pre_manual
# Handoff chain (full integration)
[h_n]:complete(n) -> O([spawn]<>[h_{n+1}]:context(n+1))
compaction -> (forall h. persists(h))
State Machine
INIT --> READ_PLAN --> MODE_SELECT --+--> DIRECT: [IMPL -> AUTO -> MANUAL -> WAIT]*
|
+--> ORCHESTRATION: [PREP -> SPAWN -> WAIT -> HANDOFF]*
|
v
COMPLETE
Output Schema
handoff_path: "thoughts/handoffs/<session>/task-[NN]-[desc].md" schema: required: [status, task_desc, files_modified[], verification_results, context_for_next] optional: [blocker, decisions[], open_questions[]] tracking: plan: "- [x] Task N: description" ledger: "[x] Task N"
Prose (Where Logic Insufficient)
Mode Selection
| Tasks | Context Critical | Mode | |-------|------------------|------| | 1-3 | No | Direct | | 1-3 | Yes | Orchestration | | 4+ | Any | Orchestration |
User preference overrides.
Templates
Mismatch:
Issue in Phase [N]: Expected: [plan says] Found: [actual] How should I proceed?
Manual Verification Pause:
Phase [N] Complete - Ready for Manual Verification Automated passed: [list] Please verify: [manual items from plan] Let me know when done.
Agent Spawn:
Task(subagent_type="general-purpose", model="claude-opus-4-5-20251101", prompt=""" [implement_task SKILL.md] ## Context - Ledger: [content] - Plan: [section] - Task: [N]/[Total]: [desc] - Previous Handoff: [content or "first task"] - Handoff Dir: thoughts/handoffs/<session>/ """)
Recovery (post-compaction):
- Ledger auto-loaded by SessionStart
ls thoughts/handoffs/<session>/- Read last handoff
- Resume next task
Validity Constraints
forall phase. has_auto_criteria(phase) & has_manual_criteria(phase) forall task. one_agent_per_task(task) forall h. on_disk(h) -> recoverable(h) compaction -> (forall h. persists(h)) forall i < j. completed(task_i) before started(task_j)
按 MIT 许可原样转载,未经改动 · 在 GitHub 查看 →
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