Workflow
Big-task path for work that is too large for normal turn-by-turn orchestration: system-wide changes, large migrations, repo-wide audits, high-confidence verification, and task prompts that explicitly ask for a workflow.
- In Claude Code, use the host dynamic workflow runtime.
- In Codex, run the portable workflow adapter with Codex subagents when exposed; otherwise run the same phases inline in the current thread.
- In OpenCode, run the portable workflow adapter with Task/subagent dispatch when exposed; otherwise run the same phases inline in the current session.
- In Antigravity, Desktop/web bridge mode, or any host that cannot preserve the adapter phases, say so in one line and route to
/hyperflow:scopewithchain-mode=auto.
Claude Code dynamic workflows require Claude Code v2.1.154 or later and can be disabled by /config, managed settings, ~/.claude/settings.json, or CLAUDE_CODE_DISABLE_WORKFLOWS=1. When disabled, use the portable adapter if the host is Codex or OpenCode; otherwise route to /hyperflow:scope with chain-mode=auto.
Routing Rules
- Run this skill in Claude Code, Codex, and OpenCode.
- Auto-route here when triage returns
flow=deeporflow=scientific,scope=system-wide, or the user saysbig task,large migration,repo-wide audit,run a workflow, ordynamic workflow. - Do not route here for moderate multi-file work, routine bug fixes, or a task that needs user sign-off between implementation stages. Big-task workflow runs should not depend on arbitrary mid-run user input; split sign-off-heavy work into separate workflows or use
spec -> scope -> dispatch. - Do not set
/effort ultracodeorxhighautomatically. The user can enable/effort ultracodemanually for session-wide workflow selection.
Provider Contracts
Claude Code Native Workflow
When this skill runs, ask the Claude Code workflow runtime to create a dynamic workflow for $ARGUMENTS. The generated workflow must preserve Hyperflow's doctrine inside the worker prompts and must include these phases:
-
Research and planning
- Map affected files, dependency edges, tests, docs, and risk boundaries.
- Read
.hyperflow/profile.md,.hyperflow/architecture.md,.hyperflow/conventions.md,.hyperflow/testing.md, and.hyperflow/memory/index.mdwhen present. - Produce a concise execution graph with parallelizable units and dependencies.
-
Parallel implementation or investigation
- Fan out independent agents by subsystem or file family.
- Keep each agent brief specific: objective, files in scope, constraints, acceptance criteria, and test expectations.
- Use the lightest model/stage that can safely do the work when the runtime supports model routing.
-
Adversarial verification
- Run independent verification agents against each implementation or finding.
- For audits, verify each finding before reporting it.
- For implementation, check cross-file integration, regression risk, security-sensitive paths, and missed tests.
-
Quality gates and repair loop
- Run the project lint, typecheck, build, and relevant tests from
.hyperflow/testing.mdor detected package scripts. - Retry focused fixes only for verified failures.
- Never use
--no-verify; never force-push to main or master.
- Run the project lint, typecheck, build, and relevant tests from
-
Final synthesis
- Return one coordinated result with completed work, verification evidence, unresolved risks, changed files, and next actions.
- For durable project learnings, identify what should be appended to
.hyperflow/memory/, but do not invent memory entries unrelated to the run.
Codex Portable Workflow Adapter
Codex does not provide Claude Code's dynamic workflow runtime. Treat /hyperflow:workflow as a custom Hyperflow workflow envelope around Codex subagents and inline fallback:
-
Research and planning
- Read the same
.hyperflow/cache files listed above when present. - Write or update
.hyperflow/tasks/<slug>.mdfor implementation or audit work that needs durable progress tracking. - Build an execution graph with parallelizable units, dependencies, expected commits, and verification commands.
- Read the same
-
Parallel implementation or investigation
- If Codex subagent tools are exposed, dispatch independent searcher/worker/writer units together and collect their results before review.
- Map implementation and writing tasks to worker subagents; map codebase research to explorer/search subagents.
- If subagents are unavailable, run each unit inline with explicit worker and reviewer labels.
-
Adversarial verification
- Run a separate verification pass for each completed unit before reporting it.
- Use Codex thinking defaults for verification and final integration review.
-
Quality gates and commits
- Run the detected lint, typecheck, build, and relevant tests.
- Commit each accepted unit separately using conventional commits.
- Never use
--no-verify; never requestxhigh.
-
Final synthesis
- Return changed files, verification evidence, unresolved risks, and next actions.
OpenCode Portable Workflow Adapter
OpenCode does not provide Claude Code's dynamic workflow runtime. Treat /hyperflow:workflow as a custom Hyperflow workflow envelope around OpenCode's task/subagent facilities and inline fallback:
-
Research and planning
- Read the same
.hyperflow/cache files listed above when present. - Write or update
.hyperflow/tasks/<slug>.mdfor implementation or audit work that needs durable progress tracking. - Build an execution graph with parallelizable units, dependencies, expected commits, and verification commands.
- Read the same
-
Parallel implementation or investigation
- If OpenCode exposes Task/subagent dispatch, send independent implementation or investigation units through that path.
- Keep each subtask bounded by objective, files in scope, constraints, acceptance criteria, and tests.
- If task dispatch is unavailable, run each unit inline with explicit worker and reviewer labels.
-
Adversarial verification
- Run a separate verification pass for each completed unit before reporting it.
- Use the configured thinking model for verification and final integration review.
-
Quality gates and commits
- Run the detected lint, typecheck, build, and relevant tests.
- Commit each accepted unit separately using conventional commits.
- Never use
--no-verify.
-
Final synthesis
- Return changed files, verification evidence, unresolved risks, and next actions.
Claude Code Prompt Skeleton
Use this shape when handing the task to the workflow runtime:
Create a dynamic workflow for this Hyperflow big-task run.
Task:
<user task>
Doctrine:
- Preserve Hyperflow autonomy: execute reversible work without invented confirmations.
- Ask only for genuine ambiguity after codebase research.
- Keep plans, task decompositions, audits, and memory under .hyperflow/ when files are needed.
- Use conventional commits, one distinct task per commit.
- Never use --no-verify and never force-push to main/master.
- Respect the Hyperflow security blocklist in skills/hyperflow/security.md.
Required phases:
1. Research and planning.
2. Parallel implementation or investigation.
3. Adversarial verification.
4. Quality gates and focused repair loop.
5. Final synthesis.
Acceptance:
- Every substantive result is independently checked before being reported.
- Quality gates run or are explicitly marked unavailable with the command attempted.
- The final answer includes evidence, changed files, unresolved risks, and next actions.
Save For Reuse
When a run succeeds and the user will repeat it, mention that Claude Code can save the generated workflow from /workflows with s. Project workflows save under .claude/workflows/; personal workflows save under ~/.claude/workflows/. Do not create those files directly from this skill because plugin packaging does not currently ship .claude/workflows/ as a first-class component.
Codex and OpenCode adapters are not saved through /workflows; repeatable behavior comes from this skill, .hyperflow/tasks/, project memory, and provider-specific subagent/task configuration.