Decompose user intent into capability units, select Genes from the ecosystem, compose a Genome, create and validate an Agent.
This Skill requires the Rotifer CLI:
npx @rotifer/playground --version
Or use the MCP Server for IDE integration:
{
"mcpServers": {
"rotifer": {
"command": "npx",
"args": ["@rotifer/mcp-server"]
}
}
}
Hierarchy: Gene (atomic logic) → Genome (composition) → Agent (runnable entity)
Break the user's goal into independent capability units (each maps to a Gene).
Steps:
content.grammar, security.audit)Output format:
| # | Capability unit | Domain | Input | Output |
|---|---|---|---|---|
| --- | ---------------- | -------- | ------- | -------- |
| 1 | Grammar check | content.grammar | text | issues[], score |
| 2 | Readability analysis | content.readability | text | grade, suggestions[] |
Match existing Genes to each capability unit.
rotifer list
rotifer arena list --domain <domain>
Selection priority:
| Priority | Source | Command |
|---|---|---|
| ---------- | -------- | --------- |
| 1 | Local Gene with highest Arena rank | rotifer arena list --domain |
| 2 | Cloud Registry | rotifer install |
| 3 | Doesn't exist, needs creation | Proceed to Phase 3 |
Show the user candidate Genes' F(g) fitness and fidelity, let them confirm the selection.
If a capability unit has no existing Gene:
| Approach | When to use | Action |
|---|---|---|
| ---------- | ------------ | -------- |
| Create Wrapped Gene | External API / Skill available to wrap | Route to gene-dev Skill |
| Create Native Gene | Pure computation, no external dependencies | Route to gene-dev Skill |
| Adjust decomposition | Capability unit granularity is wrong | Return to Phase 1 |
| Merge units | Two units are too coupled, splitting makes the interface awkward | Merge into one Gene |
After all Genes are ready, proceed to Phase 4.
Choose a composition strategy based on relationships between capability units.
| Strategy | Semantics | Use when | Example |
|---|---|---|---|
| ---------- | ----------- | ---------- | --------- |
| Seq(A, B, C) | Pipeline: A → B → C | Previous output feeds the next | Check → Fix → Format |
| Par(A, B) | Parallel: run simultaneously | Independent tasks, merge results | Grammar check + Readability analysis |
| Cond(p, A, B) | Branch: if p then A else B | Input characteristics determine path | Chinese → Chinese proofing / English → English proofing |
| Try(A, B) | Fallback: A fails → B | Primary path unreliable | Main API → Backup API |
| TryPool(A, B, C) | Race: all try, first success wins | Multiple equivalent implementations | Multiple translation services racing |
When using Par, specify --par-merge:
| Strategy | Behavior | Use when |
|---|---|---|
| ---------- | ---------- | ---------- |
first | Take the first completed result | Racing scenario |
concat | Concatenate all results (array) | Results are complementary |
merge | Deep-merge objects | Same structure, merge fields |
> Known limitation: Seq composition requires the previous Gene's outputSchema to be compatible with the next Gene's inputSchema. The current version does not auto-validate — schema mismatches cause runtime errors.
>
> Recommendation: Before creating a Seq composition, manually compare adjacent Genes' inputSchema / outputSchema in phenotype.json to confirm field names and types match.
Strategies can be nested:
Seq(
Par(grammar-checker, readability-analyzer),
tone-analyzer
)
Corresponding CLI:
rotifer agent create doc-qa \
--genes grammar-checker readability-analyzer tone-analyzer \
--composition Seq
> The current CLI only supports top-level composition strategies. Nested compositions require manual editing of .rotifer/agents/.
Execute creation after confirming the composition plan.
rotifer agent create <name> \
--genes <gene1> <gene2> <gene3> \
--composition <Seq|Par|Cond|Try|TryPool> \
--par-merge <first|concat|merge>
rotifer agent create <name> \
--domain <domain> \
--top <n> \
--composition <strategy>
After creation, verify the Agent configuration file .rotifer/agents/ is correct.
rotifer agent run <name> --input '{"text": "Test input content"}'
Validation checklist:
If results are unsatisfactory, proceed to Phase 7.
| Problem | Optimization |
|---|---|
| --------- | ------------- |
| One Gene's output quality is poor | rotifer arena list --domain to find alternatives |
| Seq intermediate results missing fields | Check schema compatibility, consider inserting an adapter Gene |
| Par merge results are messy | Switch --par-merge strategy |
| Latency too high | Seq → Par (if Genes are independent) |
| Overall below expectations | Route to rotifer-arena Skill for head-to-head Gene evaluation |
Goal: Input text, output grammar issues + readability score + tone analysis.
Decomposition:
| # | Capability | Gene | Domain |
|---|---|---|---|
| --- | ----------- | ------ | -------- |
| 1 | Grammar check | grammar-checker | content.grammar |
| 2 | Readability analysis | readability-analyzer | content.readability |
| 3 | Tone analysis | tone-analyzer | content.tone |
Composition: All three accept text input, no dependencies → Par + concat.
rotifer agent create doc-quality \
--genes grammar-checker readability-analyzer tone-analyzer \
--composition Par \
--par-merge concat
rotifer agent run doc-quality --input '{"text": "Document content to check..."}'
Goal: Input code file, output security vulnerabilities + complexity report + documentation suggestions.
| # | Capability | Gene | Domain |
|---|---|---|---|
| --- | ----------- | ------ | -------- |
| 1 | Security audit | security-auditor | security.audit |
| 2 | Complexity analysis | code-complexity | code.analysis |
| 3 | Documentation generation | docs-writer | content.docs |
Composition: Security audit and complexity analysis can run in parallel, documentation depends on both → Seq(Par(1,2), 3).
rotifer agent create code-review \
--genes security-auditor code-complexity docs-writer \
--composition Seq
rotifer agent run code-review --input '{"code": "...", "language": "typescript"}'
> Note: The Par(security-auditor, code-complexity) merged output must be compatible with docs-writer's inputSchema. Manual verification required.
Goal: Input a search query, search → summarize → format output.
| # | Capability | Gene | Domain |
|---|---|---|---|
| --- | ----------- | ------ | -------- |
| 1 | Web search | genesis-web-search | search.web |
| 2 | Text summarization | text-summarizer | content.summarize |
| 3 | Markdown formatting | markdown-formatter | content.format |
Composition: Strict serial pipeline → Seq.
rotifer agent create search-digest \
--genes genesis-web-search text-summarizer markdown-formatter \
--composition Seq
rotifer agent run search-digest --input '{"query": "Rotifer Protocol agent framework"}'
> Note the Seq schema chain: genesis-web-search output field names must match text-summarizer's inputSchema. Run cat genes/*/phenotype.json | jq '.inputSchema, .outputSchema' to verify before creating.
| Skill | Relationship | When to route |
|---|---|---|
| ------- | ------------- | --------------- |
gene-dev | Gene creation/development | Phase 3 gap filling |
rotifer-arena | Gene comparison & evaluation | Phase 7 when replacing underperforming Genes |
genome | Genome quality analysis | After Agent creation for overall assessment |
.rotifer/agents/.json and should not be committed to Git共 1 个版本