> ## Documentation Index > Fetch the complete documentation index at: https://smithers-feat-claude-workflow-mirror.mintlify.site/llms.txt > Use this file to discover all available pages before exploring further. # > Generate, evaluate, and improve in a loop until a target score is reached. ```ts theme={null} // Props import { Optimizer } from "smithers-orchestrator"; type OptimizerProps = { id?: string; // default "optimizer"; task ids {id}-generate, {id}-evaluate generator: AgentLike; evaluator: AgentLike | ((candidate: unknown) => unknown | Promise); // function = compute task generateOutput: OutputTarget; evaluateOutput: OutputTarget; // must include `score: number` targetScore?: number; // omit to run all iterations maxIterations?: number; // default 10 onMaxReached?: "return-last" | "fail"; // default "return-last" skipIf?: boolean; children: string | ReactNode; // initial generation prompt }; ``` ```tsx theme={null} export default smithers(() => ( Generate a prompt for summarizing legal documents. )); ``` ## Notes * `score` drives convergence against `targetScore`. * A function `evaluator` renders as a compute task rather than an agent task. ## Source The `` implementation and the files it imports, straight from the package source. This section is generated; edit the source, not this block. ```js Optimizer.js theme={null} // @smithers-type-exports-begin /** @typedef {import("./OptimizerProps.ts").OptimizerProps} OptimizerProps */ // @smithers-type-exports-end import React from "react"; import { Loop } from "./Ralph.js"; import { Sequence } from "./Sequence.js"; import { Task } from "./Task.js"; /** * Generate -> evaluate -> improve loop with score convergence. * * Composes Loop, Sequence, and Task to create an iterative * optimization pattern. Each iteration receives the previous * score and feedback to guide improvement. * @param {OptimizerProps} props */ export function Optimizer(props) { if (props.skipIf) return null; const { id, generator, evaluator, generateOutput, evaluateOutput, maxIterations = 10, onMaxReached = "return-last", children, } = props; const prefix = id ?? "optimizer"; const generateId = `${prefix}-generate`; const evaluateId = `${prefix}-evaluate`; // `until` is false — the runtime re-renders and checks the evaluate // output's `score` field against `targetScore` each frame. // When no targetScore is set, the loop always runs all iterations. const isAgentEvaluator = typeof evaluator !== "function"; return React.createElement(Loop, { id: prefix, until: false, maxIterations, onMaxReached, }, React.createElement(Sequence, null, React.createElement(Task, { id: generateId, output: generateOutput, agent: generator, children, }), isAgentEvaluator ? React.createElement(Task, { id: evaluateId, output: evaluateOutput, agent: evaluator, needs: { candidate: generateId }, children: `Evaluate the generated candidate and provide a score.`, }) : React.createElement(Task, { id: evaluateId, output: evaluateOutput, needs: { candidate: generateId }, children: evaluator, }))); } ``` ```js Ralph.js theme={null} // @smithers-type-exports-begin /** @typedef {import("./RalphProps.ts").RalphProps} RalphProps */ // @smithers-type-exports-end import React from "react"; /** @typedef {import("./LoopProps.ts").LoopProps} LoopProps */ /** * @param {LoopProps} props */ export function Loop(props) { if (props.skipIf) return null; // Sanitize to the loop's host props (align with other structural components); // key/skipIf are React/control props and children are passed separately. const next = { id: props.id, until: props.until, maxIterations: props.maxIterations, onMaxReached: props.onMaxReached, continueAsNewEvery: props.continueAsNewEvery, }; return React.createElement("smithers:ralph", next, props.children); } /** @deprecated Use `Loop` instead. */ export const Ralph = Loop; ``` ```js Sequence.js theme={null} import React from "react"; /** @typedef {import("./SequenceProps.ts").SequenceProps} SequenceProps */ /** * @param {SequenceProps} props */ export function Sequence(props) { if (props.skipIf) return null; // Sequence carries no host props of its own; pass an empty bag (align with // the sanitizing structural components) so control props don't leak through. return React.createElement("smithers:sequence", {}, props.children); } ``` ```js Task.js theme={null} // @smithers-type-exports-begin /** * @template D * @typedef {import("./InferDeps.ts").InferDeps} InferDeps */ /** @typedef {import("./OutputTarget.ts").OutputTarget} OutputTarget */ // @smithers-type-exports-end import React from "react"; import { renderToStaticMarkup } from "react-dom/server"; import { markdownComponents } from "../markdownComponents.js"; import { zodSchemaToJsonExample } from "../zod-to-example.js"; import { SmithersError } from "@smithers-orchestrator/errors/SmithersError"; import { SmithersContext } from "@smithers-orchestrator/react-reconciler/context"; import { AspectContext } from "../aspects/AspectContext.js"; import { AntigravityAgent } from "@smithers-orchestrator/agents/AntigravityAgent"; import { ClaudeCodeAgent } from "@smithers-orchestrator/agents/ClaudeCodeAgent"; import { GeminiAgent } from "@smithers-orchestrator/agents/GeminiAgent"; import { PiAgent } from "@smithers-orchestrator/agents/PiAgent"; /** @typedef {import("@smithers-orchestrator/agents/AgentLike").AgentLike} AgentLike */ /** @typedef {import("./DepsSpec.ts").DepsSpec} DepsSpec */ /** * @template Row, Output, D * @typedef {import("./TaskProps.ts").TaskProps} TaskProps */ /** * Render a prompt React node to plain markdown text. * * If the prompt is a React element (e.g. a compiled MDX component), we inject * `markdownComponents` via the standard MDX `components` prop so that * renderToStaticMarkup outputs clean markdown instead of HTML. * No HTML tag stripping or entity decoding needed. * @param {unknown} prompt * @returns {string} */ export function renderPromptToText(prompt) { if (prompt == null) return ""; if (typeof prompt === "string") return prompt; if (typeof prompt === "number") return String(prompt); try { let element; if (React.isValidElement(prompt)) { // Inject markdown components into the element so MDX components // render fragments instead of HTML tags. element = React.cloneElement(prompt, { components: markdownComponents, }); } else { element = React.createElement(React.Fragment, null, prompt); } return renderToStaticMarkup(element) .replace(/\n{3,}/g, "\n\n") .trim(); } catch (err) { const result = String(prompt ?? ""); if (result === "[object Object]") { throw new SmithersError("MDX_PRELOAD_INACTIVE", `MDX prompt could not be rendered — the prompt resolved to [object Object] instead of a React component.\n\n` + `This usually means the MDX preload is not active. Common causes:\n` + ` • bunfig.toml uses [run] preload instead of top-level preload (the [run] section doesn't apply to dynamic imports)\n` + ` • bunfig.toml is not in the current working directory\n` + ` • mdxPlugin() is not registered in the preload script\n` + ` • The MDX file is imported without a default import (use: import MyPrompt from "./prompt.mdx")\n\n` + `Original error: ${err instanceof Error ? err.message : String(err)}`); } return result; } } /** * @param {unknown} value * @returns {value is import("zod").ZodObject} */ function isZodObject(value) { return Boolean(value && typeof value === "object" && "shape" in value); } /** * @param {DepsSpec | undefined} deps * @param {Record | undefined} needs * @returns {string[] | undefined} */ function deriveDepNodeIds(deps, needs) { if (!deps) return undefined; const ids = new Set(); for (const key of Object.keys(deps)) { const nodeId = needs?.[key] ?? key; if (nodeId) ids.add(nodeId); } return ids.size > 0 ? [...ids] : undefined; } /** * @param {string[] | undefined} dependsOn * @param {string[] | undefined} depNodeIds * @returns {string[] | undefined} */ function mergeDependsOn(dependsOn, depNodeIds) { const merged = new Set(); for (const id of dependsOn ?? []) merged.add(id); for (const id of depNodeIds ?? []) merged.add(id); return merged.size > 0 ? [...merged] : undefined; } /** * @param {any} ctx * @param {DepsSpec | undefined} deps * @param {Record | undefined} needs * @returns {Record | null} */ function resolveDeps(ctx, deps, needs) { if (!deps) return Object.create(null); const keys = Object.keys(deps); if (keys.length === 0) return Object.create(null); const resolved = Object.create(null); for (const key of keys) { const target = deps[key]; const nodeId = needs?.[key] ?? key; const value = ctx.outputMaybe(target, { nodeId }); if (value === undefined) return null; resolved[key] = value; } return resolved; } /** * @param {AgentLike} agent * @param {string[] | undefined} allowTools * @returns {AgentLike} */ function applyCliToolAllowlist(agent, allowTools) { if (!allowTools) { return agent; } if (agent instanceof ClaudeCodeAgent) { const opts = { ...agent.opts }; if (allowTools.length === 0) { return new ClaudeCodeAgent({ ...opts, allowedTools: [], tools: "", }); } return new ClaudeCodeAgent({ ...opts, allowedTools: [...allowTools], }); } if (agent instanceof PiAgent) { const opts = { ...agent.opts }; if (allowTools.length === 0) { return new PiAgent({ ...opts, tools: [], noTools: true, }); } return new PiAgent({ ...opts, tools: [...allowTools], noTools: false, }); } if (agent instanceof GeminiAgent) { const opts = { ...agent.opts }; return new GeminiAgent({ ...opts, allowedTools: [...allowTools], }); } if (agent instanceof AntigravityAgent) { const opts = { ...agent.opts }; return new AntigravityAgent({ ...opts, allowedTools: [...allowTools], }); } return agent; } /** * @param {unknown} ctx * @param {string[] | undefined} allowTools * @returns {string[] | undefined} */ function resolveCliToolAllowlist(ctx, allowTools) { if (allowTools !== undefined) { return allowTools; } const cliAgentToolsDefault = ctx && typeof ctx === "object" ? ctx.__smithersRuntime?.cliAgentToolsDefault : undefined; return cliAgentToolsDefault === "explicit-only" ? [] : undefined; } /** * @template Row, Output, D * @param {TaskProps} props * @returns {React.ReactElement | null} */ export function Task(props) { const { children, agent, fallbackAgent, deps, ...rest } = props; const taskContext = props.smithersContext ?? SmithersContext; const ctx = React.useContext(taskContext); const aspectCtx = React.useContext(AspectContext); const depNodeIds = deriveDepNodeIds(deps, rest.needs); if (deps && !ctx) { throw new SmithersError("CONTEXT_OUTSIDE_WORKFLOW", "Task deps require a workflow context. Build the workflow with createSmithers()."); } const resolvedDeps = deps ? resolveDeps(ctx, deps, rest.needs) : undefined; if (deps && resolvedDeps == null) { // Deps not yet available — component defers until upstream tasks complete. // This is normal reactive behavior; the task will re-render once deps are // ready. Record the deferral so the engine can distinguish a transient wait // from a permanent one: a deferral that survives to quiescence means a // dependency that can never resolve (e.g. a deps key that maps to a node id // no task produces), which would otherwise be a silent skip. ctx?.recordDeferredDep?.(props.id, depNodeIds ?? []); return null; } // Build aspect metadata to attach to the task element so the engine can // enforce budgets and track metrics at execution time. const aspectMeta = aspectCtx ? buildAspectMeta(aspectCtx) : undefined; const agentChain = Array.isArray(agent) ? fallbackAgent ? [...agent, fallbackAgent] : agent : agent && fallbackAgent ? [agent, fallbackAgent] : agent; const effectiveAllowTools = resolveCliToolAllowlist(ctx, rest.allowTools); const restrictedAgentChain = Array.isArray(agentChain) ? agentChain.map((entry) => applyCliToolAllowlist(entry, effectiveAllowTools)) : agentChain ? applyCliToolAllowlist(agentChain, effectiveAllowTools) : agentChain; const nextDependsOn = mergeDependsOn(rest.dependsOn, depNodeIds); const childValue = typeof children === "function" && (agent || deps) ? children(resolvedDeps ?? Object.create(null)) : children; if (agent) { // Auto-inject `schema` prop into React element children when output is a ZodObject let childElement = childValue; const schemaForInjection = props.outputSchema ?? (isZodObject(props.output) ? props.output : undefined); if (React.isValidElement(childValue) && schemaForInjection) { childElement = React.cloneElement(childValue, { schema: zodSchemaToJsonExample(schemaForInjection), }); } const prompt = renderPromptToText(childElement); return React.createElement("smithers:task", { ...rest, dependsOn: nextDependsOn, waitAsync: rest.async === true, agent: restrictedAgentChain, __smithersKind: "agent", ...aspectMeta, }, prompt); } if (typeof children === "function" && !deps) { const nextProps = { ...rest, dependsOn: nextDependsOn, waitAsync: rest.async === true, __smithersKind: "compute", __smithersComputeFn: children, ...aspectMeta, }; return React.createElement("smithers:task", nextProps, null); } const nextProps = { ...rest, dependsOn: nextDependsOn, waitAsync: rest.async === true, __smithersKind: "static", __smithersPayload: childValue, __payload: childValue, ...aspectMeta, }; return React.createElement("smithers:task", nextProps, null); } /** * Build the __aspects metadata object from the current AspectContext. * This is attached to the smithers:task element props so the engine can read * budgets and tracking config at execution time. * @param {{ * tokenBudget?: unknown; * latencySlo?: unknown; * tracking?: unknown; * accumulator?: unknown; * }} aspectCtx * @returns {{ __aspects: Record }} */ function buildAspectMeta(aspectCtx) { return { __aspects: { tokenBudget: aspectCtx.tokenBudget, latencySlo: aspectCtx.latencySlo, tracking: aspectCtx.tracking, accumulator: aspectCtx.accumulator, }, }; } ``` ```ts OptimizerProps.ts theme={null} import type React from "react"; import type { AgentLike } from "@smithers-orchestrator/agents/AgentLike"; import type { OutputTarget } from "./OutputTarget.ts"; export type OptimizerProps = { id?: string; /** Agent that generates or improves candidates each iteration. */ generator: AgentLike; /** Agent (or compute function) that scores candidates. */ evaluator: AgentLike | ((candidate: unknown) => unknown | Promise); /** Output schema for generated candidates. */ generateOutput: OutputTarget; /** Output schema for evaluation results. Must include a `score: number` field. */ evaluateOutput: OutputTarget; /** Score threshold to stop early. When omitted, runs all iterations. */ targetScore?: number; /** Maximum optimization rounds. @default 10 */ maxIterations?: number; /** Behavior when maxIterations is reached. @default "return-last" */ onMaxReached?: "return-last" | "fail"; /** Skip the entire optimization loop. */ skipIf?: boolean; /** Initial generation prompt (string or ReactNode). */ children: string | React.ReactNode; }; ```