"use strict"; Object.defineProperty(exports, "__esModule", { value: true }); exports.TrajectoryEvalChain = exports.TrajectoryOutputParser = void 0; const output_parsers_1 = require("@langchain/core/output_parsers"); const outputs_1 = require("@langchain/core/outputs"); const base_js_1 = require("../base.cjs"); const prompt_js_1 = require("./prompt.cjs"); /** * A parser for the output of the TrajectoryEvalChain. */ class TrajectoryOutputParser extends output_parsers_1.BaseLLMOutputParser { constructor() { super(...arguments); Object.defineProperty(this, "lc_namespace", { enumerable: true, configurable: true, writable: true, value: ["langchain", "evaluation", "agents"] }); } static lc_name() { return "TrajectoryOutputParser"; } parseResult(generations, _callbacks) { const { text } = generations[0]; if (!text.includes("Score:")) { throw new Error(`Could not find score in model eval output: ${text}`); } let [reasoning, scoreStr] = text.split("Score:", 2); reasoning = reasoning.trim(); scoreStr = scoreStr.trim(); // Use regex to extract the score. // This will get the number in the string, even if it is a float or more than 10. // E.g. "Score: 1" will return 1, "Score: 3.5" will return 3.5, and // "Score: 10" will return 10. // The score should be an integer digit in the range 1-5. const scoreMatch = scoreStr.match(/(\d+(\.\d+)?)/); if (scoreMatch === null || scoreMatch[1].includes(".")) { throw new Error(`Score is not an integer digit in the range 1-5: ${text}`); } const score = +scoreMatch[1]; if (score < 1 || score > 5) { throw new Error(`Score is not a digit in the range 1-5: ${text}`); } const normalizedScore = (score - 1) / 4; return Promise.resolve({ reasoning, score: normalizedScore, }); } } exports.TrajectoryOutputParser = TrajectoryOutputParser; /** * A chain for evaluating ReAct style agents. * * This chain is used to evaluate ReAct style agents by reasoning about * the sequence of actions taken and their outcomes. */ class TrajectoryEvalChain extends base_js_1.AgentTrajectoryEvaluator { constructor() { super(...arguments); Object.defineProperty(this, "criterionName", { enumerable: true, configurable: true, writable: true, value: void 0 }); Object.defineProperty(this, "evaluationName", { enumerable: true, configurable: true, writable: true, value: this.criterionName }); Object.defineProperty(this, "requiresInput", { enumerable: true, configurable: true, writable: true, value: true }); Object.defineProperty(this, "requiresReference", { enumerable: true, configurable: true, writable: true, value: false }); Object.defineProperty(this, "outputParser", { enumerable: true, configurable: true, writable: true, value: new TrajectoryOutputParser() }); } static lc_name() { return "TrajectoryEvalChain"; } static resolveTrajectoryPrompt(prompt, agentTools) { let _prompt; if (prompt) { _prompt = prompt; } else if (agentTools) { _prompt = prompt_js_1.EVAL_CHAT_PROMPT; } else { _prompt = prompt_js_1.TOOL_FREE_EVAL_CHAT_PROMPT; } return _prompt; } /** * Get the description of the agent tools. * * @returns The description of the agent tools. */ static toolsDescription(agentTools) { return agentTools .map((tool, i) => `Tool ${i + 1}: ${tool.name}\n Description: ${tool.description}`) .join("\n\n"); } /** * Create a new TrajectoryEvalChain. * @param llm * @param agentTools - The tools used by the agent. * @param chainOptions - The options for the chain. */ static async fromLLM(llm, agentTools, chainOptions) { let prompt = this.resolveTrajectoryPrompt(chainOptions?.prompt, agentTools); if (agentTools) { const toolDescriptions = this.toolsDescription(agentTools); prompt = await prompt.partial({ toolDescriptions }); } const options = chainOptions; if (options) { // remove prompt from chainOptions delete options.prompt; } return new this({ llm, prompt, ...options, }); } _prepareOutput(result) { const parsed = result[this.outputKey]; if (outputs_1.RUN_KEY in result && result[outputs_1.RUN_KEY]) { parsed[outputs_1.RUN_KEY] = result[outputs_1.RUN_KEY]; } return parsed; } /** * Get the agent trajectory as a formatted string. * * @param steps - The agent trajectory. * @returns The formatted agent trajectory. */ getAgentTrajectory(steps) { return steps .map((step, i) => { const { action, observation } = step; return (`Step ${i + 1}:\n` + `Tool used: ${action.tool}\n` + `Tool input: ${action.toolInput}\n` + `Tool output: ${observation}`); }) .join("\n\n"); } formatReference(reference) { if (!reference) { return ""; } return ` The following is the expected answer. Use this to measure correctness: [GROUND_TRUTH] ${reference} [END_GROUND_TRUTH] `; } async _evaluateAgentTrajectory(args, callOptions, config) { const { input, prediction, reference, agentTrajectory } = args; const inputs = { question: input, agentTrajectory: this.getAgentTrajectory(agentTrajectory), answer: prediction, reference: this.formatReference(reference), }; const result = await this.call({ ...inputs, ...callOptions }, config); return this._prepareOutput(result); } } exports.TrajectoryEvalChain = TrajectoryEvalChain;