agsamantha/node_modules/langchain/dist/agents/executor.cjs
2024-10-02 15:15:21 -05:00

687 lines
26 KiB
JavaScript

"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.AgentExecutor = exports.ExceptionTool = exports.AgentExecutorIterator = void 0;
const tools_1 = require("@langchain/core/tools");
const runnables_1 = require("@langchain/core/runnables");
const manager_1 = require("@langchain/core/callbacks/manager");
const output_parsers_1 = require("@langchain/core/output_parsers");
const serializable_1 = require("@langchain/core/load/serializable");
const agent_js_1 = require("./agent.cjs");
const base_js_1 = require("../chains/base.cjs");
class AgentExecutorIterator extends serializable_1.Serializable {
get finalOutputs() {
return this._finalOutputs;
}
/** Intended to be used as a setter method, needs to be async. */
async setFinalOutputs(value) {
this._finalOutputs = undefined;
if (value) {
const preparedOutputs = await this.agentExecutor.prepOutputs(this.inputs, value, true);
this._finalOutputs = preparedOutputs;
}
}
get nameToToolMap() {
const toolMap = this.agentExecutor.tools.map((tool) => ({
[tool.name]: tool,
}));
return Object.assign({}, ...toolMap);
}
constructor(fields) {
super(fields);
Object.defineProperty(this, "lc_namespace", {
enumerable: true,
configurable: true,
writable: true,
value: ["langchain", "agents", "executor_iterator"]
});
Object.defineProperty(this, "agentExecutor", {
enumerable: true,
configurable: true,
writable: true,
value: void 0
});
Object.defineProperty(this, "inputs", {
enumerable: true,
configurable: true,
writable: true,
value: void 0
});
Object.defineProperty(this, "config", {
enumerable: true,
configurable: true,
writable: true,
value: void 0
});
/** @deprecated Use "config" */
Object.defineProperty(this, "callbacks", {
enumerable: true,
configurable: true,
writable: true,
value: void 0
});
/** @deprecated Use "config" */
Object.defineProperty(this, "tags", {
enumerable: true,
configurable: true,
writable: true,
value: void 0
});
/** @deprecated Use "config" */
Object.defineProperty(this, "metadata", {
enumerable: true,
configurable: true,
writable: true,
value: void 0
});
/** @deprecated Use "config" */
Object.defineProperty(this, "runName", {
enumerable: true,
configurable: true,
writable: true,
value: void 0
});
Object.defineProperty(this, "_finalOutputs", {
enumerable: true,
configurable: true,
writable: true,
value: void 0
});
Object.defineProperty(this, "runManager", {
enumerable: true,
configurable: true,
writable: true,
value: void 0
});
Object.defineProperty(this, "intermediateSteps", {
enumerable: true,
configurable: true,
writable: true,
value: []
});
Object.defineProperty(this, "iterations", {
enumerable: true,
configurable: true,
writable: true,
value: 0
});
this.agentExecutor = fields.agentExecutor;
this.inputs = fields.inputs;
this.callbacks = fields.callbacks;
this.tags = fields.tags;
this.metadata = fields.metadata;
this.runName = fields.runName;
this.runManager = fields.runManager;
this.config = fields.config;
}
/**
* Reset the iterator to its initial state, clearing intermediate steps,
* iterations, and the final output.
*/
reset() {
this.intermediateSteps = [];
this.iterations = 0;
this._finalOutputs = undefined;
}
updateIterations() {
this.iterations += 1;
}
async *streamIterator() {
this.reset();
// Loop to handle iteration
while (true) {
try {
if (this.iterations === 0) {
await this.onFirstStep();
}
const result = await this._callNext();
yield result;
// eslint-disable-next-line @typescript-eslint/no-explicit-any
}
catch (e) {
if ("message" in e &&
e.message.startsWith("Final outputs already reached: ")) {
if (!this.finalOutputs) {
throw e;
}
return this.finalOutputs;
}
if (this.runManager) {
await this.runManager.handleChainError(e);
}
throw e;
}
}
}
/**
* Perform any necessary setup for the first step
* of the asynchronous iterator.
*/
async onFirstStep() {
if (this.iterations === 0) {
const callbackManager = await manager_1.CallbackManager.configure(this.callbacks ?? this.config?.callbacks, this.agentExecutor.callbacks, this.tags ?? this.config?.tags, this.agentExecutor.tags, this.metadata ?? this.config?.metadata, this.agentExecutor.metadata, {
verbose: this.agentExecutor.verbose,
});
this.runManager = await callbackManager?.handleChainStart(this.agentExecutor.toJSON(), this.inputs, this.config?.runId, undefined, this.tags ?? this.config?.tags, this.metadata ?? this.config?.metadata, this.runName ?? this.config?.runName);
if (this.config !== undefined) {
delete this.config.runId;
}
}
}
/**
* Execute the next step in the chain using the
* AgentExecutor's _takeNextStep method.
*/
async _executeNextStep(runManager) {
return this.agentExecutor._takeNextStep(this.nameToToolMap, this.inputs, this.intermediateSteps, runManager, this.config);
}
/**
* Process the output of the next step,
* handling AgentFinish and tool return cases.
*/
async _processNextStepOutput(nextStepOutput, runManager) {
if ("returnValues" in nextStepOutput) {
const output = await this.agentExecutor._return(nextStepOutput, this.intermediateSteps, runManager);
if (this.runManager) {
await this.runManager.handleChainEnd(output);
}
await this.setFinalOutputs(output);
return output;
}
this.intermediateSteps = this.intermediateSteps.concat(nextStepOutput);
let output = {};
if (Array.isArray(nextStepOutput) && nextStepOutput.length === 1) {
const nextStep = nextStepOutput[0];
const toolReturn = await this.agentExecutor._getToolReturn(nextStep);
if (toolReturn) {
output = await this.agentExecutor._return(toolReturn, this.intermediateSteps, runManager);
await this.runManager?.handleChainEnd(output);
await this.setFinalOutputs(output);
}
}
output = { intermediateSteps: nextStepOutput };
return output;
}
async _stop() {
const output = await this.agentExecutor.agent.returnStoppedResponse(this.agentExecutor.earlyStoppingMethod, this.intermediateSteps, this.inputs);
const returnedOutput = await this.agentExecutor._return(output, this.intermediateSteps, this.runManager);
await this.setFinalOutputs(returnedOutput);
await this.runManager?.handleChainEnd(returnedOutput);
return returnedOutput;
}
async _callNext() {
// final output already reached: stopiteration (final output)
if (this.finalOutputs) {
throw new Error(`Final outputs already reached: ${JSON.stringify(this.finalOutputs, null, 2)}`);
}
// timeout/max iterations: stopiteration (stopped response)
if (!this.agentExecutor.shouldContinueGetter(this.iterations)) {
return this._stop();
}
const nextStepOutput = await this._executeNextStep(this.runManager);
const output = await this._processNextStepOutput(nextStepOutput, this.runManager);
this.updateIterations();
return output;
}
}
exports.AgentExecutorIterator = AgentExecutorIterator;
/**
* Tool that just returns the query.
* Used for exception tracking.
*/
class ExceptionTool extends tools_1.Tool {
constructor() {
super(...arguments);
Object.defineProperty(this, "name", {
enumerable: true,
configurable: true,
writable: true,
value: "_Exception"
});
Object.defineProperty(this, "description", {
enumerable: true,
configurable: true,
writable: true,
value: "Exception tool"
});
}
async _call(query) {
return query;
}
}
exports.ExceptionTool = ExceptionTool;
/**
* A chain managing an agent using tools.
* @augments BaseChain
* @example
* ```typescript
*
* const executor = AgentExecutor.fromAgentAndTools({
* agent: async () => loadAgentFromLangchainHub(),
* tools: [new SerpAPI(), new Calculator()],
* returnIntermediateSteps: true,
* });
*
* const result = await executor.invoke({
* input: `Who is Olivia Wilde's boyfriend? What is his current age raised to the 0.23 power?`,
* });
*
* ```
*/
class AgentExecutor extends base_js_1.BaseChain {
static lc_name() {
return "AgentExecutor";
}
get lc_namespace() {
return ["langchain", "agents", "executor"];
}
get inputKeys() {
return this.agent.inputKeys;
}
get outputKeys() {
return this.agent.returnValues;
}
constructor(input) {
let agent;
let returnOnlyOutputs = true;
if (runnables_1.Runnable.isRunnable(input.agent)) {
if (agent_js_1.AgentRunnableSequence.isAgentRunnableSequence(input.agent)) {
if (input.agent.singleAction) {
agent = new agent_js_1.RunnableSingleActionAgent({
runnable: input.agent,
streamRunnable: input.agent.streamRunnable,
});
}
else {
agent = new agent_js_1.RunnableMultiActionAgent({
runnable: input.agent,
streamRunnable: input.agent.streamRunnable,
});
}
}
else {
agent = new agent_js_1.RunnableMultiActionAgent({ runnable: input.agent });
}
// TODO: Update BaseChain implementation on breaking change
returnOnlyOutputs = false;
}
else {
if ((0, agent_js_1.isRunnableAgent)(input.agent)) {
returnOnlyOutputs = false;
}
agent = input.agent;
}
super(input);
Object.defineProperty(this, "agent", {
enumerable: true,
configurable: true,
writable: true,
value: void 0
});
Object.defineProperty(this, "tools", {
enumerable: true,
configurable: true,
writable: true,
value: void 0
});
Object.defineProperty(this, "returnIntermediateSteps", {
enumerable: true,
configurable: true,
writable: true,
value: false
});
Object.defineProperty(this, "maxIterations", {
enumerable: true,
configurable: true,
writable: true,
value: 15
});
Object.defineProperty(this, "earlyStoppingMethod", {
enumerable: true,
configurable: true,
writable: true,
value: "force"
});
// TODO: Update BaseChain implementation on breaking change to include this
Object.defineProperty(this, "returnOnlyOutputs", {
enumerable: true,
configurable: true,
writable: true,
value: true
});
/**
* How to handle errors raised by the agent's output parser.
Defaults to `False`, which raises the error.
If `true`, the error will be sent back to the LLM as an observation.
If a string, the string itself will be sent to the LLM as an observation.
If a callable function, the function will be called with the exception
as an argument, and the result of that function will be passed to the agent
as an observation.
*/
Object.defineProperty(this, "handleParsingErrors", {
enumerable: true,
configurable: true,
writable: true,
value: false
});
Object.defineProperty(this, "handleToolRuntimeErrors", {
enumerable: true,
configurable: true,
writable: true,
value: void 0
});
this.agent = agent;
this.tools = input.tools;
this.handleParsingErrors =
input.handleParsingErrors ?? this.handleParsingErrors;
this.handleToolRuntimeErrors = input.handleToolRuntimeErrors;
this.returnOnlyOutputs = returnOnlyOutputs;
if (this.agent._agentActionType() === "multi") {
for (const tool of this.tools) {
if (tool.returnDirect) {
throw new Error(`Tool with return direct ${tool.name} not supported for multi-action agent.`);
}
}
}
this.returnIntermediateSteps =
input.returnIntermediateSteps ?? this.returnIntermediateSteps;
this.maxIterations = input.maxIterations ?? this.maxIterations;
this.earlyStoppingMethod =
input.earlyStoppingMethod ?? this.earlyStoppingMethod;
}
/** Create from agent and a list of tools. */
static fromAgentAndTools(fields) {
return new AgentExecutor(fields);
}
get shouldContinueGetter() {
return this.shouldContinue.bind(this);
}
/**
* Method that checks if the agent execution should continue based on the
* number of iterations.
* @param iterations The current number of iterations.
* @returns A boolean indicating whether the agent execution should continue.
*/
shouldContinue(iterations) {
return this.maxIterations === undefined || iterations < this.maxIterations;
}
/** @ignore */
async _call(inputs, runManager, config) {
const toolsByName = Object.fromEntries(this.tools.map((t) => [t.name.toLowerCase(), t]));
const steps = [];
let iterations = 0;
const getOutput = async (finishStep) => {
const { returnValues } = finishStep;
const additional = await this.agent.prepareForOutput(returnValues, steps);
await runManager?.handleAgentEnd(finishStep);
let response;
if (this.returnIntermediateSteps) {
response = { ...returnValues, intermediateSteps: steps, ...additional };
}
else {
response = { ...returnValues, ...additional };
}
if (!this.returnOnlyOutputs) {
response = { ...inputs, ...response };
}
return response;
};
while (this.shouldContinue(iterations)) {
let output;
try {
output = await this.agent.plan(steps, inputs, runManager?.getChild(), config);
}
catch (e) {
// eslint-disable-next-line no-instanceof/no-instanceof
if (e instanceof output_parsers_1.OutputParserException) {
let observation;
let text = e.message;
if (this.handleParsingErrors === true) {
if (e.sendToLLM) {
observation = e.observation;
text = e.llmOutput ?? "";
}
else {
observation = "Invalid or incomplete response";
}
}
else if (typeof this.handleParsingErrors === "string") {
observation = this.handleParsingErrors;
}
else if (typeof this.handleParsingErrors === "function") {
observation = this.handleParsingErrors(e);
}
else {
throw e;
}
output = {
tool: "_Exception",
toolInput: observation,
log: text,
};
}
else {
throw e;
}
}
// Check if the agent has finished
if ("returnValues" in output) {
return getOutput(output);
}
let actions;
if (Array.isArray(output)) {
actions = output;
}
else {
actions = [output];
}
const newSteps = await Promise.all(actions.map(async (action) => {
await runManager?.handleAgentAction(action);
const tool = action.tool === "_Exception"
? new ExceptionTool()
: toolsByName[action.tool?.toLowerCase()];
let observation;
try {
observation = tool
? await tool.invoke(action.toolInput, (0, runnables_1.patchConfig)(config, { callbacks: runManager?.getChild() }))
: `${action.tool} is not a valid tool, try another one.`;
if (typeof observation !== "string") {
throw new Error("Received unsupported non-string response from tool call.");
}
// eslint-disable-next-line @typescript-eslint/no-explicit-any
}
catch (e) {
// eslint-disable-next-line no-instanceof/no-instanceof
if (e instanceof tools_1.ToolInputParsingException) {
if (this.handleParsingErrors === true) {
observation =
"Invalid or incomplete tool input. Please try again.";
}
else if (typeof this.handleParsingErrors === "string") {
observation = this.handleParsingErrors;
}
else if (typeof this.handleParsingErrors === "function") {
observation = this.handleParsingErrors(e);
}
else {
throw e;
}
observation = await new ExceptionTool().call(observation, runManager?.getChild());
return { action, observation: observation ?? "" };
}
else if (this.handleToolRuntimeErrors !== undefined) {
observation = this.handleToolRuntimeErrors(e);
}
}
return { action, observation: observation ?? "" };
}));
steps.push(...newSteps);
const lastStep = steps[steps.length - 1];
const lastTool = toolsByName[lastStep.action.tool?.toLowerCase()];
if (lastTool?.returnDirect) {
return getOutput({
returnValues: { [this.agent.returnValues[0]]: lastStep.observation },
log: "",
});
}
iterations += 1;
}
const finish = await this.agent.returnStoppedResponse(this.earlyStoppingMethod, steps, inputs);
return getOutput(finish);
}
async _takeNextStep(nameToolMap, inputs, intermediateSteps, runManager, config) {
let output;
try {
output = await this.agent.plan(intermediateSteps, inputs, runManager?.getChild(), config);
}
catch (e) {
// eslint-disable-next-line no-instanceof/no-instanceof
if (e instanceof output_parsers_1.OutputParserException) {
let observation;
let text = e.message;
if (this.handleParsingErrors === true) {
if (e.sendToLLM) {
observation = e.observation;
text = e.llmOutput ?? "";
}
else {
observation = "Invalid or incomplete response";
}
}
else if (typeof this.handleParsingErrors === "string") {
observation = this.handleParsingErrors;
}
else if (typeof this.handleParsingErrors === "function") {
observation = this.handleParsingErrors(e);
}
else {
throw e;
}
output = {
tool: "_Exception",
toolInput: observation,
log: text,
};
}
else {
throw e;
}
}
if ("returnValues" in output) {
return output;
}
let actions;
if (Array.isArray(output)) {
actions = output;
}
else {
actions = [output];
}
const result = [];
for (const agentAction of actions) {
let observation = "";
if (runManager) {
await runManager?.handleAgentAction(agentAction);
}
if (agentAction.tool in nameToolMap) {
const tool = nameToolMap[agentAction.tool];
try {
observation = await tool.call(agentAction.toolInput, runManager?.getChild());
if (typeof observation !== "string") {
throw new Error("Received unsupported non-string response from tool call.");
}
}
catch (e) {
// eslint-disable-next-line no-instanceof/no-instanceof
if (e instanceof tools_1.ToolInputParsingException) {
if (this.handleParsingErrors === true) {
observation =
"Invalid or incomplete tool input. Please try again.";
}
else if (typeof this.handleParsingErrors === "string") {
observation = this.handleParsingErrors;
}
else if (typeof this.handleParsingErrors === "function") {
observation = this.handleParsingErrors(e);
}
else {
throw e;
}
observation = await new ExceptionTool().call(observation, runManager?.getChild());
}
}
}
else {
observation = `${agentAction.tool} is not a valid tool, try another available tool: ${Object.keys(nameToolMap).join(", ")}`;
}
result.push({
action: agentAction,
observation,
});
}
return result;
}
async _return(output, intermediateSteps, runManager) {
if (runManager) {
await runManager.handleAgentEnd(output);
}
const finalOutput = output.returnValues;
if (this.returnIntermediateSteps) {
finalOutput.intermediateSteps = intermediateSteps;
}
return finalOutput;
}
async _getToolReturn(nextStepOutput) {
const { action, observation } = nextStepOutput;
const nameToolMap = Object.fromEntries(this.tools.map((t) => [t.name.toLowerCase(), t]));
const [returnValueKey = "output"] = this.agent.returnValues;
// Invalid tools won't be in the map, so we return False.
if (action.tool in nameToolMap) {
if (nameToolMap[action.tool].returnDirect) {
return {
returnValues: { [returnValueKey]: observation },
log: "",
};
}
}
return null;
}
_returnStoppedResponse(earlyStoppingMethod) {
if (earlyStoppingMethod === "force") {
return {
returnValues: {
output: "Agent stopped due to iteration limit or time limit.",
},
log: "",
};
}
throw new Error(`Got unsupported early_stopping_method: ${earlyStoppingMethod}`);
}
async *_streamIterator(
// eslint-disable-next-line @typescript-eslint/no-explicit-any
inputs, options) {
const agentExecutorIterator = new AgentExecutorIterator({
inputs,
agentExecutor: this,
config: options,
// TODO: Deprecate these other parameters
metadata: options?.metadata,
tags: options?.tags,
callbacks: options?.callbacks,
});
const iterator = agentExecutorIterator.streamIterator();
for await (const step of iterator) {
if (!step) {
continue;
}
yield step;
}
}
_chainType() {
return "agent_executor";
}
serialize() {
throw new Error("Cannot serialize an AgentExecutor");
}
}
exports.AgentExecutor = AgentExecutor;