"use strict"; Object.defineProperty(exports, "__esModule", { value: true }); exports.TimeWeightedVectorStoreRetriever = exports.BUFFER_IDX = exports.LAST_ACCESSED_AT_KEY = void 0; const retrievers_1 = require("@langchain/core/retrievers"); exports.LAST_ACCESSED_AT_KEY = "last_accessed_at"; exports.BUFFER_IDX = "buffer_idx"; /** * TimeWeightedVectorStoreRetriever retrieves documents based on their time-weighted relevance. * ref: https://github.com/langchain-ai/langchain/blob/master/libs/langchain/langchain/retrievers/time_weighted_retriever.py * @example * ```typescript * const retriever = new TimeWeightedVectorStoreRetriever({ * vectorStore: new MemoryVectorStore(new OpenAIEmbeddings()), * memoryStream: [], * searchKwargs: 2, * }); * await retriever.addDocuments([ * { pageContent: "My name is John.", metadata: {} }, * { pageContent: "My favourite food is pizza.", metadata: {} }, * * ]); * const results = await retriever.getRelevantDocuments( * "What is my favourite food?", * ); * ``` */ class TimeWeightedVectorStoreRetriever extends retrievers_1.BaseRetriever { static lc_name() { return "TimeWeightedVectorStoreRetriever"; } get lc_namespace() { return ["langchain", "retrievers", "time_weighted"]; } /** * Constructor to initialize the required fields * @param fields - The fields required for initializing the TimeWeightedVectorStoreRetriever */ constructor(fields) { super(fields); /** * The vectorstore to store documents and determine salience. */ Object.defineProperty(this, "vectorStore", { enumerable: true, configurable: true, writable: true, value: void 0 }); /** * The number of top K most relevant documents to consider when searching. */ Object.defineProperty(this, "searchKwargs", { enumerable: true, configurable: true, writable: true, value: void 0 }); /** * The memory_stream of documents to search through. */ Object.defineProperty(this, "memoryStream", { enumerable: true, configurable: true, writable: true, value: void 0 }); /** * The exponential decay factor used as (1.0-decay_rate)**(hrs_passed). */ Object.defineProperty(this, "decayRate", { enumerable: true, configurable: true, writable: true, value: void 0 }); /** * The maximum number of documents to retrieve in a given call. */ Object.defineProperty(this, "k", { enumerable: true, configurable: true, writable: true, value: void 0 }); /** * Other keys in the metadata to factor into the score, e.g. 'importance'. */ Object.defineProperty(this, "otherScoreKeys", { enumerable: true, configurable: true, writable: true, value: void 0 }); /** * The salience to assign memories not retrieved from the vector store. */ Object.defineProperty(this, "defaultSalience", { enumerable: true, configurable: true, writable: true, value: void 0 }); this.vectorStore = fields.vectorStore; this.searchKwargs = fields.searchKwargs ?? 100; this.memoryStream = fields.memoryStream ?? []; this.decayRate = fields.decayRate ?? 0.01; this.k = fields.k ?? 4; this.otherScoreKeys = fields.otherScoreKeys ?? []; this.defaultSalience = fields.defaultSalience ?? null; } /** * Get the memory stream of documents. * @returns The memory stream of documents. */ getMemoryStream() { return this.memoryStream; } /** * Set the memory stream of documents. * @param memoryStream The new memory stream of documents. */ setMemoryStream(memoryStream) { this.memoryStream = memoryStream; } /** * Get relevant documents based on time-weighted relevance * @param query - The query to search for * @returns The relevant documents */ async _getRelevantDocuments(query, runManager) { const now = Math.floor(Date.now() / 1000); const memoryDocsAndScores = this.getMemoryDocsAndScores(); const salientDocsAndScores = await this.getSalientDocuments(query, runManager); const docsAndScores = { ...memoryDocsAndScores, ...salientDocsAndScores }; return this.computeResults(docsAndScores, now); } /** * NOTE: When adding documents to a vector store, use addDocuments * via retriever instead of directly to the vector store. * This is because it is necessary to process the document * in prepareDocuments. * * @param docs - The documents to add to vector store in the retriever */ async addDocuments(docs) { const now = Math.floor(Date.now() / 1000); const savedDocs = this.prepareDocuments(docs, now); this.memoryStream.push(...savedDocs); await this.vectorStore.addDocuments(savedDocs); } /** * Get memory documents and their scores * @returns An object containing memory documents and their scores */ getMemoryDocsAndScores() { const memoryDocsAndScores = {}; for (const doc of this.memoryStream.slice(-this.k)) { const bufferIdx = doc.metadata[exports.BUFFER_IDX]; if (bufferIdx === undefined) { throw new Error(`Found a document in the vector store that is missing required metadata. This retriever only supports vector stores with documents that have been added through the "addDocuments" method on a TimeWeightedVectorStoreRetriever, not directly added or loaded into the backing vector store.`); } memoryDocsAndScores[bufferIdx] = { doc, score: this.defaultSalience ?? 0, }; } return memoryDocsAndScores; } /** * Get salient documents and their scores based on the query * @param query - The query to search for * @returns An object containing salient documents and their scores */ async getSalientDocuments(query, runManager) { const docAndScores = await this.vectorStore.similaritySearchWithScore(query, this.searchKwargs, undefined, runManager?.getChild()); const results = {}; for (const [fetchedDoc, score] of docAndScores) { const bufferIdx = fetchedDoc.metadata[exports.BUFFER_IDX]; if (bufferIdx === undefined) { throw new Error(`Found a document in the vector store that is missing required metadata. This retriever only supports vector stores with documents that have been added through the "addDocuments" method on a TimeWeightedVectorStoreRetriever, not directly added or loaded into the backing vector store.`); } const doc = this.memoryStream[bufferIdx]; results[bufferIdx] = { doc, score }; } return results; } /** * Compute the final result set of documents based on the combined scores * @param docsAndScores - An object containing documents and their scores * @param now - The current timestamp * @returns The final set of documents */ computeResults(docsAndScores, now) { const recordedDocs = Object.values(docsAndScores) .map(({ doc, score }) => ({ doc, score: this.getCombinedScore(doc, score, now), })) .sort((a, b) => b.score - a.score); const results = []; for (const { doc } of recordedDocs) { const bufferedDoc = this.memoryStream[doc.metadata[exports.BUFFER_IDX]]; bufferedDoc.metadata[exports.LAST_ACCESSED_AT_KEY] = now; results.push(bufferedDoc); if (results.length > this.k) { break; } } return results; } /** * Prepare documents with necessary metadata before saving * @param docs - The documents to prepare * @param now - The current timestamp * @returns The prepared documents */ prepareDocuments(docs, now) { return docs.map((doc, i) => ({ ...doc, metadata: { ...doc.metadata, [exports.LAST_ACCESSED_AT_KEY]: doc.metadata[exports.LAST_ACCESSED_AT_KEY] ?? now, created_at: doc.metadata.created_at ?? now, [exports.BUFFER_IDX]: this.memoryStream.length + i, }, })); } /** * Calculate the combined score based on vector relevance and other factors * @param doc - The document to calculate the score for * @param vectorRelevance - The relevance score from the vector store * @param nowMsec - The current timestamp in milliseconds * @returns The combined score for the document */ getCombinedScore(doc, vectorRelevance, nowMsec) { const hoursPassed = this.getHoursPassed(nowMsec, doc.metadata[exports.LAST_ACCESSED_AT_KEY]); let score = (1.0 - this.decayRate) ** hoursPassed; for (const key of this.otherScoreKeys) { score += doc.metadata[key]; } if (vectorRelevance !== null) { score += vectorRelevance; } return score; } /** * Calculate the hours passed between two time points * @param time - The current time in seconds * @param refTime - The reference time in seconds * @returns The number of hours passed between the two time points */ getHoursPassed(time, refTime) { return (time - refTime) / 3600; } } exports.TimeWeightedVectorStoreRetriever = TimeWeightedVectorStoreRetriever;