"use strict"; Object.defineProperty(exports, "__esModule", { value: true }); exports.MemoryVectorStore = void 0; const vectorstores_1 = require("@langchain/core/vectorstores"); const documents_1 = require("@langchain/core/documents"); const similarities_js_1 = require("../util/ml-distance/similarities.cjs"); const math_js_1 = require("../util/math.cjs"); /** * In-memory, ephemeral vector store. * * Setup: * Install `langchain`: * * ```bash * npm install langchain * ``` * * ## [Constructor args](https://api.js.langchain.com/classes/langchain.vectorstores_memory.MemoryVectorStore.html#constructor) * *
* Instantiate * * ```typescript * import { MemoryVectorStore } from 'langchain/vectorstores/memory'; * // Or other embeddings * import { OpenAIEmbeddings } from '@langchain/openai'; * * const embeddings = new OpenAIEmbeddings({ * model: "text-embedding-3-small", * }); * * const vectorStore = new MemoryVectorStore(embeddings); * ``` *
* *
* *
* Add documents * * ```typescript * import type { Document } from '@langchain/core/documents'; * * const document1 = { pageContent: "foo", metadata: { baz: "bar" } }; * const document2 = { pageContent: "thud", metadata: { bar: "baz" } }; * const document3 = { pageContent: "i will be deleted :(", metadata: {} }; * * const documents: Document[] = [document1, document2, document3]; * * await vectorStore.addDocuments(documents); * ``` *
* *
* *
* Similarity search * * ```typescript * const results = await vectorStore.similaritySearch("thud", 1); * for (const doc of results) { * console.log(`* ${doc.pageContent} [${JSON.stringify(doc.metadata, null)}]`); * } * // Output: * thud [{"baz":"bar"}] * ``` *
* *
* * *
* Similarity search with filter * * ```typescript * const resultsWithFilter = await vectorStore.similaritySearch("thud", 1, { baz: "bar" }); * * for (const doc of resultsWithFilter) { * console.log(`* ${doc.pageContent} [${JSON.stringify(doc.metadata, null)}]`); * } * // Output: * foo [{"baz":"bar"}] * ``` *
* *
* * *
* Similarity search with score * * ```typescript * const resultsWithScore = await vectorStore.similaritySearchWithScore("qux", 1); * for (const [doc, score] of resultsWithScore) { * console.log(`* [SIM=${score.toFixed(6)}] ${doc.pageContent} [${JSON.stringify(doc.metadata, null)}]`); * } * // Output: * [SIM=0.000000] qux [{"bar":"baz","baz":"bar"}] * ``` *
* *
* *
* As a retriever * * ```typescript * const retriever = vectorStore.asRetriever({ * searchType: "mmr", // Leave blank for standard similarity search * k: 1, * }); * const resultAsRetriever = await retriever.invoke("thud"); * console.log(resultAsRetriever); * * // Output: [Document({ metadata: { "baz":"bar" }, pageContent: "thud" })] * ``` *
* *
*/ class MemoryVectorStore extends vectorstores_1.VectorStore { _vectorstoreType() { return "memory"; } constructor(embeddings, { similarity, ...rest } = {}) { super(embeddings, rest); Object.defineProperty(this, "memoryVectors", { enumerable: true, configurable: true, writable: true, value: [] }); Object.defineProperty(this, "similarity", { enumerable: true, configurable: true, writable: true, value: void 0 }); this.similarity = similarity ?? similarities_js_1.cosine; } /** * Method to add documents to the memory vector store. It extracts the * text from each document, generates embeddings for them, and adds the * resulting vectors to the store. * @param documents Array of `Document` instances to be added to the store. * @returns Promise that resolves when all documents have been added. */ async addDocuments(documents) { const texts = documents.map(({ pageContent }) => pageContent); return this.addVectors(await this.embeddings.embedDocuments(texts), documents); } /** * Method to add vectors to the memory vector store. It creates * `MemoryVector` instances for each vector and document pair and adds * them to the store. * @param vectors Array of vectors to be added to the store. * @param documents Array of `Document` instances corresponding to the vectors. * @returns Promise that resolves when all vectors have been added. */ async addVectors(vectors, documents) { const memoryVectors = vectors.map((embedding, idx) => ({ content: documents[idx].pageContent, embedding, metadata: documents[idx].metadata, id: documents[idx].id, })); this.memoryVectors = this.memoryVectors.concat(memoryVectors); } async _queryVectors(query, k, filter) { const filterFunction = (memoryVector) => { if (!filter) { return true; } const doc = new documents_1.Document({ metadata: memoryVector.metadata, pageContent: memoryVector.content, id: memoryVector.id, }); return filter(doc); }; const filteredMemoryVectors = this.memoryVectors.filter(filterFunction); return filteredMemoryVectors .map((vector, index) => ({ similarity: this.similarity(query, vector.embedding), index, metadata: vector.metadata, content: vector.content, embedding: vector.embedding, id: vector.id, })) .sort((a, b) => (a.similarity > b.similarity ? -1 : 0)) .slice(0, k); } /** * Method to perform a similarity search in the memory vector store. It * calculates the similarity between the query vector and each vector in * the store, sorts the results by similarity, and returns the top `k` * results along with their scores. * @param query Query vector to compare against the vectors in the store. * @param k Number of top results to return. * @param filter Optional filter function to apply to the vectors before performing the search. * @returns Promise that resolves with an array of tuples, each containing a `Document` and its similarity score. */ async similaritySearchVectorWithScore(query, k, filter) { const searches = await this._queryVectors(query, k, filter); const result = searches.map((search) => [ new documents_1.Document({ metadata: search.metadata, pageContent: search.content, id: search.id, }), search.similarity, ]); return result; } async maxMarginalRelevanceSearch(query, options) { const queryEmbedding = await this.embeddings.embedQuery(query); const searches = await this._queryVectors(queryEmbedding, options.fetchK ?? 20, options.filter); const embeddingList = searches.map((searchResp) => searchResp.embedding); const mmrIndexes = (0, math_js_1.maximalMarginalRelevance)(queryEmbedding, embeddingList, options.lambda, options.k); return mmrIndexes.map((idx) => new documents_1.Document({ metadata: searches[idx].metadata, pageContent: searches[idx].content, id: searches[idx].id, })); } /** * Static method to create a `MemoryVectorStore` instance from an array of * texts. It creates a `Document` for each text and metadata pair, and * adds them to the store. * @param texts Array of texts to be added to the store. * @param metadatas Array or single object of metadata corresponding to the texts. * @param embeddings `Embeddings` instance used to generate embeddings for the texts. * @param dbConfig Optional `MemoryVectorStoreArgs` to configure the `MemoryVectorStore` instance. * @returns Promise that resolves with a new `MemoryVectorStore` instance. */ static async fromTexts(texts, metadatas, embeddings, dbConfig) { const docs = []; for (let i = 0; i < texts.length; i += 1) { const metadata = Array.isArray(metadatas) ? metadatas[i] : metadatas; const newDoc = new documents_1.Document({ pageContent: texts[i], metadata, }); docs.push(newDoc); } return MemoryVectorStore.fromDocuments(docs, embeddings, dbConfig); } /** * Static method to create a `MemoryVectorStore` instance from an array of * `Document` instances. It adds the documents to the store. * @param docs Array of `Document` instances to be added to the store. * @param embeddings `Embeddings` instance used to generate embeddings for the documents. * @param dbConfig Optional `MemoryVectorStoreArgs` to configure the `MemoryVectorStore` instance. * @returns Promise that resolves with a new `MemoryVectorStore` instance. */ static async fromDocuments(docs, embeddings, dbConfig) { const instance = new this(embeddings, dbConfig); await instance.addDocuments(docs); return instance; } /** * Static method to create a `MemoryVectorStore` instance from an existing * index. It creates a new `MemoryVectorStore` instance without adding any * documents or vectors. * @param embeddings `Embeddings` instance used to generate embeddings for the documents. * @param dbConfig Optional `MemoryVectorStoreArgs` to configure the `MemoryVectorStore` instance. * @returns Promise that resolves with a new `MemoryVectorStore` instance. */ static async fromExistingIndex(embeddings, dbConfig) { const instance = new this(embeddings, dbConfig); return instance; } } exports.MemoryVectorStore = MemoryVectorStore;