/* eslint-disable no-useless-escape */ const axios = require('axios'); const { Tool } = require('langchain/tools'); class WolframAlphaAPI extends Tool { constructor(fields) { super(); this.name = 'wolfram'; this.apiKey = fields.WOLFRAM_APP_ID || this.getAppId(); this.description = `Access computation, math, curated knowledge & real-time data through wolframAlpha. - Understands natural language queries about entities in chemistry, physics, geography, history, art, astronomy, and more. - Performs mathematical calculations, date and unit conversions, formula solving, etc. General guidelines: - Make natural-language queries in English; translate non-English queries before sending, then respond in the original language. - Inform users if information is not from wolfram. - ALWAYS use this exponent notation: "6*10^14", NEVER "6e14". - Your input must ONLY be a single-line string. - ALWAYS use proper Markdown formatting for all math, scientific, and chemical formulas, symbols, etc.: '$$\n[expression]\n$$' for standalone cases and '\( [expression] \)' when inline. - Format inline wolfram Language code with Markdown code formatting. - Convert inputs to simplified keyword queries whenever possible (e.g. convert "how many people live in France" to "France population"). - Use ONLY single-letter variable names, with or without integer subscript (e.g., n, n1, n_1). - Use named physical constants (e.g., 'speed of light') without numerical substitution. - Include a space between compound units (e.g., "Ω m" for "ohm*meter"). - To solve for a variable in an equation with units, consider solving a corresponding equation without units; exclude counting units (e.g., books), include genuine units (e.g., kg). - If data for multiple properties is needed, make separate calls for each property. - If a wolfram Alpha result is not relevant to the query: -- If wolfram provides multiple 'Assumptions' for a query, choose the more relevant one(s) without explaining the initial result. If you are unsure, ask the user to choose. - Performs complex calculations, data analysis, plotting, data import, and information retrieval.`; // - Please ensure your input is properly formatted for wolfram Alpha. // -- Re-send the exact same 'input' with NO modifications, and add the 'assumption' parameter, formatted as a list, with the relevant values. // -- ONLY simplify or rephrase the initial query if a more relevant 'Assumption' or other input suggestions are not provided. // -- Do not explain each step unless user input is needed. Proceed directly to making a better input based on the available assumptions. // - wolfram Language code is accepted, but accepts only syntactically correct wolfram Language code. } async fetchRawText(url) { try { const response = await axios.get(url, { responseType: 'text' }); return response.data; } catch (error) { console.error(`Error fetching raw text: ${error}`); throw error; } } getAppId() { const appId = process.env.WOLFRAM_APP_ID || ''; if (!appId) { throw new Error('Missing WOLFRAM_APP_ID environment variable.'); } return appId; } createWolframAlphaURL(query) { // Clean up query const formattedQuery = query.replaceAll(/`/g, '').replaceAll(/\n/g, ' '); const baseURL = 'https://www.wolframalpha.com/api/v1/llm-api'; const encodedQuery = encodeURIComponent(formattedQuery); const appId = this.apiKey || this.getAppId(); const url = `${baseURL}?input=${encodedQuery}&appid=${appId}`; return url; } async _call(input) { try { const url = this.createWolframAlphaURL(input); const response = await this.fetchRawText(url); return response; } catch (error) { if (error.response && error.response.data) { console.log('Error data:', error.response.data); return error.response.data; } else { console.log('Error querying Wolfram Alpha', error.message); // throw error; return 'There was an error querying Wolfram Alpha.'; } } } } module.exports = WolframAlphaAPI;