"use strict"; var __classPrivateFieldSet = (this && this.__classPrivateFieldSet) || function (receiver, state, value, kind, f) { if (kind === "m") throw new TypeError("Private method is not writable"); if (kind === "a" && !f) throw new TypeError("Private accessor was defined without a setter"); if (typeof state === "function" ? receiver !== state || !f : !state.has(receiver)) throw new TypeError("Cannot write private member to an object whose class did not declare it"); return (kind === "a" ? f.call(receiver, value) : f ? f.value = value : state.set(receiver, value)), value; }; var __classPrivateFieldGet = (this && this.__classPrivateFieldGet) || function (receiver, state, kind, f) { if (kind === "a" && !f) throw new TypeError("Private accessor was defined without a getter"); if (typeof state === "function" ? receiver !== state || !f : !state.has(receiver)) throw new TypeError("Cannot read private member from an object whose class did not declare it"); return kind === "m" ? f : kind === "a" ? f.call(receiver) : f ? f.value : state.get(receiver); }; var _AbstractPage_client; Object.defineProperty(exports, "__esModule", { value: true }); exports.isObj = exports.toBase64 = exports.getRequiredHeader = exports.isHeadersProtocol = exports.isRunningInBrowser = exports.debug = exports.hasOwn = exports.isEmptyObj = exports.maybeCoerceBoolean = exports.maybeCoerceFloat = exports.maybeCoerceInteger = exports.coerceBoolean = exports.coerceFloat = exports.coerceInteger = exports.readEnv = exports.ensurePresent = exports.castToError = exports.sleep = exports.safeJSON = exports.isRequestOptions = exports.createResponseHeaders = exports.PagePromise = exports.AbstractPage = exports.APIClient = exports.APIPromise = exports.createForm = exports.multipartFormRequestOptions = exports.maybeMultipartFormRequestOptions = void 0; const version_1 = require("./version.js"); const streaming_1 = require("./streaming.js"); const error_1 = require("./error.js"); const index_1 = require("./_shims/index.js"); const uploads_1 = require("./uploads.js"); var uploads_2 = require("./uploads.js"); Object.defineProperty(exports, "maybeMultipartFormRequestOptions", { enumerable: true, get: function () { return uploads_2.maybeMultipartFormRequestOptions; } }); Object.defineProperty(exports, "multipartFormRequestOptions", { enumerable: true, get: function () { return uploads_2.multipartFormRequestOptions; } }); Object.defineProperty(exports, "createForm", { enumerable: true, get: function () { return uploads_2.createForm; } }); async function defaultParseResponse(props) { const { response } = props; if (props.options.stream) { debug('response', response.status, response.url, response.headers, response.body); // Note: there is an invariant here that isn't represented in the type system // that if you set `stream: true` the response type must also be `Stream` if (props.options.__streamClass) { return props.options.__streamClass.fromSSEResponse(response, props.controller); } return streaming_1.Stream.fromSSEResponse(response, props.controller); } // fetch refuses to read the body when the status code is 204. if (response.status === 204) { return null; } if (props.options.__binaryResponse) { return response; } const contentType = response.headers.get('content-type'); if (contentType?.includes('application/json')) { const json = await response.json(); debug('response', response.status, response.url, response.headers, json); return json; } const text = await response.text(); debug('response', response.status, response.url, response.headers, text); // TODO handle blob, arraybuffer, other content types, etc. return text; } /** * A subclass of `Promise` providing additional helper methods * for interacting with the SDK. */ class APIPromise extends Promise { constructor(responsePromise, parseResponse = defaultParseResponse) { super((resolve) => { // this is maybe a bit weird but this has to be a no-op to not implicitly // parse the response body; instead .then, .catch, .finally are overridden // to parse the response resolve(null); }); this.responsePromise = responsePromise; this.parseResponse = parseResponse; } _thenUnwrap(transform) { return new APIPromise(this.responsePromise, async (props) => transform(await this.parseResponse(props))); } /** * Gets the raw `Response` instance instead of parsing the response * data. * * If you want to parse the response body but still get the `Response` * instance, you can use {@link withResponse()}. * * 👋 Getting the wrong TypeScript type for `Response`? * Try setting `"moduleResolution": "NodeNext"` if you can, * or add one of these imports before your first `import … from 'openai'`: * - `import 'openai/shims/node'` (if you're running on Node) * - `import 'openai/shims/web'` (otherwise) */ asResponse() { return this.responsePromise.then((p) => p.response); } /** * Gets the parsed response data and the raw `Response` instance. * * If you just want to get the raw `Response` instance without parsing it, * you can use {@link asResponse()}. * * * 👋 Getting the wrong TypeScript type for `Response`? * Try setting `"moduleResolution": "NodeNext"` if you can, * or add one of these imports before your first `import … from 'openai'`: * - `import 'openai/shims/node'` (if you're running on Node) * - `import 'openai/shims/web'` (otherwise) */ async withResponse() { const [data, response] = await Promise.all([this.parse(), this.asResponse()]); return { data, response }; } parse() { if (!this.parsedPromise) { this.parsedPromise = this.responsePromise.then(this.parseResponse); } return this.parsedPromise; } then(onfulfilled, onrejected) { return this.parse().then(onfulfilled, onrejected); } catch(onrejected) { return this.parse().catch(onrejected); } finally(onfinally) { return this.parse().finally(onfinally); } } exports.APIPromise = APIPromise; class APIClient { constructor({ baseURL, maxRetries = 2, timeout = 600000, // 10 minutes httpAgent, fetch: overridenFetch, }) { this.baseURL = baseURL; this.maxRetries = validatePositiveInteger('maxRetries', maxRetries); this.timeout = validatePositiveInteger('timeout', timeout); this.httpAgent = httpAgent; this.fetch = overridenFetch ?? index_1.fetch; } authHeaders(opts) { return {}; } /** * Override this to add your own default headers, for example: * * { * ...super.defaultHeaders(), * Authorization: 'Bearer 123', * } */ defaultHeaders(opts) { return { Accept: 'application/json', 'Content-Type': 'application/json', 'User-Agent': this.getUserAgent(), ...getPlatformHeaders(), ...this.authHeaders(opts), }; } /** * Override this to add your own headers validation: */ validateHeaders(headers, customHeaders) { } defaultIdempotencyKey() { return `stainless-node-retry-${uuid4()}`; } get(path, opts) { return this.methodRequest('get', path, opts); } post(path, opts) { return this.methodRequest('post', path, opts); } patch(path, opts) { return this.methodRequest('patch', path, opts); } put(path, opts) { return this.methodRequest('put', path, opts); } delete(path, opts) { return this.methodRequest('delete', path, opts); } methodRequest(method, path, opts) { return this.request(Promise.resolve(opts).then((opts) => ({ method, path, ...opts }))); } getAPIList(path, Page, opts) { return this.requestAPIList(Page, { method: 'get', path, ...opts }); } calculateContentLength(body) { if (typeof body === 'string') { if (typeof Buffer !== 'undefined') { return Buffer.byteLength(body, 'utf8').toString(); } if (typeof TextEncoder !== 'undefined') { const encoder = new TextEncoder(); const encoded = encoder.encode(body); return encoded.length.toString(); } } return null; } buildRequest(options) { const { method, path, query, headers: headers = {} } = options; const body = (0, uploads_1.isMultipartBody)(options.body) ? options.body.body : options.body ? JSON.stringify(options.body, null, 2) : null; const contentLength = this.calculateContentLength(body); const url = this.buildURL(path, query); if ('timeout' in options) validatePositiveInteger('timeout', options.timeout); const timeout = options.timeout ?? this.timeout; const httpAgent = options.httpAgent ?? this.httpAgent ?? (0, index_1.getDefaultAgent)(url); const minAgentTimeout = timeout + 1000; if (typeof httpAgent?.options?.timeout === 'number' && minAgentTimeout > (httpAgent.options.timeout ?? 0)) { // Allow any given request to bump our agent active socket timeout. // This may seem strange, but leaking active sockets should be rare and not particularly problematic, // and without mutating agent we would need to create more of them. // This tradeoff optimizes for performance. httpAgent.options.timeout = minAgentTimeout; } if (this.idempotencyHeader && method !== 'get') { if (!options.idempotencyKey) options.idempotencyKey = this.defaultIdempotencyKey(); headers[this.idempotencyHeader] = options.idempotencyKey; } const reqHeaders = this.buildHeaders({ options, headers, contentLength }); const req = { method, ...(body && { body: body }), headers: reqHeaders, ...(httpAgent && { agent: httpAgent }), // @ts-ignore node-fetch uses a custom AbortSignal type that is // not compatible with standard web types signal: options.signal ?? null, }; return { req, url, timeout }; } buildHeaders({ options, headers, contentLength, }) { const reqHeaders = {}; if (contentLength) { reqHeaders['content-length'] = contentLength; } const defaultHeaders = this.defaultHeaders(options); applyHeadersMut(reqHeaders, defaultHeaders); applyHeadersMut(reqHeaders, headers); // let builtin fetch set the Content-Type for multipart bodies if ((0, uploads_1.isMultipartBody)(options.body) && index_1.kind !== 'node') { delete reqHeaders['content-type']; } this.validateHeaders(reqHeaders, headers); return reqHeaders; } /** * Used as a callback for mutating the given `FinalRequestOptions` object. */ async prepareOptions(options) { } /** * Used as a callback for mutating the given `RequestInit` object. * * This is useful for cases where you want to add certain headers based off of * the request properties, e.g. `method` or `url`. */ async prepareRequest(request, { url, options }) { } parseHeaders(headers) { return (!headers ? {} : Symbol.iterator in headers ? Object.fromEntries(Array.from(headers).map((header) => [...header])) : { ...headers }); } makeStatusError(status, error, message, headers) { return error_1.APIError.generate(status, error, message, headers); } request(options, remainingRetries = null) { return new APIPromise(this.makeRequest(options, remainingRetries)); } async makeRequest(optionsInput, retriesRemaining) { const options = await optionsInput; if (retriesRemaining == null) { retriesRemaining = options.maxRetries ?? this.maxRetries; } await this.prepareOptions(options); const { req, url, timeout } = this.buildRequest(options); await this.prepareRequest(req, { url, options }); debug('request', url, options, req.headers); if (options.signal?.aborted) { throw new error_1.APIUserAbortError(); } const controller = new AbortController(); const response = await this.fetchWithTimeout(url, req, timeout, controller).catch(exports.castToError); if (response instanceof Error) { if (options.signal?.aborted) { throw new error_1.APIUserAbortError(); } if (retriesRemaining) { return this.retryRequest(options, retriesRemaining); } if (response.name === 'AbortError') { throw new error_1.APIConnectionTimeoutError(); } throw new error_1.APIConnectionError({ cause: response }); } const responseHeaders = (0, exports.createResponseHeaders)(response.headers); if (!response.ok) { if (retriesRemaining && this.shouldRetry(response)) { const retryMessage = `retrying, ${retriesRemaining} attempts remaining`; debug(`response (error; ${retryMessage})`, response.status, url, responseHeaders); return this.retryRequest(options, retriesRemaining, responseHeaders); } const errText = await response.text().catch((e) => (0, exports.castToError)(e).message); const errJSON = (0, exports.safeJSON)(errText); const errMessage = errJSON ? undefined : errText; const retryMessage = retriesRemaining ? `(error; no more retries left)` : `(error; not retryable)`; debug(`response (error; ${retryMessage})`, response.status, url, responseHeaders, errMessage); const err = this.makeStatusError(response.status, errJSON, errMessage, responseHeaders); throw err; } return { response, options, controller }; } requestAPIList(Page, options) { const request = this.makeRequest(options, null); return new PagePromise(this, request, Page); } buildURL(path, query) { const url = isAbsoluteURL(path) ? new URL(path) : new URL(this.baseURL + (this.baseURL.endsWith('/') && path.startsWith('/') ? path.slice(1) : path)); const defaultQuery = this.defaultQuery(); if (!isEmptyObj(defaultQuery)) { query = { ...defaultQuery, ...query }; } if (typeof query === 'object' && query && !Array.isArray(query)) { url.search = this.stringifyQuery(query); } return url.toString(); } stringifyQuery(query) { return Object.entries(query) .filter(([_, value]) => typeof value !== 'undefined') .map(([key, value]) => { if (typeof value === 'string' || typeof value === 'number' || typeof value === 'boolean') { return `${encodeURIComponent(key)}=${encodeURIComponent(value)}`; } if (value === null) { return `${encodeURIComponent(key)}=`; } throw new error_1.OpenAIError(`Cannot stringify type ${typeof value}; Expected string, number, boolean, or null. If you need to pass nested query parameters, you can manually encode them, e.g. { query: { 'foo[key1]': value1, 'foo[key2]': value2 } }, and please open a GitHub issue requesting better support for your use case.`); }) .join('&'); } async fetchWithTimeout(url, init, ms, controller) { const { signal, ...options } = init || {}; if (signal) signal.addEventListener('abort', () => controller.abort()); const timeout = setTimeout(() => controller.abort(), ms); return (this.getRequestClient() // use undefined this binding; fetch errors if bound to something else in browser/cloudflare .fetch.call(undefined, url, { signal: controller.signal, ...options }) .finally(() => { clearTimeout(timeout); })); } getRequestClient() { return { fetch: this.fetch }; } shouldRetry(response) { // Note this is not a standard header. const shouldRetryHeader = response.headers.get('x-should-retry'); // If the server explicitly says whether or not to retry, obey. if (shouldRetryHeader === 'true') return true; if (shouldRetryHeader === 'false') return false; // Retry on request timeouts. if (response.status === 408) return true; // Retry on lock timeouts. if (response.status === 409) return true; // Retry on rate limits. if (response.status === 429) return true; // Retry internal errors. if (response.status >= 500) return true; return false; } async retryRequest(options, retriesRemaining, responseHeaders) { let timeoutMillis; // Note the `retry-after-ms` header may not be standard, but is a good idea and we'd like proactive support for it. const retryAfterMillisHeader = responseHeaders?.['retry-after-ms']; if (retryAfterMillisHeader) { const timeoutMs = parseFloat(retryAfterMillisHeader); if (!Number.isNaN(timeoutMs)) { timeoutMillis = timeoutMs; } } // About the Retry-After header: https://developer.mozilla.org/en-US/docs/Web/HTTP/Headers/Retry-After const retryAfterHeader = responseHeaders?.['retry-after']; if (retryAfterHeader && !timeoutMillis) { const timeoutSeconds = parseFloat(retryAfterHeader); if (!Number.isNaN(timeoutSeconds)) { timeoutMillis = timeoutSeconds * 1000; } else { timeoutMillis = Date.parse(retryAfterHeader) - Date.now(); } } // If the API asks us to wait a certain amount of time (and it's a reasonable amount), // just do what it says, but otherwise calculate a default if (!(timeoutMillis && 0 <= timeoutMillis && timeoutMillis < 60 * 1000)) { const maxRetries = options.maxRetries ?? this.maxRetries; timeoutMillis = this.calculateDefaultRetryTimeoutMillis(retriesRemaining, maxRetries); } await (0, exports.sleep)(timeoutMillis); return this.makeRequest(options, retriesRemaining - 1); } calculateDefaultRetryTimeoutMillis(retriesRemaining, maxRetries) { const initialRetryDelay = 0.5; const maxRetryDelay = 8.0; const numRetries = maxRetries - retriesRemaining; // Apply exponential backoff, but not more than the max. const sleepSeconds = Math.min(initialRetryDelay * Math.pow(2, numRetries), maxRetryDelay); // Apply some jitter, take up to at most 25 percent of the retry time. const jitter = 1 - Math.random() * 0.25; return sleepSeconds * jitter * 1000; } getUserAgent() { return `${this.constructor.name}/JS ${version_1.VERSION}`; } } exports.APIClient = APIClient; class AbstractPage { constructor(client, response, body, options) { _AbstractPage_client.set(this, void 0); __classPrivateFieldSet(this, _AbstractPage_client, client, "f"); this.options = options; this.response = response; this.body = body; } hasNextPage() { const items = this.getPaginatedItems(); if (!items.length) return false; return this.nextPageInfo() != null; } async getNextPage() { const nextInfo = this.nextPageInfo(); if (!nextInfo) { throw new error_1.OpenAIError('No next page expected; please check `.hasNextPage()` before calling `.getNextPage()`.'); } const nextOptions = { ...this.options }; if ('params' in nextInfo && typeof nextOptions.query === 'object') { nextOptions.query = { ...nextOptions.query, ...nextInfo.params }; } else if ('url' in nextInfo) { const params = [...Object.entries(nextOptions.query || {}), ...nextInfo.url.searchParams.entries()]; for (const [key, value] of params) { nextInfo.url.searchParams.set(key, value); } nextOptions.query = undefined; nextOptions.path = nextInfo.url.toString(); } return await __classPrivateFieldGet(this, _AbstractPage_client, "f").requestAPIList(this.constructor, nextOptions); } async *iterPages() { // eslint-disable-next-line @typescript-eslint/no-this-alias let page = this; yield page; while (page.hasNextPage()) { page = await page.getNextPage(); yield page; } } async *[(_AbstractPage_client = new WeakMap(), Symbol.asyncIterator)]() { for await (const page of this.iterPages()) { for (const item of page.getPaginatedItems()) { yield item; } } } } exports.AbstractPage = AbstractPage; /** * This subclass of Promise will resolve to an instantiated Page once the request completes. * * It also implements AsyncIterable to allow auto-paginating iteration on an unawaited list call, eg: * * for await (const item of client.items.list()) { * console.log(item) * } */ class PagePromise extends APIPromise { constructor(client, request, Page) { super(request, async (props) => new Page(client, props.response, await defaultParseResponse(props), props.options)); } /** * Allow auto-paginating iteration on an unawaited list call, eg: * * for await (const item of client.items.list()) { * console.log(item) * } */ async *[Symbol.asyncIterator]() { const page = await this; for await (const item of page) { yield item; } } } exports.PagePromise = PagePromise; const createResponseHeaders = (headers) => { return new Proxy(Object.fromEntries( // @ts-ignore headers.entries()), { get(target, name) { const key = name.toString(); return target[key.toLowerCase()] || target[key]; }, }); }; exports.createResponseHeaders = createResponseHeaders; // This is required so that we can determine if a given object matches the RequestOptions // type at runtime. While this requires duplication, it is enforced by the TypeScript // compiler such that any missing / extraneous keys will cause an error. const requestOptionsKeys = { method: true, path: true, query: true, body: true, headers: true, maxRetries: true, stream: true, timeout: true, httpAgent: true, signal: true, idempotencyKey: true, __binaryResponse: true, __streamClass: true, }; const isRequestOptions = (obj) => { return (typeof obj === 'object' && obj !== null && !isEmptyObj(obj) && Object.keys(obj).every((k) => hasOwn(requestOptionsKeys, k))); }; exports.isRequestOptions = isRequestOptions; const getPlatformProperties = () => { if (typeof Deno !== 'undefined' && Deno.build != null) { return { 'X-Stainless-Lang': 'js', 'X-Stainless-Package-Version': version_1.VERSION, 'X-Stainless-OS': normalizePlatform(Deno.build.os), 'X-Stainless-Arch': normalizeArch(Deno.build.arch), 'X-Stainless-Runtime': 'deno', 'X-Stainless-Runtime-Version': Deno.version, }; } if (typeof EdgeRuntime !== 'undefined') { return { 'X-Stainless-Lang': 'js', 'X-Stainless-Package-Version': version_1.VERSION, 'X-Stainless-OS': 'Unknown', 'X-Stainless-Arch': `other:${EdgeRuntime}`, 'X-Stainless-Runtime': 'edge', 'X-Stainless-Runtime-Version': process.version, }; } // Check if Node.js if (Object.prototype.toString.call(typeof process !== 'undefined' ? process : 0) === '[object process]') { return { 'X-Stainless-Lang': 'js', 'X-Stainless-Package-Version': version_1.VERSION, 'X-Stainless-OS': normalizePlatform(process.platform), 'X-Stainless-Arch': normalizeArch(process.arch), 'X-Stainless-Runtime': 'node', 'X-Stainless-Runtime-Version': process.version, }; } const browserInfo = getBrowserInfo(); if (browserInfo) { return { 'X-Stainless-Lang': 'js', 'X-Stainless-Package-Version': version_1.VERSION, 'X-Stainless-OS': 'Unknown', 'X-Stainless-Arch': 'unknown', 'X-Stainless-Runtime': `browser:${browserInfo.browser}`, 'X-Stainless-Runtime-Version': browserInfo.version, }; } // TODO add support for Cloudflare workers, etc. return { 'X-Stainless-Lang': 'js', 'X-Stainless-Package-Version': version_1.VERSION, 'X-Stainless-OS': 'Unknown', 'X-Stainless-Arch': 'unknown', 'X-Stainless-Runtime': 'unknown', 'X-Stainless-Runtime-Version': 'unknown', }; }; // Note: modified from https://github.com/JS-DevTools/host-environment/blob/b1ab79ecde37db5d6e163c050e54fe7d287d7c92/src/isomorphic.browser.ts function getBrowserInfo() { if (typeof navigator === 'undefined' || !navigator) { return null; } // NOTE: The order matters here! const browserPatterns = [ { key: 'edge', pattern: /Edge(?:\W+(\d+)\.(\d+)(?:\.(\d+))?)?/ }, { key: 'ie', pattern: /MSIE(?:\W+(\d+)\.(\d+)(?:\.(\d+))?)?/ }, { key: 'ie', pattern: /Trident(?:.*rv\:(\d+)\.(\d+)(?:\.(\d+))?)?/ }, { key: 'chrome', pattern: /Chrome(?:\W+(\d+)\.(\d+)(?:\.(\d+))?)?/ }, { key: 'firefox', pattern: /Firefox(?:\W+(\d+)\.(\d+)(?:\.(\d+))?)?/ }, { key: 'safari', pattern: /(?:Version\W+(\d+)\.(\d+)(?:\.(\d+))?)?(?:\W+Mobile\S*)?\W+Safari/ }, ]; // Find the FIRST matching browser for (const { key, pattern } of browserPatterns) { const match = pattern.exec(navigator.userAgent); if (match) { const major = match[1] || 0; const minor = match[2] || 0; const patch = match[3] || 0; return { browser: key, version: `${major}.${minor}.${patch}` }; } } return null; } const normalizeArch = (arch) => { // Node docs: // - https://nodejs.org/api/process.html#processarch // Deno docs: // - https://doc.deno.land/deno/stable/~/Deno.build if (arch === 'x32') return 'x32'; if (arch === 'x86_64' || arch === 'x64') return 'x64'; if (arch === 'arm') return 'arm'; if (arch === 'aarch64' || arch === 'arm64') return 'arm64'; if (arch) return `other:${arch}`; return 'unknown'; }; const normalizePlatform = (platform) => { // Node platforms: // - https://nodejs.org/api/process.html#processplatform // Deno platforms: // - https://doc.deno.land/deno/stable/~/Deno.build // - https://github.com/denoland/deno/issues/14799 platform = platform.toLowerCase(); // NOTE: this iOS check is untested and may not work // Node does not work natively on IOS, there is a fork at // https://github.com/nodejs-mobile/nodejs-mobile // however it is unknown at the time of writing how to detect if it is running if (platform.includes('ios')) return 'iOS'; if (platform === 'android') return 'Android'; if (platform === 'darwin') return 'MacOS'; if (platform === 'win32') return 'Windows'; if (platform === 'freebsd') return 'FreeBSD'; if (platform === 'openbsd') return 'OpenBSD'; if (platform === 'linux') return 'Linux'; if (platform) return `Other:${platform}`; return 'Unknown'; }; let _platformHeaders; const getPlatformHeaders = () => { return (_platformHeaders ?? (_platformHeaders = getPlatformProperties())); }; const safeJSON = (text) => { try { return JSON.parse(text); } catch (err) { return undefined; } }; exports.safeJSON = safeJSON; // https://stackoverflow.com/a/19709846 const startsWithSchemeRegexp = new RegExp('^(?:[a-z]+:)?//', 'i'); const isAbsoluteURL = (url) => { return startsWithSchemeRegexp.test(url); }; const sleep = (ms) => new Promise((resolve) => setTimeout(resolve, ms)); exports.sleep = sleep; const validatePositiveInteger = (name, n) => { if (typeof n !== 'number' || !Number.isInteger(n)) { throw new error_1.OpenAIError(`${name} must be an integer`); } if (n < 0) { throw new error_1.OpenAIError(`${name} must be a positive integer`); } return n; }; const castToError = (err) => { if (err instanceof Error) return err; return new Error(err); }; exports.castToError = castToError; const ensurePresent = (value) => { if (value == null) throw new error_1.OpenAIError(`Expected a value to be given but received ${value} instead.`); return value; }; exports.ensurePresent = ensurePresent; /** * Read an environment variable. * * Trims beginning and trailing whitespace. * * Will return undefined if the environment variable doesn't exist or cannot be accessed. */ const readEnv = (env) => { if (typeof process !== 'undefined') { return process.env?.[env]?.trim() ?? undefined; } if (typeof Deno !== 'undefined') { return Deno.env?.get?.(env)?.trim(); } return undefined; }; exports.readEnv = readEnv; const coerceInteger = (value) => { if (typeof value === 'number') return Math.round(value); if (typeof value === 'string') return parseInt(value, 10); throw new error_1.OpenAIError(`Could not coerce ${value} (type: ${typeof value}) into a number`); }; exports.coerceInteger = coerceInteger; const coerceFloat = (value) => { if (typeof value === 'number') return value; if (typeof value === 'string') return parseFloat(value); throw new error_1.OpenAIError(`Could not coerce ${value} (type: ${typeof value}) into a number`); }; exports.coerceFloat = coerceFloat; const coerceBoolean = (value) => { if (typeof value === 'boolean') return value; if (typeof value === 'string') return value === 'true'; return Boolean(value); }; exports.coerceBoolean = coerceBoolean; const maybeCoerceInteger = (value) => { if (value === undefined) { return undefined; } return (0, exports.coerceInteger)(value); }; exports.maybeCoerceInteger = maybeCoerceInteger; const maybeCoerceFloat = (value) => { if (value === undefined) { return undefined; } return (0, exports.coerceFloat)(value); }; exports.maybeCoerceFloat = maybeCoerceFloat; const maybeCoerceBoolean = (value) => { if (value === undefined) { return undefined; } return (0, exports.coerceBoolean)(value); }; exports.maybeCoerceBoolean = maybeCoerceBoolean; // https://stackoverflow.com/a/34491287 function isEmptyObj(obj) { if (!obj) return true; for (const _k in obj) return false; return true; } exports.isEmptyObj = isEmptyObj; // https://eslint.org/docs/latest/rules/no-prototype-builtins function hasOwn(obj, key) { return Object.prototype.hasOwnProperty.call(obj, key); } exports.hasOwn = hasOwn; /** * Copies headers from "newHeaders" onto "targetHeaders", * using lower-case for all properties, * ignoring any keys with undefined values, * and deleting any keys with null values. */ function applyHeadersMut(targetHeaders, newHeaders) { for (const k in newHeaders) { if (!hasOwn(newHeaders, k)) continue; const lowerKey = k.toLowerCase(); if (!lowerKey) continue; const val = newHeaders[k]; if (val === null) { delete targetHeaders[lowerKey]; } else if (val !== undefined) { targetHeaders[lowerKey] = val; } } } function debug(action, ...args) { if (typeof process !== 'undefined' && process.env['DEBUG'] === 'true') { console.log(`OpenAI:DEBUG:${action}`, ...args); } } exports.debug = debug; /** * https://stackoverflow.com/a/2117523 */ const uuid4 = () => { return 'xxxxxxxx-xxxx-4xxx-yxxx-xxxxxxxxxxxx'.replace(/[xy]/g, (c) => { const r = (Math.random() * 16) | 0; const v = c === 'x' ? r : (r & 0x3) | 0x8; return v.toString(16); }); }; const isRunningInBrowser = () => { return ( // @ts-ignore typeof window !== 'undefined' && // @ts-ignore typeof window.document !== 'undefined' && // @ts-ignore typeof navigator !== 'undefined'); }; exports.isRunningInBrowser = isRunningInBrowser; const isHeadersProtocol = (headers) => { return typeof headers?.get === 'function'; }; exports.isHeadersProtocol = isHeadersProtocol; const getRequiredHeader = (headers, header) => { const lowerCasedHeader = header.toLowerCase(); if ((0, exports.isHeadersProtocol)(headers)) { // to deal with the case where the header looks like Stainless-Event-Id const intercapsHeader = header[0]?.toUpperCase() + header.substring(1).replace(/([^\w])(\w)/g, (_m, g1, g2) => g1 + g2.toUpperCase()); for (const key of [header, lowerCasedHeader, header.toUpperCase(), intercapsHeader]) { const value = headers.get(key); if (value) { return value; } } } for (const [key, value] of Object.entries(headers)) { if (key.toLowerCase() === lowerCasedHeader) { if (Array.isArray(value)) { if (value.length <= 1) return value[0]; console.warn(`Received ${value.length} entries for the ${header} header, using the first entry.`); return value[0]; } return value; } } throw new Error(`Could not find ${header} header`); }; exports.getRequiredHeader = getRequiredHeader; /** * Encodes a string to Base64 format. */ const toBase64 = (str) => { if (!str) return ''; if (typeof Buffer !== 'undefined') { return Buffer.from(str).toString('base64'); } if (typeof btoa !== 'undefined') { return btoa(str); } throw new error_1.OpenAIError('Cannot generate b64 string; Expected `Buffer` or `btoa` to be defined'); }; exports.toBase64 = toBase64; function isObj(obj) { return obj != null && typeof obj === 'object' && !Array.isArray(obj); } exports.isObj = isObj; //# sourceMappingURL=core.js.map