Module
x/eszip/eszip_wasm.generated.js
A compact file format to losslessly serialize an ECMAScript module graph into a single file
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const heap = new Array(128).fill(undefined);
heap.push(undefined, null, true, false);
function getObject(idx) { return heap[idx];}
function isLikeNone(x) { return x === undefined || x === null;}
let cachedFloat64Memory0 = null;
function getFloat64Memory0() { if (cachedFloat64Memory0 === null || cachedFloat64Memory0.byteLength === 0) { cachedFloat64Memory0 = new Float64Array(wasm.memory.buffer); } return cachedFloat64Memory0;}
let cachedInt32Memory0 = null;
function getInt32Memory0() { if (cachedInt32Memory0 === null || cachedInt32Memory0.byteLength === 0) { cachedInt32Memory0 = new Int32Array(wasm.memory.buffer); } return cachedInt32Memory0;}
let WASM_VECTOR_LEN = 0;
let cachedUint8Memory0 = null;
function getUint8Memory0() { if (cachedUint8Memory0 === null || cachedUint8Memory0.byteLength === 0) { cachedUint8Memory0 = new Uint8Array(wasm.memory.buffer); } return cachedUint8Memory0;}
const cachedTextEncoder = new TextEncoder("utf-8");
const encodeString = function (arg, view) { return cachedTextEncoder.encodeInto(arg, view);};
function passStringToWasm0(arg, malloc, realloc) { if (realloc === undefined) { const buf = cachedTextEncoder.encode(arg); const ptr = malloc(buf.length); getUint8Memory0().subarray(ptr, ptr + buf.length).set(buf); WASM_VECTOR_LEN = buf.length; return ptr; }
let len = arg.length; let ptr = malloc(len);
const mem = getUint8Memory0();
let offset = 0;
for (; offset < len; offset++) { const code = arg.charCodeAt(offset); if (code > 0x7F) break; mem[ptr + offset] = code; }
if (offset !== len) { if (offset !== 0) { arg = arg.slice(offset); } ptr = realloc(ptr, len, len = offset + arg.length * 3); const view = getUint8Memory0().subarray(ptr + offset, ptr + len); const ret = encodeString(arg, view);
offset += ret.written; }
WASM_VECTOR_LEN = offset; return ptr;}
let heap_next = heap.length;
function addHeapObject(obj) { if (heap_next === heap.length) heap.push(heap.length + 1); const idx = heap_next; heap_next = heap[idx];
heap[idx] = obj; return idx;}
const cachedTextDecoder = new TextDecoder("utf-8", { ignoreBOM: true, fatal: true,});
cachedTextDecoder.decode();
function getStringFromWasm0(ptr, len) { return cachedTextDecoder.decode(getUint8Memory0().subarray(ptr, ptr + len));}
function dropObject(idx) { if (idx < 132) return; heap[idx] = heap_next; heap_next = idx;}
function takeObject(idx) { const ret = getObject(idx); dropObject(idx); return ret;}
let cachedBigInt64Memory0 = null;
function getBigInt64Memory0() { if ( cachedBigInt64Memory0 === null || cachedBigInt64Memory0.byteLength === 0 ) { cachedBigInt64Memory0 = new BigInt64Array(wasm.memory.buffer); } return cachedBigInt64Memory0;}
function debugString(val) { // primitive types const type = typeof val; if (type == "number" || type == "boolean" || val == null) { return `${val}`; } if (type == "string") { return `"${val}"`; } if (type == "symbol") { const description = val.description; if (description == null) { return "Symbol"; } else { return `Symbol(${description})`; } } if (type == "function") { const name = val.name; if (typeof name == "string" && name.length > 0) { return `Function(${name})`; } else { return "Function"; } } // objects if (Array.isArray(val)) { const length = val.length; let debug = "["; if (length > 0) { debug += debugString(val[0]); } for (let i = 1; i < length; i++) { debug += ", " + debugString(val[i]); } debug += "]"; return debug; } // Test for built-in const builtInMatches = /\[object ([^\]]+)\]/.exec(toString.call(val)); let className; if (builtInMatches.length > 1) { className = builtInMatches[1]; } else { // Failed to match the standard '[object ClassName]' return toString.call(val); } if (className == "Object") { // we're a user defined class or Object // JSON.stringify avoids problems with cycles, and is generally much // easier than looping through ownProperties of `val`. try { return "Object(" + JSON.stringify(val) + ")"; } catch (_) { return "Object"; } } // errors if (val instanceof Error) { return `${val.name}: ${val.message}\n${val.stack}`; } // TODO we could test for more things here, like `Set`s and `Map`s. return className;}
const CLOSURE_DTORS = new FinalizationRegistry((state) => { wasm.__wbindgen_export_2.get(state.dtor)(state.a, state.b);});
function makeMutClosure(arg0, arg1, dtor, f) { const state = { a: arg0, b: arg1, cnt: 1, dtor }; const real = (...args) => { // First up with a closure we increment the internal reference // count. This ensures that the Rust closure environment won't // be deallocated while we're invoking it. state.cnt++; const a = state.a; state.a = 0; try { return f(a, state.b, ...args); } finally { if (--state.cnt === 0) { wasm.__wbindgen_export_2.get(state.dtor)(a, state.b); CLOSURE_DTORS.unregister(state); } else { state.a = a; } } }; real.original = state; CLOSURE_DTORS.register(real, state, state); return real;}function __wbg_adapter_40(arg0, arg1, arg2) { wasm ._dyn_core__ops__function__FnMut__A____Output___R_as_wasm_bindgen__closure__WasmClosure___describe__invoke__ha80461c568cc59b5( arg0, arg1, addHeapObject(arg2), );}
function passArray8ToWasm0(arg, malloc) { const ptr = malloc(arg.length * 1); getUint8Memory0().set(arg, ptr / 1); WASM_VECTOR_LEN = arg.length; return ptr;}/** * Serialize a module graph into eszip. * @param {any} roots * @param {Function} loader * @param {any} import_map_url * @returns {Promise<Uint8Array>} */export function build(roots, loader, import_map_url) { const ret = wasm.build( addHeapObject(roots), addHeapObject(loader), addHeapObject(import_map_url), ); return takeObject(ret);}
function handleError(f, args) { try { return f.apply(this, args); } catch (e) { wasm.__wbindgen_exn_store(addHeapObject(e)); }}function __wbg_adapter_98(arg0, arg1, arg2, arg3) { wasm.wasm_bindgen__convert__closures__invoke2_mut__h2d00ceff945b0091( arg0, arg1, addHeapObject(arg2), addHeapObject(arg3), );}
const ParserFinalization = new FinalizationRegistry((ptr) => wasm.__wbg_parser_free(ptr));/** */export class Parser { static __wrap(ptr) { const obj = Object.create(Parser.prototype); obj.ptr = ptr; ParserFinalization.register(obj, obj.ptr, obj); return obj; }
__destroy_into_raw() { const ptr = this.ptr; this.ptr = 0; ParserFinalization.unregister(this); return ptr; }
free() { const ptr = this.__destroy_into_raw(); wasm.__wbg_parser_free(ptr); } /** */ constructor() { const ret = wasm.parser_new(); return Parser.__wrap(ret); } /** * Parse from a BYOB readable stream. * @param {ReadableStreamBYOBReader} stream * @returns {Promise<any>} */ parse(stream) { const ret = wasm.parser_parse(this.ptr, addHeapObject(stream)); return takeObject(ret); } /** * Parse from an in-memory buffer. * @param {Uint8Array} buffer * @returns {Promise<any>} */ parseBytes(buffer) { const ptr0 = passArray8ToWasm0(buffer, wasm.__wbindgen_malloc); const len0 = WASM_VECTOR_LEN; const ret = wasm.parser_parseBytes(this.ptr, ptr0, len0); return takeObject(ret); } /** * Load module sources. * @returns {Promise<any>} */ load() { const ret = wasm.parser_load(this.ptr); return takeObject(ret); } /** * Get a module source. * @param {string} specifier * @returns {Promise<any>} */ getModuleSource(specifier) { const ptr0 = passStringToWasm0( specifier, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc, ); const len0 = WASM_VECTOR_LEN; const ret = wasm.parser_getModuleSource(this.ptr, ptr0, len0); return takeObject(ret); } /** * Get a module sourcemap. * @param {string} specifier * @returns {Promise<any>} */ getModuleSourceMap(specifier) { const ptr0 = passStringToWasm0( specifier, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc, ); const len0 = WASM_VECTOR_LEN; const ret = wasm.parser_getModuleSourceMap(this.ptr, ptr0, len0); return takeObject(ret); }}
const imports = { __wbindgen_placeholder__: { __wbindgen_in: function (arg0, arg1) { const ret = getObject(arg0) in getObject(arg1); return ret; }, __wbindgen_number_get: function (arg0, arg1) { const obj = getObject(arg1); const ret = typeof (obj) === "number" ? obj : undefined; getFloat64Memory0()[arg0 / 8 + 1] = isLikeNone(ret) ? 0 : ret; getInt32Memory0()[arg0 / 4 + 0] = !isLikeNone(ret); }, __wbindgen_boolean_get: function (arg0) { const v = getObject(arg0); const ret = typeof (v) === "boolean" ? (v ? 1 : 0) : 2; return ret; }, __wbindgen_string_get: function (arg0, arg1) { const obj = getObject(arg1); const ret = typeof (obj) === "string" ? obj : undefined; var ptr0 = isLikeNone(ret) ? 0 : passStringToWasm0( ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc, ); var len0 = WASM_VECTOR_LEN; getInt32Memory0()[arg0 / 4 + 1] = len0; getInt32Memory0()[arg0 / 4 + 0] = ptr0; }, __wbindgen_is_bigint: function (arg0) { const ret = typeof (getObject(arg0)) === "bigint"; return ret; }, __wbindgen_is_object: function (arg0) { const val = getObject(arg0); const ret = typeof (val) === "object" && val !== null; return ret; }, __wbindgen_bigint_from_i64: function (arg0) { const ret = arg0; return addHeapObject(ret); }, __wbindgen_bigint_from_u64: function (arg0) { const ret = BigInt.asUintN(64, arg0); return addHeapObject(ret); }, __wbg_length_e498fbc24f9c1d4f: function (arg0) { const ret = getObject(arg0).length; return ret; }, __wbg_new_15d3966e9981a196: function (arg0, arg1) { const ret = new Error(getStringFromWasm0(arg0, arg1)); return addHeapObject(ret); }, __wbindgen_memory: function () { const ret = wasm.memory; return addHeapObject(ret); }, __wbg_buffer_cf65c07de34b9a08: function (arg0) { const ret = getObject(arg0).buffer; return addHeapObject(ret); }, __wbg_newwithbyteoffsetandlength_9fb2f11355ecadf5: function ( arg0, arg1, arg2, ) { const ret = new Uint8Array(getObject(arg0), arg1 >>> 0, arg2 >>> 0); return addHeapObject(ret); }, __wbg_new_537b7341ce90bb31: function (arg0) { const ret = new Uint8Array(getObject(arg0)); return addHeapObject(ret); }, __wbg_new_b525de17f44a8943: function () { const ret = new Array(); return addHeapObject(ret); }, __wbindgen_string_new: function (arg0, arg1) { const ret = getStringFromWasm0(arg0, arg1); return addHeapObject(ret); }, __wbg_push_49c286f04dd3bf59: function (arg0, arg1) { const ret = getObject(arg0).push(getObject(arg1)); return ret; }, __wbg_String_88810dfeb4021902: function (arg0, arg1) { const ret = String(getObject(arg1)); const ptr0 = passStringToWasm0( ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc, ); const len0 = WASM_VECTOR_LEN; getInt32Memory0()[arg0 / 4 + 1] = len0; getInt32Memory0()[arg0 / 4 + 0] = ptr0; }, __wbindgen_jsval_eq: function (arg0, arg1) { const ret = getObject(arg0) === getObject(arg1); return ret; }, __wbindgen_error_new: function (arg0, arg1) { const ret = new Error(getStringFromWasm0(arg0, arg1)); return addHeapObject(ret); }, __wbg_iterator_55f114446221aa5a: function () { const ret = Symbol.iterator; return addHeapObject(ret); }, __wbg_newwithlength_b56c882b57805732: function (arg0) { const ret = new Uint8Array(arg0 >>> 0); return addHeapObject(ret); }, __wbg_read_43a845bca3122d77: function (arg0, arg1) { const ret = getObject(arg0).read(getObject(arg1)); return addHeapObject(ret); }, __wbg_done_1c9555f2eaa593e9: function (arg0) { const ret = getObject(arg0).done; return ret; }, __wbg_toString_8c529acfe543ce16: function (arg0) { const ret = getObject(arg0).toString(); return addHeapObject(ret); }, __wbg_value_a5e55ed0660d29ac: function (arg0) { const ret = getObject(arg0).value; return isLikeNone(ret) ? 0 : addHeapObject(ret); }, __wbg_byteLength_29d6f6f493852fd4: function (arg0) { const ret = getObject(arg0).byteLength; return ret; }, __wbg_length_27a2afe8ab42b09f: function (arg0) { const ret = getObject(arg0).length; return ret; }, __wbg_call_96878afb7a8201ca: function () { return handleError(function (arg0, arg1, arg2, arg3) { const ret = getObject(arg0).call( getObject(arg1), getObject(arg2), getObject(arg3), ); return addHeapObject(ret); }, arguments); }, __wbg_resolve_fd40f858d9db1a04: function (arg0) { const ret = Promise.resolve(getObject(arg0)); return addHeapObject(ret); }, __wbg_new_9d3a9ce4282a18a8: function (arg0, arg1) { try { var state0 = { a: arg0, b: arg1 }; var cb0 = (arg0, arg1) => { const a = state0.a; state0.a = 0; try { return __wbg_adapter_98(a, state0.b, arg0, arg1); } finally { state0.a = a; } }; const ret = new Promise(cb0); return addHeapObject(ret); } finally { state0.a = state0.b = 0; } }, __wbg_new_abda76e883ba8a5f: function () { const ret = new Error(); return addHeapObject(ret); }, __wbg_stack_658279fe44541cf6: function (arg0, arg1) { const ret = getObject(arg1).stack; const ptr0 = passStringToWasm0( ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc, ); const len0 = WASM_VECTOR_LEN; getInt32Memory0()[arg0 / 4 + 1] = len0; getInt32Memory0()[arg0 / 4 + 0] = ptr0; }, __wbg_error_f851667af71bcfc6: function (arg0, arg1) { try { console.error(getStringFromWasm0(arg0, arg1)); } finally { wasm.__wbindgen_free(arg0, arg1); } }, __wbindgen_object_drop_ref: function (arg0) { takeObject(arg0); }, __wbindgen_is_function: function (arg0) { const ret = typeof (getObject(arg0)) === "function"; return ret; }, __wbg_get_27fe3dac1c4d0224: function (arg0, arg1) { const ret = getObject(arg0)[arg1 >>> 0]; return addHeapObject(ret); }, __wbg_next_88560ec06a094dea: function () { return handleError(function (arg0) { const ret = getObject(arg0).next(); return addHeapObject(ret); }, arguments); }, __wbg_done_1ebec03bbd919843: function (arg0) { const ret = getObject(arg0).done; return ret; }, __wbg_value_6ac8da5cc5b3efda: function (arg0) { const ret = getObject(arg0).value; return addHeapObject(ret); }, __wbg_get_baf4855f9a986186: function () { return handleError(function (arg0, arg1) { const ret = Reflect.get(getObject(arg0), getObject(arg1)); return addHeapObject(ret); }, arguments); }, __wbg_call_95d1ea488d03e4e8: function () { return handleError(function (arg0, arg1) { const ret = getObject(arg0).call(getObject(arg1)); return addHeapObject(ret); }, arguments); }, __wbg_next_b7d530c04fd8b217: function (arg0) { const ret = getObject(arg0).next; return addHeapObject(ret); }, __wbg_isArray_39d28997bf6b96b4: function (arg0) { const ret = Array.isArray(getObject(arg0)); return ret; }, __wbg_call_9495de66fdbe016b: function () { return handleError(function (arg0, arg1, arg2) { const ret = getObject(arg0).call(getObject(arg1), getObject(arg2)); return addHeapObject(ret); }, arguments); }, __wbg_isSafeInteger_8c4789029e885159: function (arg0) { const ret = Number.isSafeInteger(getObject(arg0)); return ret; }, __wbg_set_17499e8aa4003ebd: function (arg0, arg1, arg2) { getObject(arg0).set(getObject(arg1), arg2 >>> 0); }, __wbindgen_jsval_loose_eq: function (arg0, arg1) { const ret = getObject(arg0) == getObject(arg1); return ret; }, __wbg_instanceof_Uint8Array_01cebe79ca606cca: function (arg0) { let result; try { result = getObject(arg0) instanceof Uint8Array; } catch { result = false; } const ret = result; return ret; }, __wbg_instanceof_ArrayBuffer_a69f02ee4c4f5065: function (arg0) { let result; try { result = getObject(arg0) instanceof ArrayBuffer; } catch { result = false; } const ret = result; return ret; }, __wbg_entries_4e1315b774245952: function (arg0) { const ret = Object.entries(getObject(arg0)); return addHeapObject(ret); }, __wbindgen_bigint_get_as_i64: function (arg0, arg1) { const v = getObject(arg1); const ret = typeof (v) === "bigint" ? v : undefined; getBigInt64Memory0()[arg0 / 8 + 1] = isLikeNone(ret) ? BigInt(0) : ret; getInt32Memory0()[arg0 / 4 + 0] = !isLikeNone(ret); }, __wbindgen_debug_string: function (arg0, arg1) { const ret = debugString(getObject(arg1)); const ptr0 = passStringToWasm0( ret, wasm.__wbindgen_malloc, wasm.__wbindgen_realloc, ); const len0 = WASM_VECTOR_LEN; getInt32Memory0()[arg0 / 4 + 1] = len0; getInt32Memory0()[arg0 / 4 + 0] = ptr0; }, __wbindgen_throw: function (arg0, arg1) { throw new Error(getStringFromWasm0(arg0, arg1)); }, __wbindgen_cb_drop: function (arg0) { const obj = takeObject(arg0).original; if (obj.cnt-- == 1) { obj.a = 0; return true; } const ret = false; return ret; }, __wbg_then_ec5db6d509eb475f: function (arg0, arg1) { const ret = getObject(arg0).then(getObject(arg1)); return addHeapObject(ret); }, __wbg_then_f753623316e2873a: function (arg0, arg1, arg2) { const ret = getObject(arg0).then(getObject(arg1), getObject(arg2)); return addHeapObject(ret); }, __wbindgen_closure_wrapper7402: function (arg0, arg1, arg2) { const ret = makeMutClosure(arg0, arg1, 270, __wbg_adapter_40); return addHeapObject(ret); }, },};
/** * Decompression callback * * @callback DecompressCallback * @param {Uint8Array} compressed * @return {Uint8Array} decompressed */
/** * Options for instantiating a Wasm instance. * @typedef {Object} InstantiateOptions * @property {URL=} url - Optional url to the Wasm file to instantiate. * @property {DecompressCallback=} decompress - Callback to decompress the * raw Wasm file bytes before instantiating. */
/** Instantiates an instance of the Wasm module returning its functions. * @remarks It is safe to call this multiple times and once successfully * loaded it will always return a reference to the same object. * @param {InstantiateOptions=} opts */export async function instantiate(opts) { return (await instantiateWithInstance(opts)).exports;}
let instanceWithExports;let lastLoadPromise;
/** Instantiates an instance of the Wasm module along with its exports. * @remarks It is safe to call this multiple times and once successfully * loaded it will always return a reference to the same object. * @param {InstantiateOptions=} opts * @returns {Promise<{ * instance: WebAssembly.Instance; * exports: { build: typeof build; Parser : typeof Parser } * }>} */export function instantiateWithInstance(opts) { if (instanceWithExports != null) { return Promise.resolve(instanceWithExports); } if (lastLoadPromise == null) { lastLoadPromise = (async () => { try { const instance = (await instantiateModule(opts ?? {})).instance; wasm = instance.exports; cachedInt32Memory0 = new Int32Array(wasm.memory.buffer); cachedUint8Memory0 = new Uint8Array(wasm.memory.buffer); instanceWithExports = { instance, exports: getWasmInstanceExports(), }; return instanceWithExports; } finally { lastLoadPromise = null; } })(); } return lastLoadPromise;}
function getWasmInstanceExports() { return { build, Parser };}
/** Gets if the Wasm module has been instantiated. */export function isInstantiated() { return instanceWithExports != null;}
/** * @param {InstantiateOptions} opts */async function instantiateModule(opts) { const wasmUrl = opts.url ?? new URL("eszip_wasm_bg.wasm", import.meta.url); const decompress = opts.decompress; const isFile = wasmUrl.protocol === "file:";
// make file urls work in Node via dnt const isNode = globalThis.process?.versions?.node != null; if (isNode && isFile) { // the deno global will be shimmed by dnt const wasmCode = await Deno.readFile(wasmUrl); return WebAssembly.instantiate( decompress ? decompress(wasmCode) : wasmCode, imports, ); }
switch (wasmUrl.protocol) { case "file:": case "https:": case "http:": { if (isFile) { if (typeof Deno !== "object") { throw new Error("file urls are not supported in this environment"); } if ("permissions" in Deno) { await Deno.permissions.request({ name: "read", path: wasmUrl }); } } else if (typeof Deno === "object" && "permissions" in Deno) { await Deno.permissions.request({ name: "net", host: wasmUrl.host }); } const wasmResponse = await fetch(wasmUrl); if (decompress) { const wasmCode = new Uint8Array(await wasmResponse.arrayBuffer()); return WebAssembly.instantiate(decompress(wasmCode), imports); } if ( isFile || wasmResponse.headers.get("content-type")?.toLowerCase() .startsWith("application/wasm") ) { return WebAssembly.instantiateStreaming(wasmResponse, imports); } else { return WebAssembly.instantiate( await wasmResponse.arrayBuffer(), imports, ); } } default: throw new Error(`Unsupported protocol: ${wasmUrl.protocol}`); }}