/* @ts-self-types="./ruvector_cnn_wasm.d.ts" */ /** * Configuration for CNN embedder */ export class EmbedderConfig { __destroy_into_raw() { const ptr = this.__wbg_ptr; this.__wbg_ptr = 0; EmbedderConfigFinalization.unregister(this); return ptr; } free() { const ptr = this.__destroy_into_raw(); wasm.__wbg_embedderconfig_free(ptr, 0); } constructor() { const ret = wasm.embedderconfig_new(); this.__wbg_ptr = ret >>> 0; EmbedderConfigFinalization.register(this, this.__wbg_ptr, this); return this; } /** * Output embedding dimension * @returns {number} */ get embedding_dim() { const ret = wasm.__wbg_get_embedderconfig_embedding_dim(this.__wbg_ptr); return ret >>> 0; } /** * Input image size (square) * @returns {number} */ get input_size() { const ret = wasm.__wbg_get_embedderconfig_input_size(this.__wbg_ptr); return ret >>> 0; } /** * Whether to L2 normalize embeddings * @returns {boolean} */ get normalize() { const ret = wasm.__wbg_get_embedderconfig_normalize(this.__wbg_ptr); return ret !== 0; } /** * Output embedding dimension * @param {number} arg0 */ set embedding_dim(arg0) { wasm.__wbg_set_embedderconfig_embedding_dim(this.__wbg_ptr, arg0); } /** * Input image size (square) * @param {number} arg0 */ set input_size(arg0) { wasm.__wbg_set_embedderconfig_input_size(this.__wbg_ptr, arg0); } /** * Whether to L2 normalize embeddings * @param {boolean} arg0 */ set normalize(arg0) { wasm.__wbg_set_embedderconfig_normalize(this.__wbg_ptr, arg0); } } if (Symbol.dispose) EmbedderConfig.prototype[Symbol.dispose] = EmbedderConfig.prototype.free; /** * Layer operations for building custom networks */ export class LayerOps { __destroy_into_raw() { const ptr = this.__wbg_ptr; this.__wbg_ptr = 0; LayerOpsFinalization.unregister(this); return ptr; } free() { const ptr = this.__destroy_into_raw(); wasm.__wbg_layerops_free(ptr, 0); } /** * Apply batch normalization (returns new array) * @param {Float32Array} input * @param {Float32Array} gamma * @param {Float32Array} beta * @param {Float32Array} mean * @param {Float32Array} _var * @param {number} epsilon * @returns {Float32Array} */ static batch_norm(input, gamma, beta, mean, _var, epsilon) { try { const retptr = wasm.__wbindgen_add_to_stack_pointer(-16); const ptr0 = passArrayF32ToWasm0(input, wasm.__wbindgen_export2); const len0 = WASM_VECTOR_LEN; const ptr1 = passArrayF32ToWasm0(gamma, wasm.__wbindgen_export2); const len1 = WASM_VECTOR_LEN; const ptr2 = passArrayF32ToWasm0(beta, wasm.__wbindgen_export2); const len2 = WASM_VECTOR_LEN; const ptr3 = passArrayF32ToWasm0(mean, wasm.__wbindgen_export2); const len3 = WASM_VECTOR_LEN; const ptr4 = passArrayF32ToWasm0(_var, wasm.__wbindgen_export2); const len4 = WASM_VECTOR_LEN; wasm.layerops_batch_norm(retptr, ptr0, len0, ptr1, len1, ptr2, len2, ptr3, len3, ptr4, len4, epsilon); var r0 = getDataViewMemory0().getInt32(retptr + 4 * 0, true); var r1 = getDataViewMemory0().getInt32(retptr + 4 * 1, true); var v6 = getArrayF32FromWasm0(r0, r1).slice(); wasm.__wbindgen_export(r0, r1 * 4, 4); return v6; } finally { wasm.__wbindgen_add_to_stack_pointer(16); } } /** * Apply global average pooling * Returns one value per channel * @param {Float32Array} input * @param {number} height * @param {number} width * @param {number} channels * @returns {Float32Array} */ static global_avg_pool(input, height, width, channels) { try { const retptr = wasm.__wbindgen_add_to_stack_pointer(-16); const ptr0 = passArrayF32ToWasm0(input, wasm.__wbindgen_export2); const len0 = WASM_VECTOR_LEN; wasm.layerops_global_avg_pool(retptr, ptr0, len0, height, width, channels); var r0 = getDataViewMemory0().getInt32(retptr + 4 * 0, true); var r1 = getDataViewMemory0().getInt32(retptr + 4 * 1, true); var v2 = getArrayF32FromWasm0(r0, r1).slice(); wasm.__wbindgen_export(r0, r1 * 4, 4); return v2; } finally { wasm.__wbindgen_add_to_stack_pointer(16); } } } if (Symbol.dispose) LayerOps.prototype[Symbol.dispose] = LayerOps.prototype.free; /** * SIMD-optimized operations */ export class SimdOps { __destroy_into_raw() { const ptr = this.__wbg_ptr; this.__wbg_ptr = 0; SimdOpsFinalization.unregister(this); return ptr; } free() { const ptr = this.__destroy_into_raw(); wasm.__wbg_simdops_free(ptr, 0); } /** * Dot product of two vectors * @param {Float32Array} a * @param {Float32Array} b * @returns {number} */ static dot_product(a, b) { const ptr0 = passArrayF32ToWasm0(a, wasm.__wbindgen_export2); const len0 = WASM_VECTOR_LEN; const ptr1 = passArrayF32ToWasm0(b, wasm.__wbindgen_export2); const len1 = WASM_VECTOR_LEN; const ret = wasm.simdops_dot_product(ptr0, len0, ptr1, len1); return ret; } /** * L2 normalize a vector (returns new array) * @param {Float32Array} data * @returns {Float32Array} */ static l2_normalize(data) { try { const retptr = wasm.__wbindgen_add_to_stack_pointer(-16); const ptr0 = passArrayF32ToWasm0(data, wasm.__wbindgen_export2); const len0 = WASM_VECTOR_LEN; wasm.simdops_l2_normalize(retptr, ptr0, len0); var r0 = getDataViewMemory0().getInt32(retptr + 4 * 0, true); var r1 = getDataViewMemory0().getInt32(retptr + 4 * 1, true); var v2 = getArrayF32FromWasm0(r0, r1).slice(); wasm.__wbindgen_export(r0, r1 * 4, 4); return v2; } finally { wasm.__wbindgen_add_to_stack_pointer(16); } } /** * ReLU activation (returns new array) * @param {Float32Array} data * @returns {Float32Array} */ static relu(data) { try { const retptr = wasm.__wbindgen_add_to_stack_pointer(-16); const ptr0 = passArrayF32ToWasm0(data, wasm.__wbindgen_export2); const len0 = WASM_VECTOR_LEN; wasm.simdops_relu(retptr, ptr0, len0); var r0 = getDataViewMemory0().getInt32(retptr + 4 * 0, true); var r1 = getDataViewMemory0().getInt32(retptr + 4 * 1, true); var v2 = getArrayF32FromWasm0(r0, r1).slice(); wasm.__wbindgen_export(r0, r1 * 4, 4); return v2; } finally { wasm.__wbindgen_add_to_stack_pointer(16); } } /** * ReLU6 activation (returns new array) * @param {Float32Array} data * @returns {Float32Array} */ static relu6(data) { try { const retptr = wasm.__wbindgen_add_to_stack_pointer(-16); const ptr0 = passArrayF32ToWasm0(data, wasm.__wbindgen_export2); const len0 = WASM_VECTOR_LEN; wasm.simdops_relu6(retptr, ptr0, len0); var r0 = getDataViewMemory0().getInt32(retptr + 4 * 0, true); var r1 = getDataViewMemory0().getInt32(retptr + 4 * 1, true); var v2 = getArrayF32FromWasm0(r0, r1).slice(); wasm.__wbindgen_export(r0, r1 * 4, 4); return v2; } finally { wasm.__wbindgen_add_to_stack_pointer(16); } } } if (Symbol.dispose) SimdOps.prototype[Symbol.dispose] = SimdOps.prototype.free; /** * WASM CNN Embedder for image feature extraction */ export class WasmCnnEmbedder { __destroy_into_raw() { const ptr = this.__wbg_ptr; this.__wbg_ptr = 0; WasmCnnEmbedderFinalization.unregister(this); return ptr; } free() { const ptr = this.__destroy_into_raw(); wasm.__wbg_wasmcnnembedder_free(ptr, 0); } /** * Compute cosine similarity between two embeddings * @param {Float32Array} a * @param {Float32Array} b * @returns {number} */ cosine_similarity(a, b) { try { const retptr = wasm.__wbindgen_add_to_stack_pointer(-16); const ptr0 = passArrayF32ToWasm0(a, wasm.__wbindgen_export2); const len0 = WASM_VECTOR_LEN; const ptr1 = passArrayF32ToWasm0(b, wasm.__wbindgen_export2); const len1 = WASM_VECTOR_LEN; wasm.wasmcnnembedder_cosine_similarity(retptr, this.__wbg_ptr, ptr0, len0, ptr1, len1); var r0 = getDataViewMemory0().getFloat32(retptr + 4 * 0, true); var r1 = getDataViewMemory0().getInt32(retptr + 4 * 1, true); var r2 = getDataViewMemory0().getInt32(retptr + 4 * 2, true); if (r2) { throw takeObject(r1); } return r0; } finally { wasm.__wbindgen_add_to_stack_pointer(16); } } /** * Get the embedding dimension * @returns {number} */ get embedding_dim() { const ret = wasm.wasmcnnembedder_embedding_dim(this.__wbg_ptr); return ret >>> 0; } /** * Extract embedding from image data (RGB format, row-major) * @param {Uint8Array} image_data * @param {number} width * @param {number} height * @returns {Float32Array} */ extract(image_data, width, height) { try { const retptr = wasm.__wbindgen_add_to_stack_pointer(-16); const ptr0 = passArray8ToWasm0(image_data, wasm.__wbindgen_export2); const len0 = WASM_VECTOR_LEN; wasm.wasmcnnembedder_extract(retptr, this.__wbg_ptr, ptr0, len0, width, height); var r0 = getDataViewMemory0().getInt32(retptr + 4 * 0, true); var r1 = getDataViewMemory0().getInt32(retptr + 4 * 1, true); var r2 = getDataViewMemory0().getInt32(retptr + 4 * 2, true); var r3 = getDataViewMemory0().getInt32(retptr + 4 * 3, true); if (r3) { throw takeObject(r2); } var v2 = getArrayF32FromWasm0(r0, r1).slice(); wasm.__wbindgen_export(r0, r1 * 4, 4); return v2; } finally { wasm.__wbindgen_add_to_stack_pointer(16); } } /** * Create a new CNN embedder * @param {EmbedderConfig | null} [config] */ constructor(config) { try { const retptr = wasm.__wbindgen_add_to_stack_pointer(-16); let ptr0 = 0; if (!isLikeNone(config)) { _assertClass(config, EmbedderConfig); ptr0 = config.__destroy_into_raw(); } wasm.wasmcnnembedder_new(retptr, ptr0); var r0 = getDataViewMemory0().getInt32(retptr + 4 * 0, true); var r1 = getDataViewMemory0().getInt32(retptr + 4 * 1, true); var r2 = getDataViewMemory0().getInt32(retptr + 4 * 2, true); if (r2) { throw takeObject(r1); } this.__wbg_ptr = r0 >>> 0; WasmCnnEmbedderFinalization.register(this, this.__wbg_ptr, this); return this; } finally { wasm.__wbindgen_add_to_stack_pointer(16); } } } if (Symbol.dispose) WasmCnnEmbedder.prototype[Symbol.dispose] = WasmCnnEmbedder.prototype.free; /** * InfoNCE loss for contrastive learning (SimCLR style) */ export class WasmInfoNCELoss { __destroy_into_raw() { const ptr = this.__wbg_ptr; this.__wbg_ptr = 0; WasmInfoNCELossFinalization.unregister(this); return ptr; } free() { const ptr = this.__destroy_into_raw(); wasm.__wbg_wasminfonceloss_free(ptr, 0); } /** * Compute loss for a batch of embedding pairs * embeddings: [2N, D] flattened where (i, i+N) are positive pairs * @param {Float32Array} embeddings * @param {number} batch_size * @param {number} dim * @returns {number} */ forward(embeddings, batch_size, dim) { try { const retptr = wasm.__wbindgen_add_to_stack_pointer(-16); const ptr0 = passArrayF32ToWasm0(embeddings, wasm.__wbindgen_export2); const len0 = WASM_VECTOR_LEN; wasm.wasminfonceloss_forward(retptr, this.__wbg_ptr, ptr0, len0, batch_size, dim); var r0 = getDataViewMemory0().getFloat32(retptr + 4 * 0, true); var r1 = getDataViewMemory0().getInt32(retptr + 4 * 1, true); var r2 = getDataViewMemory0().getInt32(retptr + 4 * 2, true); if (r2) { throw takeObject(r1); } return r0; } finally { wasm.__wbindgen_add_to_stack_pointer(16); } } /** * Create new InfoNCE loss with temperature parameter * @param {number} temperature */ constructor(temperature) { const ret = wasm.wasminfonceloss_new(temperature); this.__wbg_ptr = ret >>> 0; WasmInfoNCELossFinalization.register(this, this.__wbg_ptr, this); return this; } /** * Get the temperature parameter * @returns {number} */ get temperature() { const ret = wasm.wasminfonceloss_temperature(this.__wbg_ptr); return ret; } } if (Symbol.dispose) WasmInfoNCELoss.prototype[Symbol.dispose] = WasmInfoNCELoss.prototype.free; /** * Triplet loss for metric learning */ export class WasmTripletLoss { __destroy_into_raw() { const ptr = this.__wbg_ptr; this.__wbg_ptr = 0; WasmTripletLossFinalization.unregister(this); return ptr; } free() { const ptr = this.__destroy_into_raw(); wasm.__wbg_wasmtripletloss_free(ptr, 0); } /** * Compute loss for a batch of triplets * @param {Float32Array} anchors * @param {Float32Array} positives * @param {Float32Array} negatives * @param {number} dim * @returns {number} */ forward(anchors, positives, negatives, dim) { try { const retptr = wasm.__wbindgen_add_to_stack_pointer(-16); const ptr0 = passArrayF32ToWasm0(anchors, wasm.__wbindgen_export2); const len0 = WASM_VECTOR_LEN; const ptr1 = passArrayF32ToWasm0(positives, wasm.__wbindgen_export2); const len1 = WASM_VECTOR_LEN; const ptr2 = passArrayF32ToWasm0(negatives, wasm.__wbindgen_export2); const len2 = WASM_VECTOR_LEN; wasm.wasmtripletloss_forward(retptr, this.__wbg_ptr, ptr0, len0, ptr1, len1, ptr2, len2, dim); var r0 = getDataViewMemory0().getFloat32(retptr + 4 * 0, true); var r1 = getDataViewMemory0().getInt32(retptr + 4 * 1, true); var r2 = getDataViewMemory0().getInt32(retptr + 4 * 2, true); if (r2) { throw takeObject(r1); } return r0; } finally { wasm.__wbindgen_add_to_stack_pointer(16); } } /** * Compute loss for a single triplet * @param {Float32Array} anchor * @param {Float32Array} positive * @param {Float32Array} negative * @returns {number} */ forward_single(anchor, positive, negative) { try { const retptr = wasm.__wbindgen_add_to_stack_pointer(-16); const ptr0 = passArrayF32ToWasm0(anchor, wasm.__wbindgen_export2); const len0 = WASM_VECTOR_LEN; const ptr1 = passArrayF32ToWasm0(positive, wasm.__wbindgen_export2); const len1 = WASM_VECTOR_LEN; const ptr2 = passArrayF32ToWasm0(negative, wasm.__wbindgen_export2); const len2 = WASM_VECTOR_LEN; wasm.wasmtripletloss_forward_single(retptr, this.__wbg_ptr, ptr0, len0, ptr1, len1, ptr2, len2); var r0 = getDataViewMemory0().getFloat32(retptr + 4 * 0, true); var r1 = getDataViewMemory0().getInt32(retptr + 4 * 1, true); var r2 = getDataViewMemory0().getInt32(retptr + 4 * 2, true); if (r2) { throw takeObject(r1); } return r0; } finally { wasm.__wbindgen_add_to_stack_pointer(16); } } /** * Get the margin parameter * @returns {number} */ get margin() { const ret = wasm.wasmtripletloss_margin(this.__wbg_ptr); return ret; } /** * Create new triplet loss with margin * @param {number} margin */ constructor(margin) { const ret = wasm.wasmtripletloss_new(margin); this.__wbg_ptr = ret >>> 0; WasmTripletLossFinalization.register(this, this.__wbg_ptr, this); return this; } } if (Symbol.dispose) WasmTripletLoss.prototype[Symbol.dispose] = WasmTripletLoss.prototype.free; /** * Initialize panic hook for better error messages */ export function init() { wasm.init(); } function __wbg_get_imports() { const import0 = { __proto__: null, __wbg___wbindgen_throw_39bc967c0e5a9b58: function(arg0, arg1) { throw new Error(getStringFromWasm0(arg0, arg1)); }, __wbg_error_a6fa202b58aa1cd3: function(arg0, arg1) { let deferred0_0; let deferred0_1; try { deferred0_0 = arg0; deferred0_1 = arg1; console.error(getStringFromWasm0(arg0, arg1)); } finally { wasm.__wbindgen_export(deferred0_0, deferred0_1, 1); } }, __wbg_new_227d7c05414eb861: function() { const ret = new Error(); return addHeapObject(ret); }, __wbg_stack_3b0d974bbf31e44f: function(arg0, arg1) { const ret = getObject(arg1).stack; const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_export2, wasm.__wbindgen_export3); const len1 = WASM_VECTOR_LEN; getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true); getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true); }, __wbindgen_cast_0000000000000001: function(arg0, arg1) { // Cast intrinsic for `Ref(String) -> Externref`. const ret = getStringFromWasm0(arg0, arg1); return addHeapObject(ret); }, __wbindgen_object_drop_ref: function(arg0) { takeObject(arg0); }, }; return { __proto__: null, "./ruvector_cnn_wasm_bg.js": import0, }; } const EmbedderConfigFinalization = (typeof FinalizationRegistry === 'undefined') ? { register: () => {}, unregister: () => {} } : new FinalizationRegistry(ptr => wasm.__wbg_embedderconfig_free(ptr >>> 0, 1)); const LayerOpsFinalization = (typeof FinalizationRegistry === 'undefined') ? { register: () => {}, unregister: () => {} } : new FinalizationRegistry(ptr => wasm.__wbg_layerops_free(ptr >>> 0, 1)); const SimdOpsFinalization = (typeof FinalizationRegistry === 'undefined') ? { register: () => {}, unregister: () => {} } : new FinalizationRegistry(ptr => wasm.__wbg_simdops_free(ptr >>> 0, 1)); const WasmCnnEmbedderFinalization = (typeof FinalizationRegistry === 'undefined') ? { register: () => {}, unregister: () => {} } : new FinalizationRegistry(ptr => wasm.__wbg_wasmcnnembedder_free(ptr >>> 0, 1)); const WasmInfoNCELossFinalization = (typeof FinalizationRegistry === 'undefined') ? { register: () => {}, unregister: () => {} } : new FinalizationRegistry(ptr => wasm.__wbg_wasminfonceloss_free(ptr >>> 0, 1)); const WasmTripletLossFinalization = (typeof FinalizationRegistry === 'undefined') ? { register: () => {}, unregister: () => {} } : new FinalizationRegistry(ptr => wasm.__wbg_wasmtripletloss_free(ptr >>> 0, 1)); 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; } function _assertClass(instance, klass) { if (!(instance instanceof klass)) { throw new Error(`expected instance of ${klass.name}`); } } function dropObject(idx) { if (idx < 1028) return; heap[idx] = heap_next; heap_next = idx; } function getArrayF32FromWasm0(ptr, len) { ptr = ptr >>> 0; return getFloat32ArrayMemory0().subarray(ptr / 4, ptr / 4 + len); } let cachedDataViewMemory0 = null; function getDataViewMemory0() { if (cachedDataViewMemory0 === null || cachedDataViewMemory0.buffer.detached === true || (cachedDataViewMemory0.buffer.detached === undefined && cachedDataViewMemory0.buffer !== wasm.memory.buffer)) { cachedDataViewMemory0 = new DataView(wasm.memory.buffer); } return cachedDataViewMemory0; } let cachedFloat32ArrayMemory0 = null; function getFloat32ArrayMemory0() { if (cachedFloat32ArrayMemory0 === null || cachedFloat32ArrayMemory0.byteLength === 0) { cachedFloat32ArrayMemory0 = new Float32Array(wasm.memory.buffer); } return cachedFloat32ArrayMemory0; } function getStringFromWasm0(ptr, len) { ptr = ptr >>> 0; return decodeText(ptr, len); } let cachedUint8ArrayMemory0 = null; function getUint8ArrayMemory0() { if (cachedUint8ArrayMemory0 === null || cachedUint8ArrayMemory0.byteLength === 0) { cachedUint8ArrayMemory0 = new Uint8Array(wasm.memory.buffer); } return cachedUint8ArrayMemory0; } function getObject(idx) { return heap[idx]; } let heap = new Array(1024).fill(undefined); heap.push(undefined, null, true, false); let heap_next = heap.length; function isLikeNone(x) { return x === undefined || x === null; } function passArray8ToWasm0(arg, malloc) { const ptr = malloc(arg.length * 1, 1) >>> 0; getUint8ArrayMemory0().set(arg, ptr / 1); WASM_VECTOR_LEN = arg.length; return ptr; } function passArrayF32ToWasm0(arg, malloc) { const ptr = malloc(arg.length * 4, 4) >>> 0; getFloat32ArrayMemory0().set(arg, ptr / 4); WASM_VECTOR_LEN = arg.length; return ptr; } function passStringToWasm0(arg, malloc, realloc) { if (realloc === undefined) { const buf = cachedTextEncoder.encode(arg); const ptr = malloc(buf.length, 1) >>> 0; getUint8ArrayMemory0().subarray(ptr, ptr + buf.length).set(buf); WASM_VECTOR_LEN = buf.length; return ptr; } let len = arg.length; let ptr = malloc(len, 1) >>> 0; const mem = getUint8ArrayMemory0(); 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, 1) >>> 0; const view = getUint8ArrayMemory0().subarray(ptr + offset, ptr + len); const ret = cachedTextEncoder.encodeInto(arg, view); offset += ret.written; ptr = realloc(ptr, len, offset, 1) >>> 0; } WASM_VECTOR_LEN = offset; return ptr; } function takeObject(idx) { const ret = getObject(idx); dropObject(idx); return ret; } let cachedTextDecoder = new TextDecoder('utf-8', { ignoreBOM: true, fatal: true }); cachedTextDecoder.decode(); const MAX_SAFARI_DECODE_BYTES = 2146435072; let numBytesDecoded = 0; function decodeText(ptr, len) { numBytesDecoded += len; if (numBytesDecoded >= MAX_SAFARI_DECODE_BYTES) { cachedTextDecoder = new TextDecoder('utf-8', { ignoreBOM: true, fatal: true }); cachedTextDecoder.decode(); numBytesDecoded = len; } return cachedTextDecoder.decode(getUint8ArrayMemory0().subarray(ptr, ptr + len)); } const cachedTextEncoder = new TextEncoder(); if (!('encodeInto' in cachedTextEncoder)) { cachedTextEncoder.encodeInto = function (arg, view) { const buf = cachedTextEncoder.encode(arg); view.set(buf); return { read: arg.length, written: buf.length }; }; } let WASM_VECTOR_LEN = 0; let wasmModule, wasm; function __wbg_finalize_init(instance, module) { wasm = instance.exports; wasmModule = module; cachedDataViewMemory0 = null; cachedFloat32ArrayMemory0 = null; cachedUint8ArrayMemory0 = null; wasm.__wbindgen_start(); return wasm; } async function __wbg_load(module, imports) { if (typeof Response === 'function' && module instanceof Response) { if (typeof WebAssembly.instantiateStreaming === 'function') { try { return await WebAssembly.instantiateStreaming(module, imports); } catch (e) { const validResponse = module.ok && expectedResponseType(module.type); if (validResponse && module.headers.get('Content-Type') !== 'application/wasm') { console.warn("`WebAssembly.instantiateStreaming` failed because your server does not serve Wasm with `application/wasm` MIME type. Falling back to `WebAssembly.instantiate` which is slower. Original error:\n", e); } else { throw e; } } } const bytes = await module.arrayBuffer(); return await WebAssembly.instantiate(bytes, imports); } else { const instance = await WebAssembly.instantiate(module, imports); if (instance instanceof WebAssembly.Instance) { return { instance, module }; } else { return instance; } } function expectedResponseType(type) { switch (type) { case 'basic': case 'cors': case 'default': return true; } return false; } } function initSync(module) { if (wasm !== undefined) return wasm; if (module !== undefined) { if (Object.getPrototypeOf(module) === Object.prototype) { ({module} = module) } else { console.warn('using deprecated parameters for `initSync()`; pass a single object instead') } } const imports = __wbg_get_imports(); if (!(module instanceof WebAssembly.Module)) { module = new WebAssembly.Module(module); } const instance = new WebAssembly.Instance(module, imports); return __wbg_finalize_init(instance, module); } async function __wbg_init(module_or_path) { if (wasm !== undefined) return wasm; if (module_or_path !== undefined) { if (Object.getPrototypeOf(module_or_path) === Object.prototype) { ({module_or_path} = module_or_path) } else { console.warn('using deprecated parameters for the initialization function; pass a single object instead') } } if (module_or_path === undefined) { module_or_path = new URL('ruvector_cnn_wasm_bg.wasm', import.meta.url); } const imports = __wbg_get_imports(); if (typeof module_or_path === 'string' || (typeof Request === 'function' && module_or_path instanceof Request) || (typeof URL === 'function' && module_or_path instanceof URL)) { module_or_path = fetch(module_or_path); } const { instance, module } = await __wbg_load(await module_or_path, imports); return __wbg_finalize_init(instance, module); } export { initSync, __wbg_init as default };