let wasm; 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 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 && 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; } function dropObject(idx) { if (idx < 132) return; heap[idx] = heap_next; heap_next = idx; } function getArrayU8FromWasm0(ptr, len) { ptr = ptr >>> 0; return getUint8ArrayMemory0().subarray(ptr / 1, ptr / 1 + 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; } 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]; } function handleError(f, args) { try { return f.apply(this, args); } catch (e) { wasm.__wbindgen_export3(addHeapObject(e)); } } let heap = new Array(128).fill(undefined); heap.push(undefined, null, true, false); let heap_next = heap.length; function isLikeNone(x) { return x === undefined || x === null; } 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; const ExoticEcosystemFinalization = (typeof FinalizationRegistry === 'undefined') ? { register: () => {}, unregister: () => {} } : new FinalizationRegistry(ptr => wasm.__wbg_exoticecosystem_free(ptr >>> 0, 1)); const WasmMorphogeneticNetworkFinalization = (typeof FinalizationRegistry === 'undefined') ? { register: () => {}, unregister: () => {} } : new FinalizationRegistry(ptr => wasm.__wbg_wasmmorphogeneticnetwork_free(ptr >>> 0, 1)); const WasmNAOFinalization = (typeof FinalizationRegistry === 'undefined') ? { register: () => {}, unregister: () => {} } : new FinalizationRegistry(ptr => wasm.__wbg_wasmnao_free(ptr >>> 0, 1)); const WasmTimeCrystalFinalization = (typeof FinalizationRegistry === 'undefined') ? { register: () => {}, unregister: () => {} } : new FinalizationRegistry(ptr => wasm.__wbg_wasmtimecrystal_free(ptr >>> 0, 1)); /** * Create a demonstration of all three exotic mechanisms working together */ export class ExoticEcosystem { __destroy_into_raw() { const ptr = this.__wbg_ptr; this.__wbg_ptr = 0; ExoticEcosystemFinalization.unregister(this); return ptr; } free() { const ptr = this.__destroy_into_raw(); wasm.__wbg_exoticecosystem_free(ptr, 0); } /** * Get current cell count (from morphogenetic network) * @returns {number} */ cellCount() { const ret = wasm.exoticecosystem_cellCount(this.__wbg_ptr); return ret >>> 0; } /** * Crystallize the time crystal */ crystallize() { wasm.exoticecosystem_crystallize(this.__wbg_ptr); } /** * Get current step * @returns {number} */ currentStep() { const ret = wasm.exoticecosystem_currentStep(this.__wbg_ptr); return ret >>> 0; } /** * Get current member count (from NAO) * @returns {number} */ memberCount() { const ret = wasm.exoticecosystem_memberCount(this.__wbg_ptr); return ret >>> 0; } /** * Get ecosystem summary as JSON * @returns {any} */ summaryJson() { try { const retptr = wasm.__wbindgen_add_to_stack_pointer(-16); wasm.exoticecosystem_summaryJson(retptr, this.__wbg_ptr); 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); } return takeObject(r0); } finally { wasm.__wbindgen_add_to_stack_pointer(16); } } /** * Get current synchronization level (from time crystal) * @returns {number} */ synchronization() { const ret = wasm.exoticecosystem_synchronization(this.__wbg_ptr); return ret; } /** * Create a new exotic ecosystem with interconnected mechanisms * @param {number} agents * @param {number} grid_size * @param {number} oscillators */ constructor(agents, grid_size, oscillators) { const ret = wasm.exoticecosystem_new(agents, grid_size, oscillators); this.__wbg_ptr = ret >>> 0; ExoticEcosystemFinalization.register(this, this.__wbg_ptr, this); return this; } /** * Advance all systems by one step */ step() { wasm.exoticecosystem_step(this.__wbg_ptr); } /** * Vote on a proposal * @param {string} proposal_id * @param {string} agent_id * @param {number} weight * @returns {boolean} */ vote(proposal_id, agent_id, weight) { const ptr0 = passStringToWasm0(proposal_id, wasm.__wbindgen_export, wasm.__wbindgen_export2); const len0 = WASM_VECTOR_LEN; const ptr1 = passStringToWasm0(agent_id, wasm.__wbindgen_export, wasm.__wbindgen_export2); const len1 = WASM_VECTOR_LEN; const ret = wasm.exoticecosystem_vote(this.__wbg_ptr, ptr0, len0, ptr1, len1, weight); return ret !== 0; } /** * Execute a proposal * @param {string} proposal_id * @returns {boolean} */ execute(proposal_id) { const ptr0 = passStringToWasm0(proposal_id, wasm.__wbindgen_export, wasm.__wbindgen_export2); const len0 = WASM_VECTOR_LEN; const ret = wasm.exoticecosystem_execute(this.__wbg_ptr, ptr0, len0); return ret !== 0; } /** * Propose an action in the NAO * @param {string} action * @returns {string} */ propose(action) { let deferred2_0; let deferred2_1; try { const retptr = wasm.__wbindgen_add_to_stack_pointer(-16); const ptr0 = passStringToWasm0(action, wasm.__wbindgen_export, wasm.__wbindgen_export2); const len0 = WASM_VECTOR_LEN; wasm.exoticecosystem_propose(retptr, this.__wbg_ptr, ptr0, len0); var r0 = getDataViewMemory0().getInt32(retptr + 4 * 0, true); var r1 = getDataViewMemory0().getInt32(retptr + 4 * 1, true); deferred2_0 = r0; deferred2_1 = r1; return getStringFromWasm0(r0, r1); } finally { wasm.__wbindgen_add_to_stack_pointer(16); wasm.__wbindgen_export4(deferred2_0, deferred2_1, 1); } } } if (Symbol.dispose) ExoticEcosystem.prototype[Symbol.dispose] = ExoticEcosystem.prototype.free; /** * WASM-bindgen wrapper for MorphogeneticNetwork */ export class WasmMorphogeneticNetwork { __destroy_into_raw() { const ptr = this.__wbg_ptr; this.__wbg_ptr = 0; WasmMorphogeneticNetworkFinalization.unregister(this); return ptr; } free() { const ptr = this.__destroy_into_raw(); wasm.__wbg_wasmmorphogeneticnetwork_free(ptr, 0); } /** * Get cell count * @returns {number} */ cellCount() { const ret = wasm.wasmmorphogeneticnetwork_cellCount(this.__wbg_ptr); return ret >>> 0; } /** * Get all cells as JSON * @returns {any} */ cellsJson() { try { const retptr = wasm.__wbindgen_add_to_stack_pointer(-16); wasm.wasmmorphogeneticnetwork_cellsJson(retptr, this.__wbg_ptr); 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); } return takeObject(r0); } finally { wasm.__wbindgen_add_to_stack_pointer(16); } } /** * Get statistics as JSON * @returns {any} */ statsJson() { try { const retptr = wasm.__wbindgen_add_to_stack_pointer(-16); wasm.wasmmorphogeneticnetwork_statsJson(retptr, this.__wbg_ptr); 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); } return takeObject(r0); } finally { wasm.__wbindgen_add_to_stack_pointer(16); } } /** * Get stem cell count * @returns {number} */ stemCount() { const ret = wasm.wasmmorphogeneticnetwork_stemCount(this.__wbg_ptr); return ret >>> 0; } /** * Get current tick * @returns {number} */ currentTick() { const ret = wasm.wasmmorphogeneticnetwork_currentTick(this.__wbg_ptr); return ret >>> 0; } /** * Get compute cell count * @returns {number} */ computeCount() { const ret = wasm.wasmmorphogeneticnetwork_computeCount(this.__wbg_ptr); return ret >>> 0; } /** * Differentiate stem cells */ differentiate() { wasm.wasmmorphogeneticnetwork_differentiate(this.__wbg_ptr); } /** * Seed a signaling cell at position * @param {number} x * @param {number} y * @returns {number} */ seedSignaling(x, y) { const ret = wasm.wasmmorphogeneticnetwork_seedSignaling(this.__wbg_ptr, x, y); return ret >>> 0; } /** * Get signaling cell count * @returns {number} */ signalingCount() { const ret = wasm.wasmmorphogeneticnetwork_signalingCount(this.__wbg_ptr); return ret >>> 0; } /** * Add a growth factor source * @param {number} x * @param {number} y * @param {string} name * @param {number} concentration */ addGrowthSource(x, y, name, concentration) { const ptr0 = passStringToWasm0(name, wasm.__wbindgen_export, wasm.__wbindgen_export2); const len0 = WASM_VECTOR_LEN; wasm.wasmmorphogeneticnetwork_addGrowthSource(this.__wbg_ptr, x, y, ptr0, len0, concentration); } /** * Create a new morphogenetic network * @param {number} width * @param {number} height */ constructor(width, height) { const ret = wasm.wasmmorphogeneticnetwork_new(width, height); this.__wbg_ptr = ret >>> 0; WasmMorphogeneticNetworkFinalization.register(this, this.__wbg_ptr, this); return this; } /** * Grow the network * @param {number} dt */ grow(dt) { wasm.wasmmorphogeneticnetwork_grow(this.__wbg_ptr, dt); } /** * Prune weak connections and dead cells * @param {number} threshold */ prune(threshold) { wasm.wasmmorphogeneticnetwork_prune(this.__wbg_ptr, threshold); } /** * Seed a stem cell at position * @param {number} x * @param {number} y * @returns {number} */ seedStem(x, y) { const ret = wasm.wasmmorphogeneticnetwork_seedStem(this.__wbg_ptr, x, y); return ret >>> 0; } } if (Symbol.dispose) WasmMorphogeneticNetwork.prototype[Symbol.dispose] = WasmMorphogeneticNetwork.prototype.free; /** * WASM-bindgen wrapper for NeuralAutonomousOrg */ export class WasmNAO { __destroy_into_raw() { const ptr = this.__wbg_ptr; this.__wbg_ptr = 0; WasmNAOFinalization.unregister(this); return ptr; } free() { const ptr = this.__destroy_into_raw(); wasm.__wbg_wasmnao_free(ptr, 0); } /** * Add a member agent with initial stake * @param {string} agent_id * @param {number} stake */ addMember(agent_id, stake) { const ptr0 = passStringToWasm0(agent_id, wasm.__wbindgen_export, wasm.__wbindgen_export2); const len0 = WASM_VECTOR_LEN; wasm.wasmnao_addMember(this.__wbg_ptr, ptr0, len0, stake); } /** * Get current tick * @returns {number} */ currentTick() { const ret = wasm.wasmnao_currentTick(this.__wbg_ptr); return ret >>> 0; } /** * Get member count * @returns {number} */ memberCount() { const ret = wasm.wasmnao_memberCount(this.__wbg_ptr); return ret >>> 0; } /** * Remove a member agent * @param {string} agent_id */ removeMember(agent_id) { const ptr0 = passStringToWasm0(agent_id, wasm.__wbindgen_export, wasm.__wbindgen_export2); const len0 = WASM_VECTOR_LEN; wasm.wasmnao_removeMember(this.__wbg_ptr, ptr0, len0); } /** * Get coherence between two agents (0-1) * @param {string} agent_a * @param {string} agent_b * @returns {number} */ agentCoherence(agent_a, agent_b) { const ptr0 = passStringToWasm0(agent_a, wasm.__wbindgen_export, wasm.__wbindgen_export2); const len0 = WASM_VECTOR_LEN; const ptr1 = passStringToWasm0(agent_b, wasm.__wbindgen_export, wasm.__wbindgen_export2); const len1 = WASM_VECTOR_LEN; const ret = wasm.wasmnao_agentCoherence(this.__wbg_ptr, ptr0, len0, ptr1, len1); return ret; } /** * Get current synchronization level (0-1) * @returns {number} */ synchronization() { const ret = wasm.wasmnao_synchronization(this.__wbg_ptr); return ret; } /** * Get total voting power * @returns {number} */ totalVotingPower() { const ret = wasm.wasmnao_totalVotingPower(this.__wbg_ptr); return ret; } /** * Get active proposal count * @returns {number} */ activeProposalCount() { const ret = wasm.wasmnao_activeProposalCount(this.__wbg_ptr); return ret >>> 0; } /** * Create a new NAO with the given quorum threshold (0.0 - 1.0) * @param {number} quorum_threshold */ constructor(quorum_threshold) { const ret = wasm.wasmnao_new(quorum_threshold); this.__wbg_ptr = ret >>> 0; WasmNAOFinalization.register(this, this.__wbg_ptr, this); return this; } /** * Advance simulation by one tick * @param {number} dt */ tick(dt) { wasm.wasmnao_tick(this.__wbg_ptr, dt); } /** * Vote on a proposal * @param {string} proposal_id * @param {string} agent_id * @param {number} weight * @returns {boolean} */ vote(proposal_id, agent_id, weight) { const ptr0 = passStringToWasm0(proposal_id, wasm.__wbindgen_export, wasm.__wbindgen_export2); const len0 = WASM_VECTOR_LEN; const ptr1 = passStringToWasm0(agent_id, wasm.__wbindgen_export, wasm.__wbindgen_export2); const len1 = WASM_VECTOR_LEN; const ret = wasm.wasmnao_vote(this.__wbg_ptr, ptr0, len0, ptr1, len1, weight); return ret !== 0; } /** * Execute a proposal if consensus reached * @param {string} proposal_id * @returns {boolean} */ execute(proposal_id) { const ptr0 = passStringToWasm0(proposal_id, wasm.__wbindgen_export, wasm.__wbindgen_export2); const len0 = WASM_VECTOR_LEN; const ret = wasm.wasmnao_execute(this.__wbg_ptr, ptr0, len0); return ret !== 0; } /** * Create a new proposal, returns proposal ID * @param {string} action * @returns {string} */ propose(action) { let deferred2_0; let deferred2_1; try { const retptr = wasm.__wbindgen_add_to_stack_pointer(-16); const ptr0 = passStringToWasm0(action, wasm.__wbindgen_export, wasm.__wbindgen_export2); const len0 = WASM_VECTOR_LEN; wasm.wasmnao_propose(retptr, this.__wbg_ptr, ptr0, len0); var r0 = getDataViewMemory0().getInt32(retptr + 4 * 0, true); var r1 = getDataViewMemory0().getInt32(retptr + 4 * 1, true); deferred2_0 = r0; deferred2_1 = r1; return getStringFromWasm0(r0, r1); } finally { wasm.__wbindgen_add_to_stack_pointer(16); wasm.__wbindgen_export4(deferred2_0, deferred2_1, 1); } } /** * Get all data as JSON * @returns {any} */ toJson() { try { const retptr = wasm.__wbindgen_add_to_stack_pointer(-16); wasm.wasmnao_toJson(retptr, this.__wbg_ptr); 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); } return takeObject(r0); } finally { wasm.__wbindgen_add_to_stack_pointer(16); } } } if (Symbol.dispose) WasmNAO.prototype[Symbol.dispose] = WasmNAO.prototype.free; /** * WASM-bindgen wrapper for TimeCrystal */ export class WasmTimeCrystal { static __wrap(ptr) { ptr = ptr >>> 0; const obj = Object.create(WasmTimeCrystal.prototype); obj.__wbg_ptr = ptr; WasmTimeCrystalFinalization.register(obj, obj.__wbg_ptr, obj); return obj; } __destroy_into_raw() { const ptr = this.__wbg_ptr; this.__wbg_ptr = 0; WasmTimeCrystalFinalization.unregister(this); return ptr; } free() { const ptr = this.__destroy_into_raw(); wasm.__wbg_wasmtimecrystal_free(ptr, 0); } /** * Get robustness measure * @returns {number} */ robustness() { const ret = wasm.wasmtimecrystal_robustness(this.__wbg_ptr); return ret; } /** * Crystallize to establish periodic order */ crystallize() { wasm.wasmtimecrystal_crystallize(this.__wbg_ptr); } /** * Get phases as JSON array * @returns {any} */ phasesJson() { try { const retptr = wasm.__wbindgen_add_to_stack_pointer(-16); wasm.wasmtimecrystal_phasesJson(retptr, this.__wbg_ptr); 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); } return takeObject(r0); } finally { wasm.__wbindgen_add_to_stack_pointer(16); } } /** * Set driving strength * @param {number} strength */ setDriving(strength) { wasm.wasmtimecrystal_setDriving(this.__wbg_ptr, strength); } /** * Get current step * @returns {number} */ currentStep() { const ret = wasm.wasmtimecrystal_currentStep(this.__wbg_ptr); return ret >>> 0; } /** * Get current pattern type as string * @returns {string} */ patternType() { let deferred1_0; let deferred1_1; try { const retptr = wasm.__wbindgen_add_to_stack_pointer(-16); wasm.wasmtimecrystal_patternType(retptr, this.__wbg_ptr); var r0 = getDataViewMemory0().getInt32(retptr + 4 * 0, true); var r1 = getDataViewMemory0().getInt32(retptr + 4 * 1, true); deferred1_0 = r0; deferred1_1 = r1; return getStringFromWasm0(r0, r1); } finally { wasm.__wbindgen_add_to_stack_pointer(16); wasm.__wbindgen_export4(deferred1_0, deferred1_1, 1); } } /** * Set coupling strength * @param {number} coupling */ setCoupling(coupling) { wasm.wasmtimecrystal_setCoupling(this.__wbg_ptr, coupling); } /** * Set disorder level * @param {number} disorder */ setDisorder(disorder) { wasm.wasmtimecrystal_setDisorder(this.__wbg_ptr, disorder); } /** * Get signals as JSON array * @returns {any} */ signalsJson() { try { const retptr = wasm.__wbindgen_add_to_stack_pointer(-16); wasm.wasmtimecrystal_signalsJson(retptr, this.__wbg_ptr); 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); } return takeObject(r0); } finally { wasm.__wbindgen_add_to_stack_pointer(16); } } /** * Create a synchronized crystal * @param {number} n * @param {number} period_ms * @returns {WasmTimeCrystal} */ static synchronized(n, period_ms) { const ret = wasm.wasmtimecrystal_synchronized(n, period_ms); return WasmTimeCrystal.__wrap(ret); } /** * Get collective spin * @returns {number} */ collectiveSpin() { const ret = wasm.wasmtimecrystal_collectiveSpin(this.__wbg_ptr); return ret; } /** * Check if crystallized * @returns {boolean} */ isCrystallized() { const ret = wasm.wasmtimecrystal_isCrystallized(this.__wbg_ptr); return ret !== 0; } /** * Get order parameter (synchronization level) * @returns {number} */ orderParameter() { const ret = wasm.exoticecosystem_synchronization(this.__wbg_ptr); return ret; } /** * Get number of oscillators * @returns {number} */ oscillatorCount() { const ret = wasm.wasmtimecrystal_oscillatorCount(this.__wbg_ptr); return ret >>> 0; } /** * Create a new time crystal with n oscillators * @param {number} n * @param {number} period_ms */ constructor(n, period_ms) { const ret = wasm.wasmtimecrystal_new(n, period_ms); this.__wbg_ptr = ret >>> 0; WasmTimeCrystalFinalization.register(this, this.__wbg_ptr, this); return this; } /** * Advance one tick, returns coordination pattern as Uint8Array * @returns {Uint8Array} */ tick() { try { const retptr = wasm.__wbindgen_add_to_stack_pointer(-16); wasm.wasmtimecrystal_tick(retptr, this.__wbg_ptr); var r0 = getDataViewMemory0().getInt32(retptr + 4 * 0, true); var r1 = getDataViewMemory0().getInt32(retptr + 4 * 1, true); var v1 = getArrayU8FromWasm0(r0, r1).slice(); wasm.__wbindgen_export4(r0, r1 * 1, 1); return v1; } finally { wasm.__wbindgen_add_to_stack_pointer(16); } } /** * Apply perturbation * @param {number} strength */ perturb(strength) { wasm.wasmtimecrystal_perturb(this.__wbg_ptr, strength); } /** * Get period in milliseconds * @returns {number} */ periodMs() { const ret = wasm.wasmtimecrystal_periodMs(this.__wbg_ptr); return ret >>> 0; } } if (Symbol.dispose) WasmTimeCrystal.prototype[Symbol.dispose] = WasmTimeCrystal.prototype.free; /** * Get information about available exotic mechanisms * @returns {any} */ export function available_mechanisms() { const ret = wasm.available_mechanisms(); return takeObject(ret); } /** * Initialize the WASM module with panic hook */ export function init() { wasm.init(); } /** * Get the version of the ruvector-exotic-wasm crate * @returns {string} */ export function version() { let deferred1_0; let deferred1_1; try { const retptr = wasm.__wbindgen_add_to_stack_pointer(-16); wasm.version(retptr); var r0 = getDataViewMemory0().getInt32(retptr + 4 * 0, true); var r1 = getDataViewMemory0().getInt32(retptr + 4 * 1, true); deferred1_0 = r0; deferred1_1 = r1; return getStringFromWasm0(r0, r1); } finally { wasm.__wbindgen_add_to_stack_pointer(16); wasm.__wbindgen_export4(deferred1_0, deferred1_1, 1); } } const EXPECTED_RESPONSE_TYPES = new Set(['basic', 'cors', 'default']); 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 && EXPECTED_RESPONSE_TYPES.has(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 __wbg_get_imports() { const imports = {}; imports.wbg = {}; imports.wbg.__wbg_Error_52673b7de5a0ca89 = function(arg0, arg1) { const ret = Error(getStringFromWasm0(arg0, arg1)); return addHeapObject(ret); }; imports.wbg.__wbg_String_8f0eb39a4a4c2f66 = function(arg0, arg1) { const ret = String(getObject(arg1)); const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_export, wasm.__wbindgen_export2); const len1 = WASM_VECTOR_LEN; getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true); getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true); }; imports.wbg.__wbg___wbindgen_debug_string_adfb662ae34724b6 = function(arg0, arg1) { const ret = debugString(getObject(arg1)); const ptr1 = passStringToWasm0(ret, wasm.__wbindgen_export, wasm.__wbindgen_export2); const len1 = WASM_VECTOR_LEN; getDataViewMemory0().setInt32(arg0 + 4 * 1, len1, true); getDataViewMemory0().setInt32(arg0 + 4 * 0, ptr1, true); }; imports.wbg.__wbg___wbindgen_is_function_8d400b8b1af978cd = function(arg0) { const ret = typeof(getObject(arg0)) === 'function'; return ret; }; imports.wbg.__wbg___wbindgen_is_object_ce774f3490692386 = function(arg0) { const val = getObject(arg0); const ret = typeof(val) === 'object' && val !== null; return ret; }; imports.wbg.__wbg___wbindgen_is_string_704ef9c8fc131030 = function(arg0) { const ret = typeof(getObject(arg0)) === 'string'; return ret; }; imports.wbg.__wbg___wbindgen_is_undefined_f6b95eab589e0269 = function(arg0) { const ret = getObject(arg0) === undefined; return ret; }; imports.wbg.__wbg___wbindgen_throw_dd24417ed36fc46e = function(arg0, arg1) { throw new Error(getStringFromWasm0(arg0, arg1)); }; imports.wbg.__wbg_call_3020136f7a2d6e44 = function() { return handleError(function (arg0, arg1, arg2) { const ret = getObject(arg0).call(getObject(arg1), getObject(arg2)); return addHeapObject(ret); }, arguments) }; imports.wbg.__wbg_call_abb4ff46ce38be40 = function() { return handleError(function (arg0, arg1) { const ret = getObject(arg0).call(getObject(arg1)); return addHeapObject(ret); }, arguments) }; imports.wbg.__wbg_crypto_574e78ad8b13b65f = function(arg0) { const ret = getObject(arg0).crypto; return addHeapObject(ret); }; imports.wbg.__wbg_getRandomValues_b8f5dbd5f3995a9e = function() { return handleError(function (arg0, arg1) { getObject(arg0).getRandomValues(getObject(arg1)); }, arguments) }; imports.wbg.__wbg_length_22ac23eaec9d8053 = function(arg0) { const ret = getObject(arg0).length; return ret; }; imports.wbg.__wbg_msCrypto_a61aeb35a24c1329 = function(arg0) { const ret = getObject(arg0).msCrypto; return addHeapObject(ret); }; imports.wbg.__wbg_new_1ba21ce319a06297 = function() { const ret = new Object(); return addHeapObject(ret); }; imports.wbg.__wbg_new_25f239778d6112b9 = function() { const ret = new Array(); return addHeapObject(ret); }; imports.wbg.__wbg_new_b546ae120718850e = function() { const ret = new Map(); return addHeapObject(ret); }; imports.wbg.__wbg_new_no_args_cb138f77cf6151ee = function(arg0, arg1) { const ret = new Function(getStringFromWasm0(arg0, arg1)); return addHeapObject(ret); }; imports.wbg.__wbg_new_with_length_aa5eaf41d35235e5 = function(arg0) { const ret = new Uint8Array(arg0 >>> 0); return addHeapObject(ret); }; imports.wbg.__wbg_node_905d3e251edff8a2 = function(arg0) { const ret = getObject(arg0).node; return addHeapObject(ret); }; imports.wbg.__wbg_process_dc0fbacc7c1c06f7 = function(arg0) { const ret = getObject(arg0).process; return addHeapObject(ret); }; imports.wbg.__wbg_prototypesetcall_dfe9b766cdc1f1fd = function(arg0, arg1, arg2) { Uint8Array.prototype.set.call(getArrayU8FromWasm0(arg0, arg1), getObject(arg2)); }; imports.wbg.__wbg_randomFillSync_ac0988aba3254290 = function() { return handleError(function (arg0, arg1) { getObject(arg0).randomFillSync(takeObject(arg1)); }, arguments) }; imports.wbg.__wbg_require_60cc747a6bc5215a = function() { return handleError(function () { const ret = module.require; return addHeapObject(ret); }, arguments) }; imports.wbg.__wbg_set_3f1d0b984ed272ed = function(arg0, arg1, arg2) { getObject(arg0)[takeObject(arg1)] = takeObject(arg2); }; imports.wbg.__wbg_set_7df433eea03a5c14 = function(arg0, arg1, arg2) { getObject(arg0)[arg1 >>> 0] = takeObject(arg2); }; imports.wbg.__wbg_set_efaaf145b9377369 = function(arg0, arg1, arg2) { const ret = getObject(arg0).set(getObject(arg1), getObject(arg2)); return addHeapObject(ret); }; imports.wbg.__wbg_static_accessor_GLOBAL_769e6b65d6557335 = function() { const ret = typeof global === 'undefined' ? null : global; return isLikeNone(ret) ? 0 : addHeapObject(ret); }; imports.wbg.__wbg_static_accessor_GLOBAL_THIS_60cf02db4de8e1c1 = function() { const ret = typeof globalThis === 'undefined' ? null : globalThis; return isLikeNone(ret) ? 0 : addHeapObject(ret); }; imports.wbg.__wbg_static_accessor_SELF_08f5a74c69739274 = function() { const ret = typeof self === 'undefined' ? null : self; return isLikeNone(ret) ? 0 : addHeapObject(ret); }; imports.wbg.__wbg_static_accessor_WINDOW_a8924b26aa92d024 = function() { const ret = typeof window === 'undefined' ? null : window; return isLikeNone(ret) ? 0 : addHeapObject(ret); }; imports.wbg.__wbg_subarray_845f2f5bce7d061a = function(arg0, arg1, arg2) { const ret = getObject(arg0).subarray(arg1 >>> 0, arg2 >>> 0); return addHeapObject(ret); }; imports.wbg.__wbg_versions_c01dfd4722a88165 = function(arg0) { const ret = getObject(arg0).versions; return addHeapObject(ret); }; imports.wbg.__wbindgen_cast_2241b6af4c4b2941 = function(arg0, arg1) { // Cast intrinsic for `Ref(String) -> Externref`. const ret = getStringFromWasm0(arg0, arg1); return addHeapObject(ret); }; imports.wbg.__wbindgen_cast_4625c577ab2ec9ee = function(arg0) { // Cast intrinsic for `U64 -> Externref`. const ret = BigInt.asUintN(64, arg0); return addHeapObject(ret); }; imports.wbg.__wbindgen_cast_9ae0607507abb057 = function(arg0) { // Cast intrinsic for `I64 -> Externref`. const ret = arg0; return addHeapObject(ret); }; imports.wbg.__wbindgen_cast_cb9088102bce6b30 = function(arg0, arg1) { // Cast intrinsic for `Ref(Slice(U8)) -> NamedExternref("Uint8Array")`. const ret = getArrayU8FromWasm0(arg0, arg1); return addHeapObject(ret); }; imports.wbg.__wbindgen_cast_d6cd19b81560fd6e = function(arg0) { // Cast intrinsic for `F64 -> Externref`. const ret = arg0; return addHeapObject(ret); }; imports.wbg.__wbindgen_object_clone_ref = function(arg0) { const ret = getObject(arg0); return addHeapObject(ret); }; imports.wbg.__wbindgen_object_drop_ref = function(arg0) { takeObject(arg0); }; return imports; } function __wbg_finalize_init(instance, module) { wasm = instance.exports; __wbg_init.__wbindgen_wasm_module = module; cachedDataViewMemory0 = null; cachedUint8ArrayMemory0 = null; wasm.__wbindgen_start(); return wasm; } function initSync(module) { if (wasm !== undefined) return wasm; if (typeof 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 (typeof 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 (typeof module_or_path === 'undefined') { module_or_path = new URL('ruvector_exotic_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 }; export default __wbg_init;