/** Exported memory */ export declare const memory: WebAssembly.Memory; // Exported runtime interface export declare function __new(size: number, id: number): number; export declare function __pin(ptr: number): number; export declare function __unpin(ptr: number): void; export declare function __collect(): void; export declare const __rtti_base: number; /** * assembly/core/math/generatePrimes * @param n `i32` * @returns `~lib/array/Array` */ export declare function generatePrimes(n: number): Array; /** * assembly/core/serialization/escapeJSON * @param str `~lib/string/String` * @returns `~lib/string/String` */ export declare function escapeJSON(str: string): string; /** assembly/core/constants/PHI */ export declare const PHI: { /** @type `f64` */ get value(): number }; /** assembly/core/constants/E */ export declare const E: { /** @type `f64` */ get value(): number }; /** assembly/core/constants/TWO_PI */ export declare const TWO_PI: { /** @type `f64` */ get value(): number }; /** assembly/core/constants/MERSENNE_PRIME_31 */ export declare const MERSENNE_PRIME_31: { /** @type `u64` */ get value(): bigint }; /** * assembly/core/constants/generateUniqueId * @param prefix `~lib/string/String` * @returns `~lib/string/String` */ export declare function generateUniqueId(prefix: string): string; /** * assembly/core/constants/degreesToRadians * @param degrees `f64` * @returns `f64` */ export declare function degreesToRadians(degrees: number): number; /** * assembly/core/constants/radiansToDegrees * @param radians `f64` * @returns `f64` */ export declare function radiansToDegrees(radians: number): number; /** * assembly/examples/comprehensive-benchmark-suite/runFullValidationSuite * @returns `~lib/string/String` */ export declare function runFullValidationSuite(): string; /** * assembly/examples/test-comprehensive-benchmark-suite/runBenchmarkTests * @returns `assembly/examples/test-comprehensive-benchmark-suite/BenchmarkTestSuite` */ export declare function runBenchmarkTests(): __Internref224; /** assembly/smf/SMF_CONFIG */ export declare const SMF_CONFIG: { /** @type `assembly/smf/SMFConfig` */ get value(): __Record181 }; /** assembly/smf/SEMANTIC_AXES */ export declare const SEMANTIC_AXES: { /** @type `~lib/array/Array<~lib/string/String>` */ get value(): Array }; /** assembly/smf/AXIS_COHERENCE */ export declare const AXIS_COHERENCE: { /** @type `i32` */ get value(): number }; /** assembly/smf/AXIS_IDENTITY */ export declare const AXIS_IDENTITY: { /** @type `i32` */ get value(): number }; /** assembly/smf/AXIS_DUALITY */ export declare const AXIS_DUALITY: { /** @type `i32` */ get value(): number }; /** assembly/smf/AXIS_STRUCTURE */ export declare const AXIS_STRUCTURE: { /** @type `i32` */ get value(): number }; /** assembly/smf/AXIS_CHANGE */ export declare const AXIS_CHANGE: { /** @type `i32` */ get value(): number }; /** assembly/smf/AXIS_LIFE */ export declare const AXIS_LIFE: { /** @type `i32` */ get value(): number }; /** assembly/smf/AXIS_HARMONY */ export declare const AXIS_HARMONY: { /** @type `i32` */ get value(): number }; /** assembly/smf/AXIS_WISDOM */ export declare const AXIS_WISDOM: { /** @type `i32` */ get value(): number }; /** assembly/smf/AXIS_INFINITY */ export declare const AXIS_INFINITY: { /** @type `i32` */ get value(): number }; /** assembly/smf/AXIS_CREATION */ export declare const AXIS_CREATION: { /** @type `i32` */ get value(): number }; /** assembly/smf/AXIS_TRUTH */ export declare const AXIS_TRUTH: { /** @type `i32` */ get value(): number }; /** assembly/smf/AXIS_LOVE */ export declare const AXIS_LOVE: { /** @type `i32` */ get value(): number }; /** assembly/smf/AXIS_POWER */ export declare const AXIS_POWER: { /** @type `i32` */ get value(): number }; /** assembly/smf/AXIS_TIME */ export declare const AXIS_TIME: { /** @type `i32` */ get value(): number }; /** assembly/smf/AXIS_SPACE */ export declare const AXIS_SPACE: { /** @type `i32` */ get value(): number }; /** assembly/smf/AXIS_CONSCIOUSNESS */ export declare const AXIS_CONSCIOUSNESS: { /** @type `i32` */ get value(): number }; /** * assembly/smf/createSMFFromValues * @param values `~lib/typedarray/Float64Array` * @returns `assembly/smf/SedenionMemoryField` */ export declare function createSMFFromValues(values: Float64Array): __Internref183; /** * assembly/smf/createSMFFromText * @param text `~lib/string/String` * @returns `assembly/smf/SedenionMemoryField` */ export declare function createSMFFromText(text: string): __Internref183; /** * assembly/state/createSnapshot * @param timestamp `i64` * @param coherence `f64` * @param entropy `f64` * @param numOscillators `i32` * @returns `assembly/state/StateSnapshot` */ export declare function createSnapshot(timestamp: bigint, coherence: number, entropy: number, numOscillators: number): __Internref193; /** * assembly/sentient/createSentientCore * @param numPrimes `i32` */ export declare function createSentientCore(numPrimes: number): void; /** * assembly/sentient/startSentientCore * @param timestamp `i64` */ export declare function startSentientCore(timestamp: bigint): void; /** * assembly/sentient/stopSentientCore */ export declare function stopSentientCore(): void; /** * assembly/sentient/tickSentientCore * @param dt `f64` * @param timestamp `i64` * @returns `i32` */ export declare function tickSentientCore(dt: number, timestamp: bigint): number; /** * assembly/sentient/getSentientCoherence * @returns `f64` */ export declare function getSentientCoherence(): number; /** * assembly/sentient/getSentientEntropy * @returns `f64` */ export declare function getSentientEntropy(): number; /** * assembly/sentient/getSentientSMFAxis * @param index `i32` * @returns `f64` */ export declare function getSentientSMFAxis(index: number): number; /** * assembly/sentient/getSentientPhase * @param index `i32` * @returns `f64` */ export declare function getSentientPhase(index: number): number; /** * assembly/sentient/getSentientAmplitude * @param index `i32` * @returns `f64` */ export declare function getSentientAmplitude(index: number): number; /** * assembly/sentient/exciteSentientOscillator * @param index `i32` * @param amplitude `f64` */ export declare function exciteSentientOscillator(index: number, amplitude: number): void; /** * assembly/sentient/resetSentientCore */ export declare function resetSentientCore(): void; /** * assembly/sentient/getSentientState * @returns `~lib/string/String` */ export declare function getSentientState(): string; /** assembly/discrete-observer/DISCRETE_CONFIG */ export declare const DISCRETE_CONFIG: { /** @type `assembly/discrete-observer/DiscreteObserverConfig` */ get value(): __Record199 }; /** assembly/discrete-observer/DEFAULT_PRIMES */ export declare const DEFAULT_PRIMES: { /** @type `~lib/array/Array` */ get value(): Array }; /** assembly/discrete-observer/ENOCHIAN_PRIMES */ export declare const ENOCHIAN_PRIMES: { /** @type `~lib/array/Array` */ get value(): Array }; /** * assembly/discrete-observer/computeDiscreteCoupling * @param state `assembly/discrete-observer/DiscreteObserverState` * @param i `i32` * @returns `i32` */ export declare function computeDiscreteCoupling(state: __Internref201, i: number): number; /** * assembly/discrete-observer/computeHistogramCoherence * @param state `assembly/discrete-observer/DiscreteObserverState` * @returns `f64` */ export declare function computeHistogramCoherence(state: __Internref201): number; /** * assembly/discrete-observer/computeWindowedStability * @param state `assembly/discrete-observer/DiscreteObserverState` * @returns `f64` */ export declare function computeWindowedStability(state: __Internref201): number; /** * assembly/discrete-observer/getActiveIndices * @param state `assembly/discrete-observer/DiscreteObserverState` * @returns `~lib/typedarray/Int32Array` */ export declare function getActiveIndices(state: __Internref201): Int32Array; /** * assembly/discrete-observer/getActiveIndicesForLearning * @param state `assembly/discrete-observer/DiscreteObserverState` * @returns `~lib/typedarray/Int32Array` */ export declare function getActiveIndicesForLearning(state: __Internref201): Int32Array; /** * assembly/discrete-observer/primeToSMFAxis * @param prime `i32` * @returns `i32` */ export declare function primeToSMFAxis(prime: number): number; /** * assembly/discrete-observer/compositionVector * @param u `i32` * @param v `i32` * @returns `~lib/typedarray/Int8Array` */ export declare function compositionVector(u: number, v: number): Int8Array; /** * assembly/discrete-observer/normalizeSMF * @param state `assembly/discrete-observer/DiscreteObserverState` */ export declare function normalizeSMF(state: __Internref201): void; /** * assembly/discrete-observer/computeSmfEntropy * @param state `assembly/discrete-observer/DiscreteObserverState` * @returns `f64` */ export declare function computeSmfEntropy(state: __Internref201): number; /** * assembly/discrete-observer/updateSMF * @param state `assembly/discrete-observer/DiscreteObserverState` * @param activeIndices `~lib/typedarray/Int32Array` */ export declare function updateSMF(state: __Internref201, activeIndices: Int32Array): void; /** * assembly/discrete-observer/applyHebbianLearning * @param state `assembly/discrete-observer/DiscreteObserverState` * @param activeIndices `~lib/typedarray/Int32Array` * @returns `bool` */ export declare function applyHebbianLearning(state: __Internref201, activeIndices: Int32Array): boolean; /** * assembly/discrete-observer/decayLearnedCoupling * @param state `assembly/discrete-observer/DiscreteObserverState` * @param rate `f64` */ export declare function decayLearnedCoupling(state: __Internref201, rate?: number): void; /** * assembly/discrete-observer/getLearnedCoupling * @param state `assembly/discrete-observer/DiscreteObserverState` * @param i `i32` * @param j `i32` * @returns `f32` */ export declare function getLearnedCoupling(state: __Internref201, i: number, j: number): number; /** * assembly/discrete-observer/getLearnedCouplingStrength * @param state `assembly/discrete-observer/DiscreteObserverState` * @returns `f64` */ export declare function getLearnedCouplingStrength(state: __Internref201): number; /** * assembly/discrete-observer/detectLockup * @param state `assembly/discrete-observer/DiscreteObserverState` * @param dC `f64` * @returns `bool` */ export declare function detectLockup(state: __Internref201, dC: number): boolean; /** * assembly/discrete-observer/applyControlledTunneling * @param state `assembly/discrete-observer/DiscreteObserverState` */ export declare function applyControlledTunneling(state: __Internref201): void; /** * assembly/discrete-observer/discreteStep * @param state `assembly/discrete-observer/DiscreteObserverState` * @param driveInput `~lib/typedarray/Float64Array | null` * @param plasticity `bool` * @returns `assembly/discrete-observer/DiscreteStepResult` */ export declare function discreteStep(state: __Internref201, driveInput?: Float64Array | null, plasticity?: boolean): __Internref231; /** * assembly/discrete-observer/dampenAll * @param state `assembly/discrete-observer/DiscreteObserverState` */ export declare function dampenAll(state: __Internref201): void; /** * assembly/discrete-observer/randomizeCoupling * @param state `assembly/discrete-observer/DiscreteObserverState` */ export declare function randomizeCoupling(state: __Internref201): void; /** * assembly/discrete-observer/resetCoupling * @param state `assembly/discrete-observer/DiscreteObserverState` */ export declare function resetCoupling(state: __Internref201): void; /** * assembly/discrete-observer/getStateMetrics * @param state `assembly/discrete-observer/DiscreteObserverState` * @returns `~lib/typedarray/Float64Array` */ export declare function getStateMetrics(state: __Internref201): Float64Array; /** * assembly/discrete-observer/getPhases * @param state `assembly/discrete-observer/DiscreteObserverState` * @returns `~lib/typedarray/Int32Array` */ export declare function getPhases(state: __Internref201): Int32Array; /** * assembly/discrete-observer/getAmplitudes * @param state `assembly/discrete-observer/DiscreteObserverState` * @returns `~lib/typedarray/Float64Array` */ export declare function getAmplitudes(state: __Internref201): Float64Array; /** * assembly/discrete-observer/getSMF * @param state `assembly/discrete-observer/DiscreteObserverState` * @returns `~lib/typedarray/Int32Array` */ export declare function getSMF(state: __Internref201): Int32Array; /** * assembly/discrete-observer/getWeights * @param state `assembly/discrete-observer/DiscreteObserverState` * @returns `~lib/typedarray/Int32Array` */ export declare function getWeights(state: __Internref201): Int32Array; /** * assembly/discrete-observer/isLockedUp * @param state `assembly/discrete-observer/DiscreteObserverState` * @returns `bool` */ export declare function isLockedUp(state: __Internref201): boolean; /** * assembly/discrete-observer/boostPrime * @param state `assembly/discrete-observer/DiscreteObserverState` * @param prime `i32` */ export declare function boostPrime(state: __Internref201, prime: number): void; /** * assembly/discrete-observer/boostIndex * @param state `assembly/discrete-observer/DiscreteObserverState` * @param index `i32` */ export declare function boostIndex(state: __Internref201, index: number): void; /** * assembly/discrete-observer/createDiscreteObserver * @param numPrimes `i32` */ export declare function createDiscreteObserver(numPrimes: number): void; /** * assembly/discrete-observer/discreteObserverStep * @param plasticity `i32` * @returns `i32` */ export declare function discreteObserverStep(plasticity: number): number; /** * assembly/discrete-observer/discreteObserverBoost * @param index `i32` */ export declare function discreteObserverBoost(index: number): void; /** * assembly/discrete-observer/discreteObserverGetCoherence * @returns `f64` */ export declare function discreteObserverGetCoherence(): number; /** * assembly/discrete-observer/discreteObserverGetPhase * @param index `i32` * @returns `i32` */ export declare function discreteObserverGetPhase(index: number): number; /** * assembly/discrete-observer/discreteObserverGetAmplitude * @param index `i32` * @returns `f64` */ export declare function discreteObserverGetAmplitude(index: number): number; /** * assembly/discrete-observer/discreteObserverGetSMFAxis * @param index `i32` * @returns `i32` */ export declare function discreteObserverGetSMFAxis(index: number): number; /** * assembly/discrete-observer/discreteObserverGetTickCount * @returns `i64` */ export declare function discreteObserverGetTickCount(): bigint; /** * assembly/discrete-observer/discreteObserverGetEntropy * @returns `f64` */ export declare function discreteObserverGetEntropy(): number; /** * assembly/discrete-observer/discreteObserverReset */ export declare function discreteObserverReset(): void; /** * assembly/discrete-observer/discreteObserverGetCount * @returns `i32` */ export declare function discreteObserverGetCount(): number; /** * assembly/discrete-observer/discreteObserverGetState * @returns `~lib/string/String` */ export declare function discreteObserverGetState(): string; /** * assembly/discrete-observer/discreteObserverGetLearnedCouplingStrength * @returns `f64` */ export declare function discreteObserverGetLearnedCouplingStrength(): number; /** * assembly/discrete-observer/discreteObserverGetLearnedCoupling * @param i `i32` * @param j `i32` * @returns `f32` */ export declare function discreteObserverGetLearnedCoupling(i: number, j: number): number; /** * assembly/discrete-observer/discreteObserverApplyHebbianLearning * @returns `bool` */ export declare function discreteObserverApplyHebbianLearning(): boolean; /** * assembly/discrete-observer/discreteObserverDecayLearnedCoupling * @param rate `f64` */ export declare function discreteObserverDecayLearnedCoupling(rate: number): void; /** assembly/resolang/currentNode */ export declare const currentNode: { /** @type `assembly/resolang/EntangledNode | null` */ get value(): __Internref4 | null; set value(value: __Internref4 | null); }; /** * assembly/resolang/setCurrentNode * @param node `assembly/resolang/EntangledNode | null` */ export declare function setCurrentNode(node: __Internref4 | null): void; /** assembly/resolang/PI */ export declare const PI: { /** @type `f64` */ get value(): number }; /** * assembly/resolang/createResonantFragment * @param pattern `~lib/string/String` * @param spatialEntropy `f64` * @param angularPosition `f64` * @returns `assembly/resolang/ResonantFragment` */ export declare function createResonantFragment(pattern: string, spatialEntropy?: number, angularPosition?: number): __Internref86; /** * assembly/resolang/generateEntangledNode * @param p1 `u32` * @param p2 `u32` * @param p3 `u32` * @returns `assembly/resolang/EntangledNode` */ export declare function generateEntangledNode(p1: number, p2: number, p3: number): __Internref4; /** * assembly/resolang/createAttractor * @param symbol `~lib/string/String` * @param coherence `f64` * @returns `assembly/resolang/Attractor` */ export declare function createAttractor(symbol: string, coherence?: number): __Internref232; /** * assembly/resolang/resonantFragmentToJSON * @param fragment `assembly/resolang/ResonantFragment` * @returns `~lib/string/String` */ export declare function resonantFragmentToJSON(fragment: __Internref86): string; /** * assembly/operators/tensor * @param fragmentA `assembly/resolang/ResonantFragment` * @param fragmentB `assembly/resolang/ResonantFragment` * @returns `assembly/resolang/ResonantFragment` */ export declare function tensor(fragmentA: __Internref86, fragmentB: __Internref86): __Internref86; /** * assembly/operators/collapse * @param fragment `assembly/resolang/ResonantFragment` * @returns `assembly/resolang/ResonantFragment` */ export declare function collapse(fragment: __Internref86): __Internref86; /** * assembly/operators/rotatePhase * @param node `assembly/resolang/EntangledNode` * @param phaseShift `f64` */ export declare function rotatePhase(node: __Internref4, phaseShift: number): void; /** * assembly/operators/linkEntanglement * @param nodeA `assembly/resolang/EntangledNode` * @param nodeB `assembly/resolang/EntangledNode` */ export declare function linkEntanglement(nodeA: __Internref4, nodeB: __Internref4): void; /** * assembly/operators/route * @param source `assembly/resolang/EntangledNode` * @param target `assembly/resolang/EntangledNode` * @param viaNodes `~lib/array/Array` * @returns `bool` */ export declare function route(source: __Internref4, target: __Internref4, viaNodes: Array<__Internref4>): boolean; /** * assembly/operators/coherence * @param node `assembly/resolang/EntangledNode` * @returns `f64` */ export declare function coherence(node: __Internref4): number; /** * assembly/operators/entropy * @param fragment `assembly/resolang/ResonantFragment` * @returns `f64` */ export declare function entropy(fragment: __Internref86): number; /** * assembly/functionalBlocks/stabilize * @param node `assembly/resolang/EntangledNode` * @returns `bool` */ export declare function stabilize(node: __Internref4): boolean; /** * assembly/functionalBlocks/teleport * @param mem `assembly/resolang/ResonantFragment` * @param to `assembly/resolang/EntangledNode` * @returns `bool` */ export declare function teleport(mem: __Internref86, to: __Internref4): boolean; /** * assembly/functionalBlocks/entangled * @param nodeA `assembly/resolang/EntangledNode` * @param nodeB `assembly/resolang/EntangledNode` * @returns `bool` */ export declare function entangled(nodeA: __Internref4, nodeB: __Internref4): boolean; /** * assembly/functionalBlocks/observe * @param remote `assembly/resolang/EntangledNode` * @returns `~lib/array/Array` */ export declare function observe(remote: __Internref4): Array; /** * assembly/quaternion-entanglement/transmitQuaternionicMessage * @param sender `assembly/quaternion-entanglement/QuaternionicAgent` * @param receiver `assembly/quaternion-entanglement/QuaternionicAgent` * @param message `~lib/string/String` * @param synchronizer `assembly/quaternion-entanglement/QuaternionicSynchronizer` * @returns `bool` */ export declare function transmitQuaternionicMessage(sender: __Internref235, receiver: __Internref235, message: string, synchronizer: __Internref241): boolean; /** * assembly/utils/entropyRate * @param phaseRing `~lib/array/Array` * @returns `f64` */ export declare function entropyRate(phaseRing: Array): number; /** * assembly/utils/align * @param phaseRing `~lib/array/Array` * @returns `~lib/array/Array` */ export declare function align(phaseRing: Array): Array; /** * assembly/utils/generateSymbol * @param primes `~lib/array/Array` * @returns `~lib/string/String` */ export declare function generateSymbol(primes: Array): string; /** * assembly/utils/toFixed * @param value `f64` * @param decimals `i32` * @returns `~lib/string/String` */ export declare function toFixed(value: number, decimals?: number): string; /** * assembly/entropy-viz/initializeEntropyViz */ export declare function initializeEntropyViz(): void; /** * assembly/entropy-viz/getGlobalSampler * @returns `assembly/entropy-viz/EntropyFieldSampler` */ export declare function getGlobalSampler(): __Internref9; /** * assembly/entropy-viz/getGlobalTracker * @returns `assembly/entropy-viz/EntropyEvolutionTracker` */ export declare function getGlobalTracker(): __Internref13; /** * assembly/entropy-viz/exportEntropyData * @returns `~lib/string/String` */ export declare function exportEntropyData(): string; /** * assembly/entropy-viz/exportEntropyHistory * @returns `~lib/string/String` */ export declare function exportEntropyHistory(): string; /** * assembly/core/validation/validateString * @returns `assembly/core/validation/StringValidationBuilder` */ export declare function validateString(): __Internref244; /** * assembly/core/validation/validateNumber * @returns `assembly/core/validation/NumberValidationBuilder` */ export declare function validateNumber(): __Internref248; /** * assembly/core/validation/validateObject * @returns `assembly/core/validation/ObjectValidator` */ export declare function validateObject(): __Internref252; /** * assembly/core/math-optimized/modExpOptimized * @param base `u64` * @param exp `u64` * @param mod `u64` * @returns `u64` */ export declare function modExpOptimized(base: bigint, exp: bigint, mod: bigint): bigint; /** * assembly/core/math-optimized/modInverseOptimized * @param a `u64` * @param m `u64` * @returns `u64` */ export declare function modInverseOptimized(a: bigint, m: bigint): bigint; /** * assembly/core/math-optimized/simdArrayMul * @param a `~lib/typedarray/Float64Array` * @param b `~lib/typedarray/Float64Array` * @param result `~lib/typedarray/Float64Array` */ export declare function simdArrayMul(a: Float64Array, b: Float64Array, result: Float64Array): void; /** * assembly/core/math-optimized/simdArrayAdd * @param a `~lib/typedarray/Float64Array` * @param b `~lib/typedarray/Float64Array` * @param result `~lib/typedarray/Float64Array` */ export declare function simdArrayAdd(a: Float64Array, b: Float64Array, result: Float64Array): void; /** * assembly/core/math-optimized/simdDotProduct * @param a `~lib/typedarray/Float64Array` * @param b `~lib/typedarray/Float64Array` * @returns `f64` */ export declare function simdDotProduct(a: Float64Array, b: Float64Array): number; /** * assembly/core/math-optimized/getPrimeCacheStats * @returns `~lib/string/String` */ export declare function getPrimeCacheStats(): string; /** * assembly/core/math-optimized/resetMathOptimizations */ export declare function resetMathOptimizations(): void; /** * assembly/core/math-optimized/getMathPerformanceReport * @returns `~lib/string/String` */ export declare function getMathPerformanceReport(): string; /** * assembly/core/math-optimized/validateMathOperations * @returns `bool` */ export declare function validateMathOperations(): boolean; /** * assembly/core/math-optimized/benchmarkMathOperations * @returns `~lib/string/String` */ export declare function benchmarkMathOperations(): string; /** * assembly/core/math-optimized/testMathOperations * @returns `bool` */ export declare function testMathOperations(): boolean; /** assembly/core/math-cache/SMALL_PRIMES */ export declare const SMALL_PRIMES: { /** @type `~lib/array/Array` */ get value(): Array }; /** assembly/core/math-cache/primeCache */ export declare const primeCache: { /** @type `assembly/core/math-cache/PrimeCache` */ get value(): __Internref30 }; /** * assembly/core/math-extended-gcd/extendedGCD * @param a `i64` * @param b `i64` * @returns `assembly/core/math-extended-gcd/ExtendedGCDResult` */ export declare function extendedGCD(a: bigint, b: bigint): __Internref255; /** * assembly/core/math-extended-gcd/modInverse * @param a `u64` * @param m `u64` * @returns `u64` */ export declare function modInverse(a: bigint, m: bigint): bigint; /** assembly/core/math-miller-rabin/MILLER_RABIN_WITNESSES_32 */ export declare const MILLER_RABIN_WITNESSES_32: { /** @type `~lib/array/Array` */ get value(): Array }; /** assembly/core/math-miller-rabin/MILLER_RABIN_WITNESSES_64 */ export declare const MILLER_RABIN_WITNESSES_64: { /** @type `~lib/array/Array` */ get value(): Array }; /** * assembly/core/math-miller-rabin/millerRabinDeterministic32 * @param n `u32` * @returns `bool` */ export declare function millerRabinDeterministic32(n: number): boolean; /** * assembly/core/math-miller-rabin/millerRabinDeterministic64 * @param n `u64` * @returns `bool` */ export declare function millerRabinDeterministic64(n: bigint): boolean; /** * assembly/core/math-montgomery/modExpMontgomery * @param base `u64` * @param exp `u64` * @param mod `u64` * @returns `u64` */ export declare function modExpMontgomery(base: bigint, exp: bigint, mod: bigint): bigint; /** * assembly/core/math-operations/mulMod * @param a `u64` * @param b `u64` * @param mod `u64` * @returns `u64` */ export declare function mulMod(a: bigint, b: bigint, mod: bigint): bigint; /** * assembly/core/math-operations/addMod * @param a `u64` * @param b `u64` * @param mod `u64` * @returns `u64` */ export declare function addMod(a: bigint, b: bigint, mod: bigint): bigint; /** * assembly/core/math-operations/modExp * @param base `u64` * @param exp `u64` * @param mod `u64` * @returns `u64` */ export declare function modExp(base: bigint, exp: bigint, mod: bigint): bigint; /** * assembly/core/math-operations/arrayMul * @param a `~lib/typedarray/Float64Array` * @param b `~lib/typedarray/Float64Array` * @param result `~lib/typedarray/Float64Array` */ export declare function arrayMul(a: Float64Array, b: Float64Array, result: Float64Array): void; /** * assembly/core/math-operations/arrayAdd * @param a `~lib/typedarray/Float64Array` * @param b `~lib/typedarray/Float64Array` * @param result `~lib/typedarray/Float64Array` */ export declare function arrayAdd(a: Float64Array, b: Float64Array, result: Float64Array): void; /** * assembly/core/math-operations/dotProduct * @param a `~lib/typedarray/Float64Array` * @param b `~lib/typedarray/Float64Array` * @returns `f64` */ export declare function dotProduct(a: Float64Array, b: Float64Array): number; /** * assembly/core/math-operations/vectorMagnitude * @param v `~lib/typedarray/Float64Array` * @returns `f64` */ export declare function vectorMagnitude(v: Float64Array): number; /** * assembly/core/math-operations/normalizeVector * @param v `~lib/typedarray/Float64Array` * @param result `~lib/typedarray/Float64Array` */ export declare function normalizeVector(v: Float64Array, result: Float64Array): void; /** * assembly/core/math-operations/lerp * @param a `f64` * @param b `f64` * @param t `f64` * @returns `f64` */ export declare function lerp(a: number, b: number, t: number): number; /** * assembly/core/math-operations/clamp * @param value `f64` * @param min `f64` * @param max `f64` * @returns `f64` */ export declare function clamp(value: number, min: number, max: number): number; /** * assembly/core/math-operations/fastInvSqrt * @param x `f64` * @returns `f64` */ export declare function fastInvSqrt(x: number): number; /** * assembly/core/math-operations/approxEqual * @param a `f64` * @param b `f64` * @param epsilon `f64` * @returns `bool` */ export declare function approxEqual(a: number, b: number, epsilon?: number): boolean; /** * assembly/core/math-operations/safeDivide * @param a `f64` * @param b `f64` * @returns `f64` */ export declare function safeDivide(a: number, b: number): number; /** * assembly/core/math-operations/gcd * @param a `u64` * @param b `u64` * @returns `u64` */ export declare function gcd(a: bigint, b: bigint): bigint; /** * assembly/core/math-operations/lcm * @param a `u64` * @param b `u64` * @returns `u64` */ export declare function lcm(a: bigint, b: bigint): bigint; /** * assembly/core/math-operations/isPerfectSquare * @param n `u64` * @returns `bool` */ export declare function isPerfectSquare(n: bigint): boolean; /** * assembly/core/math-operations/isqrt * @param n `u64` * @returns `u64` */ export declare function isqrt(n: bigint): bigint; /** assembly/core/math-performance/globalMathProfiler */ export declare const globalMathProfiler: { /** @type `assembly/core/math-performance/MathProfiler` */ get value(): __Internref55 }; /** * assembly/core/math-performance/profileMathOperation * @param name `~lib/string/String` * @param operation `() => void` */ export declare function profileMathOperation(name: string, operation: __Internref327): void; /** assembly/core/math-performance/globalMathMemoryTracker */ export declare const globalMathMemoryTracker: { /** @type `assembly/core/math-performance/MathMemoryTracker` */ get value(): __Internref59 }; /** * assembly/core/math-primes/isPrimeOptimized * @param n `u64` * @returns `bool` */ export declare function isPrimeOptimized(n: bigint): boolean; /** * assembly/core/math-primes/generatePrimeOptimized * @param minBits `i32` * @param maxBits `i32` * @returns `u64` */ export declare function generatePrimeOptimized(minBits: number, maxBits: number): bigint; /** * assembly/core/math-primes/generatePrimesOptimized * @param n `i32` * @returns `~lib/array/Array` */ export declare function generatePrimesOptimized(n: number): Array; /** * assembly/core/math-primes/isGaussianPrime * @param real `f64` * @param imag `f64` * @returns `bool` */ export declare function isGaussianPrime(real: number, imag: number): boolean; /** * assembly/core/math-primes/sieveOfEratosthenes * @param n `u32` * @returns `~lib/array/Array` */ export declare function sieveOfEratosthenes(n: number): Array; /** * assembly/core/math-primes/nextPrime * @param n `u64` * @returns `u64` */ export declare function nextPrime(n: bigint): bigint; /** * assembly/core/math-primes/previousPrime * @param n `u64` * @returns `u64` */ export declare function previousPrime(n: bigint): bigint; /** * assembly/identity/index/exampleUsage */ export declare function exampleUsage(): void; /** assembly/identity/interfaces/IdentityType */ export declare enum IdentityType { /** @type `i32` */ SELF_SOVEREIGN, /** @type `i32` */ MANAGED, /** @type `i32` */ SYSTEM, } /** assembly/identity/interfaces/KYCLevel */ export declare enum KYCLevel { /** @type `i32` */ NONE, /** @type `i32` */ BASIC, /** @type `i32` */ ENHANCED, /** @type `i32` */ FULL, } /** assembly/identity/interfaces/KYCVerificationStatus */ export declare enum KYCVerificationStatus { /** @type `i32` */ PENDING, /** @type `i32` */ IN_PROGRESS, /** @type `i32` */ COMPLETED, /** @type `i32` */ FAILED, /** @type `i32` */ EXPIRED, } /** assembly/identity/interfaces/PermissionScope */ export declare enum PermissionScope { /** @type `i32` */ GLOBAL, /** @type `i32` */ DOMAIN, /** @type `i32` */ OBJECT, } /** assembly/identity/interfaces/AuditAction */ export declare enum AuditAction { /** @type `i32` */ CREATE, /** @type `i32` */ UPDATE, /** @type `i32` */ DELETE, /** @type `i32` */ TRANSFER, /** @type `i32` */ GRANT_PERMISSION, /** @type `i32` */ REVOKE_PERMISSION, /** @type `i32` */ ADD_MEMBER, /** @type `i32` */ REMOVE_MEMBER, /** @type `i32` */ VERIFY_KYC, /** @type `i32` */ AUTHENTICATE, /** @type `i32` */ DEACTIVATE, /** @type `i32` */ REACTIVATE, } /** assembly/identity/interfaces/AuditResult */ export declare enum AuditResult { /** @type `i32` */ SUCCESS, /** @type `i32` */ FAILURE, /** @type `i32` */ PARTIAL, } /** assembly/identity/interfaces/RecoveryMethod */ export declare enum RecoveryMethod { /** @type `i32` */ MULTI_SIGNATURE, /** @type `i32` */ SOCIAL_RECOVERY, /** @type `i32` */ TIME_LOCKED, /** @type `i32` */ HARDWARE_KEY, } /** assembly/identity/prime-mapping/globalPrimeMapper */ export declare const globalPrimeMapper: { /** @type `assembly/identity/prime-mapping/IdentityPrimeMapper` */ get value(): __Internref74 }; /** assembly/identity/ownership-transfer/TransferType */ export declare enum TransferType { /** @type `i32` */ DOMAIN, /** @type `i32` */ OBJECT, } /** assembly/identity/ownership-transfer/TransferStatus */ export declare enum TransferStatus { /** @type `i32` */ PENDING, /** @type `i32` */ APPROVED, /** @type `i32` */ REJECTED, /** @type `i32` */ CANCELLED, /** @type `i32` */ EXPIRED, /** @type `i32` */ COMPLETED, } /** assembly/identity/ownership-transfer/globalTransferManager */ export declare const globalTransferManager: { /** @type `assembly/identity/ownership-transfer/OwnershipTransferManager` */ get value(): __Internref77 }; /** assembly/identity/audit-trail/AuditEventType */ export declare enum AuditEventType { /** @type `i32` */ IDENTITY_CREATED, /** @type `i32` */ IDENTITY_UPDATED, /** @type `i32` */ IDENTITY_KYC_CHANGED, /** @type `i32` */ IDENTITY_DEACTIVATED, /** @type `i32` */ IDENTITY_REACTIVATED, /** @type `i32` */ DOMAIN_CREATED, /** @type `i32` */ DOMAIN_UPDATED, /** @type `i32` */ DOMAIN_MEMBER_ADDED, /** @type `i32` */ DOMAIN_MEMBER_REMOVED, /** @type `i32` */ DOMAIN_OWNERSHIP_TRANSFERRED, /** @type `i32` */ OBJECT_CREATED, /** @type `i32` */ OBJECT_UPDATED, /** @type `i32` */ OBJECT_TRANSFERRED, /** @type `i32` */ OBJECT_DESTROYED, /** @type `i32` */ PERMISSION_GRANTED, /** @type `i32` */ PERMISSION_REVOKED, /** @type `i32` */ ROLE_ASSIGNED, /** @type `i32` */ ROLE_REMOVED, /** @type `i32` */ AUTH_LOGIN, /** @type `i32` */ AUTH_LOGOUT, /** @type `i32` */ AUTH_FAILED, /** @type `i32` */ AUTH_SESSION_EXPIRED, /** @type `i32` */ NODE_CONNECTED, /** @type `i32` */ NODE_DISCONNECTED, /** @type `i32` */ SYNC_STARTED, /** @type `i32` */ SYNC_COMPLETED, /** @type `i32` */ SYNC_FAILED, } /** assembly/identity/audit-trail/AuditSeverity */ export declare enum AuditSeverity { /** @type `i32` */ INFO, /** @type `i32` */ WARNING, /** @type `i32` */ ERROR, /** @type `i32` */ CRITICAL, } /** assembly/identity/audit-trail/globalAuditTrail */ export declare const globalAuditTrail: { /** @type `assembly/identity/audit-trail/AuditTrailManager` */ get value(): __Internref60 }; /** assembly/identity/resolang-processor/globalResoLangProcessor */ export declare const globalResoLangProcessor: { /** @type `assembly/identity/resolang-processor/IdentityResoLangProcessor` */ get value(): __Internref84 }; /** * assembly/identity/resolang-processor/quantumCheckPermission * @param identity `assembly/identity/interfaces/IIdentity` * @param permission `~lib/string/String` * @param resource `~lib/string/String | null` * @returns `bool` */ export declare function quantumCheckPermission(identity: __Record101, permission: string, resource?: string | null): boolean; /** * assembly/identity/resolang-processor/quantumProcessTransfer * @param request `assembly/identity/ownership-transfer/TransferRequest` * @param approvers `~lib/array/Array` * @returns `bool` */ export declare function quantumProcessTransfer(request: __Internref78, approvers: Array<__Record101>): boolean; /** * assembly/identity/resolang-processor/quantumRecoverIdentity * @param lostIdentityId `~lib/string/String` * @param recoveryIdentities `~lib/array/Array` * @param requiredSignatures `i32` * @returns `bool` */ export declare function quantumRecoverIdentity(lostIdentityId: string, recoveryIdentities: Array<__Record101>, requiredSignatures?: number): boolean; /** * assembly/identity/resolang-processor/quantumCreateAuditEntry * @param entry `assembly/identity/audit-trail/AuditEntry` */ export declare function quantumCreateAuditEntry(entry: __Internref62): void; /** * assembly/identity/resolang-processor/quantumVerifyAuditIntegrity * @returns `bool` */ export declare function quantumVerifyAuditIntegrity(): boolean; /** assembly/identity/identity-recovery/RecoveryStatus */ export declare enum RecoveryStatus { /** @type `i32` */ PENDING, /** @type `i32` */ EXECUTED, /** @type `i32` */ CANCELLED, /** @type `i32` */ EXPIRED, } /** assembly/identity/identity-recovery/globalRecoveryManager */ export declare const globalRecoveryManager: { /** @type `assembly/identity/identity-recovery/IdentityRecoveryManager` */ get value(): __Internref94 }; /** assembly/identity/domain-registry/DomainStatus */ export declare enum DomainStatus { /** @type `i32` */ ACTIVE, /** @type `i32` */ SUSPENDED, /** @type `i32` */ EXPIRED, /** @type `i32` */ RESERVED, } /** assembly/identity/permission-inheritance/InheritanceMode */ export declare enum InheritanceMode { /** @type `i32` */ NONE, /** @type `i32` */ ADDITIVE, /** @type `i32` */ RESTRICTIVE, /** @type `i32` */ OVERRIDE, } /** assembly/identity/permission-inheritance/globalPermissionInheritance */ export declare const globalPermissionInheritance: { /** @type `assembly/identity/permission-inheritance/PermissionInheritanceManager` */ get value(): __Internref103 }; /** assembly/identity/authentication/AuthMethod */ export declare enum AuthMethod { /** @type `i32` */ PASSWORD, /** @type `i32` */ BIOMETRIC, /** @type `i32` */ HARDWARE_KEY, /** @type `i32` */ QUANTUM_SIGNATURE, /** @type `i32` */ MULTI_FACTOR, } /** assembly/identity/authentication/SessionStatus */ export declare enum SessionStatus { /** @type `i32` */ ACTIVE, /** @type `i32` */ EXPIRED, /** @type `i32` */ REVOKED, /** @type `i32` */ SUSPENDED, } /** assembly/identity/authentication/globalAuthManager */ export declare const globalAuthManager: { /** @type `assembly/identity/authentication/AuthenticationManager` */ get value(): __Internref116 }; /** * assembly/quantum/prime-memory/primeSpectrum * @param state `assembly/quantum/prime-state/PrimeState` * @returns `~lib/map/Map` */ export declare function primeSpectrum(state: __Internref275): __Internref12; /** * assembly/quantum/prime-memory/symbolicCollapse * @param state `assembly/quantum/prime-state/PrimeState` * @param n `u32` * @param resonanceFactor `f64` * @returns `assembly/quantum/prime-state/PrimeState` */ export declare function symbolicCollapse(state: __Internref275, n: number, resonanceFactor?: number): __Internref275; /** * assembly/quantum/prime-operators/primeOperator * @param state `assembly/quantum/prime-state/PrimeState` * @returns `~lib/map/Map` */ export declare function primeOperator(state: __Internref275): __Internref12; /** * assembly/quantum/prime-operators/factorizationOperator * @param n `u32` * @returns `assembly/quantum/prime-state/PrimeState` */ export declare function factorizationOperator(n: number): __Internref275; /** * assembly/quantum/prime-operators/rotationOperator * @param n `u32` * @param p `u32` * @returns `f64` */ export declare function rotationOperator(n: number, p: number): number; /** assembly/quantum/prime-state/DELTA_S */ export declare const DELTA_S: { /** @type `f64` */ get value(): number }; /** assembly/runtime/execution/controlFlow/ControlFlowType */ export declare enum ControlFlowType { /** @type `i32` */ SEQUENTIAL, /** @type `i32` */ CONDITIONAL, /** @type `i32` */ LOOP, /** @type `i32` */ JUMP, /** @type `i32` */ CALL, /** @type `i32` */ RETURN, /** @type `i32` */ BREAK, /** @type `i32` */ CONTINUE, /** @type `i32` */ HALT, } /** assembly/runtime/state/primeState/BasisType */ export declare enum BasisType { /** @type `i32` */ PRIME, /** @type `i32` */ FOURIER, /** @type `i32` */ WAVELET, /** @type `i32` */ POLYNOMIAL, /** @type `i32` */ MODULAR, } /** * assembly/quaternion-exports/createQuaternion * @param w `f64` * @param x `f64` * @param y `f64` * @param z `f64` * @returns `assembly/quaternion/Quaternion` */ export declare function createQuaternion(w: number, x: number, y: number, z: number): __Internref236; /** * assembly/quaternion-exports/quaternionMultiply * @param q1 `assembly/quaternion/Quaternion` * @param q2 `assembly/quaternion/Quaternion` * @returns `assembly/quaternion/Quaternion` */ export declare function quaternionMultiply(q1: __Internref236, q2: __Internref236): __Internref236; /** * assembly/quaternion-exports/quaternionConjugate * @param q `assembly/quaternion/Quaternion` * @returns `assembly/quaternion/Quaternion` */ export declare function quaternionConjugate(q: __Internref236): __Internref236; /** * assembly/quaternion-exports/quaternionNorm * @param q `assembly/quaternion/Quaternion` * @returns `f64` */ export declare function quaternionNorm(q: __Internref236): number; /** * assembly/quaternion-exports/quaternionNormalize * @param q `assembly/quaternion/Quaternion` * @returns `assembly/quaternion/Quaternion` */ export declare function quaternionNormalize(q: __Internref236): __Internref236; /** * assembly/quaternion-exports/quaternionToBlochVector * @param q `assembly/quaternion/Quaternion` * @returns `~lib/typedarray/Float64Array` */ export declare function quaternionToBlochVector(q: __Internref236): Float64Array; /** * assembly/quaternion-exports/quaternionExp * @param q `assembly/quaternion/Quaternion` * @returns `assembly/quaternion/Quaternion` */ export declare function quaternionExp(q: __Internref236): __Internref236; /** * assembly/quaternion-exports/quaternionRotate * @param q `assembly/quaternion/Quaternion` * @param angle `f64` * @returns `assembly/quaternion/Quaternion` */ export declare function quaternionRotate(q: __Internref236, angle: number): __Internref236; /** * assembly/quaternion-exports/quaternionToString * @param q `assembly/quaternion/Quaternion` * @returns `~lib/string/String` */ export declare function quaternionToString(q: __Internref236): string; /** * assembly/quaternion-exports/quaternionToJSON * @param q `assembly/quaternion/Quaternion` * @returns `~lib/string/String` */ export declare function quaternionToJSON(q: __Internref236): string; /** * assembly/quaternion-exports/isSplitPrime * @param p `u32` * @returns `bool` */ export declare function isSplitPrime(p: number): boolean; /** * assembly/quaternion-exports/createQuaternionFromPrime * @param p `u32` * @returns `assembly/quaternion/Quaternion | null` */ export declare function createQuaternionFromPrime(p: number): __Internref236 | null; /** * assembly/quaternion-exports/createQuaternionicResonanceField * @returns `assembly/quaternion/QuaternionicResonanceField` */ export declare function createQuaternionicResonanceField(): __Internref237; /** * assembly/quaternion-exports/addPrimeToResonanceField * @param field `assembly/quaternion/QuaternionicResonanceField` * @param p `u32` * @returns `bool` */ export declare function addPrimeToResonanceField(field: __Internref237, p: number): boolean; /** * assembly/quaternion-exports/computeResonanceField * @param field `assembly/quaternion/QuaternionicResonanceField` * @param x `f64` * @param t `f64` * @returns `assembly/quaternion/Quaternion` */ export declare function computeResonanceField(field: __Internref237, x: number, t: number): __Internref236; /** * assembly/quaternion-exports/optimizeResonanceFieldParameters * @param field `assembly/quaternion/QuaternionicResonanceField` * @param target `assembly/quaternion/Quaternion` * @param iterations `i32` */ export declare function optimizeResonanceFieldParameters(field: __Internref237, target: __Internref236, iterations?: number): void; /** * assembly/quaternion-exports/createTwistDynamics * @returns `assembly/quaternion/TwistDynamics` */ export declare function createTwistDynamics(): __Internref239; /** * assembly/quaternion-exports/computeTwistAngleFromQuaternion * @param dynamics `assembly/quaternion/TwistDynamics` * @param q `assembly/quaternion/Quaternion` * @returns `f64` */ export declare function computeTwistAngleFromQuaternion(dynamics: __Internref239, q: __Internref236): number; /** * assembly/quaternion-exports/evolveTwistDynamics * @param dynamics `assembly/quaternion/TwistDynamics` * @param dt `f64` */ export declare function evolveTwistDynamics(dynamics: __Internref239, dt: number): void; /** * assembly/quaternion-exports/checkTwistCollapse * @param dynamics `assembly/quaternion/TwistDynamics` * @param entropy `f64` * @param entropyThreshold `f64` * @param angleThreshold `f64` * @returns `bool` */ export declare function checkTwistCollapse(dynamics: __Internref239, entropy: number, entropyThreshold: number, angleThreshold: number): boolean; /** * assembly/quaternion-exports/getDynamicsTwistAngle * @param dynamics `assembly/quaternion/TwistDynamics` * @returns `f64` */ export declare function getDynamicsTwistAngle(dynamics: __Internref239): number; /** * assembly/quaternion-exports/setTwistAngle * @param dynamics `assembly/quaternion/TwistDynamics` * @param angle `f64` */ export declare function setTwistAngle(dynamics: __Internref239, angle: number): void; /** * assembly/quaternion-exports/createQuaternionicProjector * @param errorCorrection `f64` * @returns `assembly/quaternion/QuaternionicProjector` */ export declare function createQuaternionicProjector(errorCorrection?: number): __Internref240; /** * assembly/quaternion-exports/projectQuaternion * @param projector `assembly/quaternion/QuaternionicProjector` * @param q `assembly/quaternion/Quaternion` * @returns `~lib/typedarray/Float64Array` */ export declare function projectQuaternion(projector: __Internref240, q: __Internref236): Float64Array; /** * assembly/quaternion-exports/computeQuaternionEigenvalues * @param projector `assembly/quaternion/QuaternionicProjector` * @param q `assembly/quaternion/Quaternion` * @returns `~lib/typedarray/Float64Array` */ export declare function computeQuaternionEigenvalues(projector: __Internref240, q: __Internref236): Float64Array; /** * assembly/quaternion-exports/createQuaternionPool * @param maxSize `i32` * @returns `assembly/quaternion/QuaternionPool` */ export declare function createQuaternionPool(maxSize?: number): __Internref278; /** * assembly/quaternion-exports/allocateQuaternionFromPool * @param pool `assembly/quaternion/QuaternionPool` * @returns `assembly/quaternion/Quaternion` */ export declare function allocateQuaternionFromPool(pool: __Internref278): __Internref236; /** * assembly/quaternion-exports/deallocateQuaternionToPool * @param pool `assembly/quaternion/QuaternionPool` * @param q `assembly/quaternion/Quaternion` */ export declare function deallocateQuaternionToPool(pool: __Internref278, q: __Internref236): void; /** * assembly/quaternion-exports/createEntangledQuaternionPair * @param q1 `assembly/quaternion/Quaternion` * @param q2 `assembly/quaternion/Quaternion` * @param couplingStrength `f64` * @returns `assembly/quaternion-entanglement/EntangledQuaternionPair` */ export declare function createEntangledQuaternionPair(q1: __Internref236, q2: __Internref236, couplingStrength?: number): __Internref242; /** * assembly/quaternion-exports/evolveEntangledPair * @param pair `assembly/quaternion-entanglement/EntangledQuaternionPair` * @param dt `f64` */ export declare function evolveEntangledPair(pair: __Internref242, dt: number): void; /** * assembly/quaternion-exports/computeEntangledPairFidelity * @param pair `assembly/quaternion-entanglement/EntangledQuaternionPair` * @param target `assembly/quaternion-entanglement/EntangledQuaternionPair` * @returns `f64` */ export declare function computeEntangledPairFidelity(pair: __Internref242, target: __Internref242): number; /** * assembly/quaternion-exports/optimizeEntanglement * @param pair `assembly/quaternion-entanglement/EntangledQuaternionPair` * @param target `assembly/quaternion-entanglement/EntangledQuaternionPair` * @param iterations `i32` */ export declare function optimizeEntanglement(pair: __Internref242, target: __Internref242, iterations?: number): void; /** * assembly/quaternion-exports/createQuaternionicSynchronizer * @returns `assembly/quaternion-entanglement/QuaternionicSynchronizer` */ export declare function createQuaternionicSynchronizer(): __Internref241; /** * assembly/quaternion-exports/measureQuaternionPhaseDifference * @param sync `assembly/quaternion-entanglement/QuaternionicSynchronizer` * @param q1 `assembly/quaternion/Quaternion` * @param q2 `assembly/quaternion/Quaternion` * @returns `f64` */ export declare function measureQuaternionPhaseDifference(sync: __Internref241, q1: __Internref236, q2: __Internref236): number; /** * assembly/quaternion-exports/synchronizeQuaternions * @param sync `assembly/quaternion-entanglement/QuaternionicSynchronizer` * @param q1 `assembly/quaternion/Quaternion` * @param q2 `assembly/quaternion/Quaternion` * @param id1 `~lib/string/String` * @param id2 `~lib/string/String` * @param targetPhaseDiff `f64` * @param tolerance `f64` * @returns `bool` */ export declare function synchronizeQuaternions(sync: __Internref241, q1: __Internref236, q2: __Internref236, id1: string, id2: string, targetPhaseDiff?: number, tolerance?: number): boolean; /** * assembly/quaternion-exports/runAdaptiveSynchronization * @param sync `assembly/quaternion-entanglement/QuaternionicSynchronizer` * @param pair `assembly/quaternion-entanglement/EntangledQuaternionPair` * @param maxIterations `i32` * @param dt `f64` * @returns `bool` */ export declare function runAdaptiveSynchronization(sync: __Internref241, pair: __Internref242, maxIterations?: number, dt?: number): boolean; /** * assembly/quaternion-exports/createQuaternionicAgent * @param q `assembly/quaternion/Quaternion` * @returns `assembly/quaternion-entanglement/QuaternionicAgent` */ export declare function createQuaternionicAgent(q: __Internref236): __Internref235; /** * assembly/quaternion-exports/encodeQuaternionicMessage * @param agent `assembly/quaternion-entanglement/QuaternionicAgent` * @param message `~lib/string/String` */ export declare function encodeQuaternionicMessage(agent: __Internref235, message: string): void; /** * assembly/quaternion-exports/decodeQuaternionicMessage * @param agent `assembly/quaternion-entanglement/QuaternionicAgent` * @returns `~lib/string/String` */ export declare function decodeQuaternionicMessage(agent: __Internref235): string; /** * assembly/quaternion-exports/entangleQuaternionicAgents * @param agent1 `assembly/quaternion-entanglement/QuaternionicAgent` * @param agent2 `assembly/quaternion-entanglement/QuaternionicAgent` * @param targetFidelity `f64` * @returns `assembly/quaternion-entanglement/EntangledQuaternionPair` */ export declare function entangleQuaternionicAgents(agent1: __Internref235, agent2: __Internref235, targetFidelity?: number): __Internref242; /** * assembly/quaternion-exports/applyQuaternionicSymbolicCollapse * @param agent `assembly/quaternion-entanglement/QuaternionicAgent` * @param entropyThreshold `f64` * @returns `bool` */ export declare function applyQuaternionicSymbolicCollapse(agent: __Internref235, entropyThreshold?: number): boolean; /** * assembly/quaternion-exports/getQuaternionicAgentQuaternion * @param agent `assembly/quaternion-entanglement/QuaternionicAgent` * @returns `assembly/quaternion/Quaternion` */ export declare function getQuaternionicAgentQuaternion(agent: __Internref235): __Internref236; /** * assembly/quaternion-exports/getQuaternionicAgentEntanglementFidelity * @param agent `assembly/quaternion-entanglement/QuaternionicAgent` * @returns `f64` */ export declare function getQuaternionicAgentEntanglementFidelity(agent: __Internref235): number; /** * assembly/quaternion-exports/getQuaternionW * @param q `assembly/quaternion/Quaternion` * @returns `f64` */ export declare function getQuaternionW(q: __Internref236): number; /** * assembly/quaternion-exports/getQuaternionX * @param q `assembly/quaternion/Quaternion` * @returns `f64` */ export declare function getQuaternionX(q: __Internref236): number; /** * assembly/quaternion-exports/getQuaternionY * @param q `assembly/quaternion/Quaternion` * @returns `f64` */ export declare function getQuaternionY(q: __Internref236): number; /** * assembly/quaternion-exports/getQuaternionZ * @param q `assembly/quaternion/Quaternion` * @returns `f64` */ export declare function getQuaternionZ(q: __Internref236): number; /** * assembly/quaternion-exports/setQuaternionComponents * @param q `assembly/quaternion/Quaternion` * @param w `f64` * @param x `f64` * @param y `f64` * @param z `f64` */ export declare function setQuaternionComponents(q: __Internref236, w: number, x: number, y: number, z: number): void; /** * assembly/quantum-exports/createHolographicEncoding * @returns `assembly/quantum/holographic-encoding/HolographicEncoding` */ export declare function createHolographicEncoding(): __Internref279; /** * assembly/quantum-exports/holographicEncodingEncode * @param encoding `assembly/quantum/holographic-encoding/HolographicEncoding` * @param x `f64` * @param y `f64` * @param entropy `f64` * @returns `f64` */ export declare function holographicEncodingEncode(encoding: __Internref279, x: number, y: number, entropy: number): number; /** * assembly/quantum-exports/holographicEncodingDecode * @param encoding `assembly/quantum/holographic-encoding/HolographicEncoding` * @param queryX `f64` * @param queryY `f64` * @returns `f64` */ export declare function holographicEncodingDecode(encoding: __Internref279, queryX: number, queryY: number): number; /** * assembly/quantum-exports/holographicEncodingClear * @param encoding `assembly/quantum/holographic-encoding/HolographicEncoding` */ export declare function holographicEncodingClear(encoding: __Internref279): void; /** * assembly/quantum-exports/createEntropyEvolution * @param S0 `f64` * @param lambda `f64` * @returns `assembly/quantum/entropy-evolution/EntropyEvolution` */ export declare function createEntropyEvolution(S0: number, lambda: number): __Internref280; /** * assembly/quantum-exports/entropyEvolutionEvolve * @param evolution `assembly/quantum/entropy-evolution/EntropyEvolution` * @param time `f64` * @returns `f64` */ export declare function entropyEvolutionEvolve(evolution: __Internref280, time: number): number; /** * assembly/quantum-exports/entropyEvolutionCollapseProbability * @param evolution `assembly/quantum/entropy-evolution/EntropyEvolution` * @param t `f64` * @returns `f64` */ export declare function entropyEvolutionCollapseProbability(evolution: __Internref280, t: number): number; /** * assembly/complex-exports/createComplex * @param real `f64` * @param imag `f64` * @returns `assembly/types/Complex` */ export declare function createComplex(real: number, imag: number): __Internref276; /** * assembly/complex-exports/complexAdd * @param a `assembly/types/Complex` * @param b `assembly/types/Complex` * @returns `assembly/types/Complex` */ export declare function complexAdd(a: __Internref276, b: __Internref276): __Internref276; /** * assembly/complex-exports/complexMultiply * @param a `assembly/types/Complex` * @param b `assembly/types/Complex` * @returns `assembly/types/Complex` */ export declare function complexMultiply(a: __Internref276, b: __Internref276): __Internref276; /** * assembly/complex-exports/complexMagnitude * @param a `assembly/types/Complex` * @returns `f64` */ export declare function complexMagnitude(a: __Internref276): number; /** * assembly/complex-exports/complexFromPolar * @param magnitude `f64` * @param phase `f64` * @returns `assembly/types/Complex` */ export declare function complexFromPolar(magnitude: number, phase: number): __Internref276; /** * assembly/complex-exports/getComplexReal * @param a `assembly/types/Complex` * @returns `f64` */ export declare function getComplexReal(a: __Internref276): number; /** * assembly/complex-exports/getComplexImag * @param a `assembly/types/Complex` * @returns `f64` */ export declare function getComplexImag(a: __Internref276): number; /** * assembly/prime-state-exports/createPrimeState * @returns `assembly/quantum/prime-state/PrimeState` */ export declare function createPrimeState(): __Internref275; /** * assembly/prime-state-exports/getPrimeStateAmplitudes * @param state `assembly/quantum/prime-state/PrimeState` * @returns `~lib/map/Map` */ export declare function getPrimeStateAmplitudes(state: __Internref275): __Internref281; /** * assembly/prime-state-exports/getPrimeStateCoefficients * @param state `assembly/quantum/prime-state/PrimeState` * @returns `~lib/array/Array` */ export declare function getPrimeStateCoefficients(state: __Internref275): Array<__Internref276>; /** * assembly/prime-state-exports/setPrimeStateAmplitudes * @param state `assembly/quantum/prime-state/PrimeState` * @param amplitudes `~lib/map/Map` */ export declare function setPrimeStateAmplitudes(state: __Internref275, amplitudes: __Internref281): void; /** * assembly/pnp-exports/createState * @param type `i32` * @param vars `~lib/array/Array` * @param constraints `~lib/array/Array` * @returns `assembly/examples/universal-symbolic-transformer/UniversalSymbolicState` */ export declare function createState(type: number, vars: Array, constraints: Array<__Internref211>): __Internref210; /** * assembly/pnp-exports/isStateSatisfied * @param state `assembly/examples/universal-symbolic-transformer/UniversalSymbolicState` * @returns `bool` */ export declare function isStateSatisfied(state: __Internref210): boolean; /** * assembly/pnp-exports/getSolutionEncoding * @param state `assembly/examples/universal-symbolic-transformer/UniversalSymbolicState` * @returns `~lib/array/Array` */ export declare function getSolutionEncoding(state: __Internref210): Array; /** * assembly/pnp-exports/createTransformer * @param problem_dimension `i32` * @returns `assembly/examples/universal-symbolic-transformer/UniversalSymbolicTransformer` */ export declare function createTransformer(problem_dimension: number): __Internref215; /** * assembly/pnp-exports/encodeProblem * @param problem_type `i32` * @param variables `~lib/array/Array` * @param raw_constraints `~lib/array/Array<~lib/array/Array>` * @param weights `~lib/array/Array` * @returns `assembly/examples/universal-symbolic-transformer/UniversalSymbolicState` */ export declare function encodeProblem(problem_type: number, variables: Array, raw_constraints: Array>, weights: Array): __Internref210; /** * assembly/pnp-exports/solveProblem * @param transformer `assembly/examples/universal-symbolic-transformer/UniversalSymbolicTransformer` * @param problem_state `assembly/examples/universal-symbolic-transformer/UniversalSymbolicState` * @returns `assembly/examples/universal-symbolic-transformer/UniversalSymbolicState` */ export declare function solveProblem(transformer: __Internref215, problem_state: __Internref210): __Internref210; /** * assembly/pnp-exports/verifyConvergence * @param transformer `assembly/examples/universal-symbolic-transformer/UniversalSymbolicTransformer` * @returns `bool` */ export declare function verifyConvergence(transformer: __Internref215): boolean; /** assembly/examples/universal-symbolic-transformer/NPProblemType */ export declare enum NPProblemType { /** @type `i32` */ SAT, /** @type `i32` */ VERTEX_COVER, /** @type `i32` */ HAMILTONIAN_PATH, /** @type `i32` */ GRAPH_COLORING, /** @type `i32` */ KNAPSACK, /** @type `i32` */ TSP, /** @type `i32` */ SUBSET_SUM, /** @type `i32` */ CLIQUE, /** @type `i32` */ INDEPENDENT_SET, /** @type `i32` */ PARTITION, /** @type `i32` */ INTEGER_PROGRAMMING, /** @type `i32` */ STEINER_TREE, /** @type `i32` */ SET_COVER, /** @type `i32` */ BIN_PACKING, /** @type `i32` */ SCHEDULING, } /** * assembly/runtime-exports/createIdentityProcessor * @returns `assembly/runtime/processor/IdentityResoLangProcessor` */ export declare function createIdentityProcessor(): __Internref172; /** * assembly/runtime-exports/checkPermission * @param processor `assembly/runtime/processor/IdentityResoLangProcessor` * @param identity `assembly/identity/interfaces/IIdentity` * @param permission `~lib/string/String` * @param resource `~lib/string/String | null` * @returns `bool` */ export declare function checkPermission(processor: __Internref172, identity: __Record101, permission: string, resource?: string | null): boolean; /** * assembly/runtime-exports/processTransferRequest * @param processor `assembly/runtime/processor/IdentityResoLangProcessor` * @param request `assembly/identity/ownership-transfer/TransferRequest` * @param approvers `~lib/array/Array` * @returns `bool` */ export declare function processTransferRequest(processor: __Internref172, request: __Internref78, approvers: Array<__Record101>): boolean; /** * assembly/runtime-exports/recoverIdentity * @param processor `assembly/runtime/processor/IdentityResoLangProcessor` * @param lostIdentityId `~lib/string/String` * @param recoveryIdentities `~lib/array/Array` * @param requiredSignatures `i32` * @returns `bool` */ export declare function recoverIdentity(processor: __Internref172, lostIdentityId: string, recoveryIdentities: Array<__Record101>, requiredSignatures?: number): boolean; /** * assembly/runtime-exports/createAuditEntry * @param processor `assembly/runtime/processor/IdentityResoLangProcessor` * @param entry `assembly/identity/audit-trail/AuditEntry` */ export declare function createAuditEntry(processor: __Internref172, entry: __Internref62): void; /** * assembly/runtime-exports/verifyAuditIntegrity * @param processor `assembly/runtime/processor/IdentityResoLangProcessor` * @returns `bool` */ export declare function verifyAuditIntegrity(processor: __Internref172): boolean; /** * assembly/runtime-exports/syncWithNetwork * @param processor `assembly/runtime/processor/IdentityResoLangProcessor` * @returns `bool` */ export declare function syncWithNetwork(processor: __Internref172): boolean; /** assembly/twist/FUNDAMENTAL_INVARIANT */ export declare const FUNDAMENTAL_INVARIANT: { /** @type `i32` */ get value(): number }; /** assembly/twist/PRIMORIAL_BASE */ export declare const PRIMORIAL_BASE: { /** @type `i32` */ get value(): number }; /** assembly/twist/MASTER_KEY_PRIME */ export declare const MASTER_KEY_PRIME: { /** @type `i32` */ get value(): number }; /** * assembly/twist/getTwistAngle * @param prime `i32` * @returns `f64` */ export declare function getTwistAngle(prime: number): number; /** * assembly/twist/getTwistRate * @param prime `i32` * @param wavelength `f64` * @returns `f64` */ export declare function getTwistRate(prime: number, wavelength?: number): number; /** * assembly/twist/composeTwistAngles * @param primes `~lib/array/Array` * @returns `f64` */ export declare function composeTwistAngles(primes: Array): number; /** * assembly/twist/isTwistClosed * @param totalTwist `f64` * @param tolerance `f64` * @returns `bool` */ export declare function isTwistClosed(totalTwist: number, tolerance?: number): boolean; /** * assembly/twist/isCoprimeToThirty * @param n `i32` * @returns `bool` */ export declare function isCoprimeToThirty(n: number): boolean; /** * assembly/twist/getMod30Residue * @param n `i32` * @returns `i32` */ export declare function getMod30Residue(n: number): number; /** * assembly/twist/getCoprimeClassIndex * @param n `i32` * @returns `i32` */ export declare function getCoprimeClassIndex(n: number): number; /** * assembly/twist/residueToSedenionAxis * @param residue `i32` * @param octave `i32` * @returns `i32` */ export declare function residueToSedenionAxis(residue: number, octave?: number): number; /** * assembly/twist/needsMasterKey * @param primes `~lib/array/Array` * @returns `bool` */ export declare function needsMasterKey(primes: Array): boolean; /** * assembly/twist/applyMasterKey * @param primes `~lib/array/Array` * @returns `~lib/array/Array` */ export declare function applyMasterKey(primes: Array): Array; /** * assembly/twist/symbolicEntropy * @param n `i32` * @returns `f64` */ export declare function symbolicEntropy(n: number): number; /** * assembly/twist/get108HarmonicOffset * @param n `i32` * @returns `i32` */ export declare function get108HarmonicOffset(n: number): number; /** * assembly/twist/is108Resonant * @param n `i32` * @returns `bool` */ export declare function is108Resonant(n: number): boolean; /** * assembly/enochian/getLetterData * @param char `~lib/string/String` * @returns `assembly/enochian/EnochianLetter | null` */ export declare function getLetterData(char: string): __Internref283 | null; /** * assembly/enochian/parseEnochian * @param text `~lib/string/String` * @returns `assembly/enochian/EnochianParseResult` */ export declare function parseEnochian(text: string): __Internref284; /** * assembly/enochian/getPreferredLetter * @param prime `i32` * @param mode `i32` * @returns `~lib/string/String` */ export declare function getPreferredLetter(prime: number, mode: number): string; /** * assembly/enochian/primesToEnochian * @param primes `~lib/array/Array` * @param preferredMode `i32` * @returns `~lib/string/String` */ export declare function primesToEnochian(primes: Array, preferredMode?: number): string; /** assembly/physics/CONFIG */ export declare const CONFIG: { /** @type `assembly/physics/PhysicsConfig` */ get value(): __Record177 }; /** assembly/physics/oscillators */ export declare const oscillators: { /** @type `~lib/array/Array` */ get value(): Array<__Internref178>; set value(value: Array<__Internref178>); }; /** * assembly/physics/addOscillator * @param prime `i32` * @param amplitude `f64` * @param phase `f64` */ export declare function addOscillator(prime: number, amplitude: number, phase: number): void; /** * assembly/physics/clearOscillators */ export declare function clearOscillators(): void; /** * assembly/physics/updatePhysics * @returns `assembly/physics/PhysicsState` */ export declare function updatePhysics(): __Internref228; /** assembly/fano/FANO_LINES */ export declare const FANO_LINES: { /** @type `~lib/staticarray/StaticArray<~lib/staticarray/StaticArray>` */ get value(): ArrayLike> }; /** * assembly/fano/octonionMultiplyIndex * @param i `i32` * @param j `i32` * @returns `assembly/fano/MultiplicationResult` */ export declare function octonionMultiplyIndex(i: number, j: number): __Internref286; /** * assembly/fano/sedenionMultiplyIndex * @param i `i32` * @param j `i32` * @returns `assembly/fano/MultiplicationResult` */ export declare function sedenionMultiplyIndex(i: number, j: number): __Internref286; /** * assembly/fano/multiplyIndices * @param dim `i32` * @param i `i32` * @param j `i32` * @returns `assembly/fano/MultiplicationResult` */ export declare function multiplyIndices(dim: number, i: number, j: number): __Internref286; /** * assembly/fano/buildMultiplicationTable * @param dim `i32` * @returns `~lib/array/Array<~lib/array/Array>` */ export declare function buildMultiplicationTable(dim: number): Array>; /** * assembly/fano/basisName * @param dim `i32` * @param index `i32` * @returns `~lib/string/String` */ export declare function basisName(dim: number, index: number): string; /** * assembly/hypercomplex/complex * @param real `f64` * @param imag `f64` * @returns `assembly/hypercomplex/Hypercomplex` */ export declare function complex(real: number, imag: number): __Internref289; /** * assembly/hypercomplex/quaternion * @param w `f64` * @param x `f64` * @param y `f64` * @param z `f64` * @returns `assembly/hypercomplex/Hypercomplex` */ export declare function quaternion(w: number, x: number, y: number, z: number): __Internref289; /** * assembly/hypercomplex/octonion * @param c0 `f64` * @param c1 `f64` * @param c2 `f64` * @param c3 `f64` * @param c4 `f64` * @param c5 `f64` * @param c6 `f64` * @param c7 `f64` * @returns `assembly/hypercomplex/Hypercomplex` */ export declare function octonion(c0: number, c1: number, c2: number, c3: number, c4: number, c5: number, c6: number, c7: number): __Internref289; /** * assembly/hypercomplex/getDimensionName * @param dim `i32` * @returns `~lib/string/String` */ export declare function getDimensionName(dim: number): string; /** * assembly/hilbert/encodeMemory * @param text `~lib/string/String` * @param primes `~lib/array/Array | null` * @returns `assembly/hilbert/PrimeHilbertState` */ export declare function encodeMemory(text: string, primes?: Array | null): __Internref290; /** * assembly/hilbert/symbolicCompute * @param inputStates `~lib/array/Array` * @param maxIterations `i32` * @param coherenceThreshold `f64` * @returns `assembly/hilbert/SymbolicComputeResult | null` */ export declare function symbolicCompute(inputStates: Array<__Internref290>, maxIterations?: number, coherenceThreshold?: number): __Internref295 | null; /** * assembly/rformer/resonanceScore * @param query `assembly/rformer/SparsePrimeState` * @param key `assembly/rformer/SparsePrimeState` * @returns `f64` */ export declare function resonanceScore(query: __Internref302, key: __Internref302): number; /** * assembly/rformer/resonantAttention * @param query `assembly/rformer/SparsePrimeState` * @param keys `~lib/array/Array` * @param values `~lib/array/Array` * @param temperature `f64` * @returns `assembly/rformer/SparsePrimeState` */ export declare function resonantAttention(query: __Internref302, keys: Array<__Internref302>, values: Array<__Internref302>, temperature?: number): __Internref302; /** * assembly/rformer/multiHeadResonantAttention * @param query `assembly/rformer/SparsePrimeState` * @param keys `~lib/array/Array` * @param values `~lib/array/Array` * @param numHeads `i32` * @param temperature `f64` * @returns `assembly/rformer/SparsePrimeState` */ export declare function multiHeadResonantAttention(query: __Internref302, keys: Array<__Internref302>, values: Array<__Internref302>, numHeads?: number, temperature?: number): __Internref302; /** assembly/pipelines/types/PipelineEventType */ export declare enum PipelineEventType { /** @type `i32` */ TICK, /** @type `i32` */ COLLAPSE, /** @type `i32` */ ENTANGLEMENT, /** @type `i32` */ RESONANCE, /** @type `i32` */ MEMORY_STORE, /** @type `i32` */ MEMORY_RECALL, /** @type `i32` */ COHERENCE_CHANGE, /** @type `i32` */ ENTROPY_CHANGE, /** @type `i32` */ PHASE_LOCK, /** @type `i32` */ STATE_CHANGE, } /** * assembly/pipelines/semantic/createSemanticPipeline * @param config `assembly/pipelines/types/PipelineConfig | null` * @returns `assembly/pipelines/semantic/SemanticPipeline` */ export declare function createSemanticPipeline(config?: __Record305 | null): __Internref306; /** * assembly/pipelines/cognitive/createCognitivePipeline * @param config `assembly/pipelines/types/PipelineConfig | null` * @returns `assembly/pipelines/cognitive/CognitivePipeline` */ export declare function createCognitivePipeline(config?: __Record305 | null): __Internref316; /** * assembly/pipelines/memory/createMemoryPipeline * @param config `assembly/pipelines/types/PipelineConfig | null` * @returns `assembly/pipelines/memory/MemoryPipeline` */ export declare function createMemoryPipeline(config?: __Record305 | null): __Internref318; /** * assembly/pipelines/embedding/createEmbeddingPipeline * @param config `assembly/pipelines/types/PipelineConfig | null` * @returns `assembly/pipelines/embedding/EmbeddingPipeline` */ export declare function createEmbeddingPipeline(config?: __Record305 | null): __Internref321; /** * assembly/pipelines/agent/createAgentPipeline * @param config `assembly/pipelines/types/PipelineConfig | null` * @returns `assembly/pipelines/agent/AgentPipeline` */ export declare function createAgentPipeline(config?: __Record305 | null): __Internref323; /** * assembly/pipelines/discrete/createDiscretePipeline * @param config `assembly/pipelines/discrete/DiscreteConfig | null` * @returns `assembly/pipelines/discrete/DiscretePipeline` */ export declare function createDiscretePipeline(config?: __Record324 | null): __Internref325; /** * assembly/pipelines/discrete/createFastDiscretePipeline * @returns `assembly/pipelines/discrete/DiscretePipeline` */ export declare function createFastDiscretePipeline(): __Internref325; /** * assembly/pipelines/discrete/createPreciseDiscretePipeline * @returns `assembly/pipelines/discrete/DiscretePipeline` */ export declare function createPreciseDiscretePipeline(): __Internref325; /** assembly/examples/test-comprehensive-benchmark-suite/BenchmarkTestSuite */ declare class __Internref224 extends Number { private __nominal224: symbol; private __nominal0: symbol; } /** assembly/smf/SMFConfig */ declare interface __Record181 { /** @type `f64` */ decayRate: number | TOmittable; /** @type `f64` */ coherenceThreshold: number | TOmittable; /** @type `f64` */ resonanceStrength: number | TOmittable; /** @type `f64` */ collapseThreshold: number | TOmittable; /** @type `i32` */ historyLength: number | TOmittable; } /** assembly/smf/SedenionMemoryField */ declare class __Internref183 extends Number { private __nominal183: symbol; private __nominal0: symbol; } /** assembly/state/StateSnapshot */ declare class __Internref193 extends Number { private __nominal193: symbol; private __nominal0: symbol; } /** assembly/discrete-observer/DiscreteObserverConfig */ declare interface __Record199 { /** @type `i32` */ M: number | TOmittable; /** @type `i32` */ c: number | TOmittable; /** @type `i32` */ d: number | TOmittable; /** @type `i32` */ K: number | TOmittable; /** @type `i32` */ scale: number | TOmittable; /** @type `f64` */ A_max: number | TOmittable; /** @type `f64` */ delta: number | TOmittable; /** @type `i32` */ B: number | TOmittable; /** @type `i32` */ H: number | TOmittable; /** @type `f64` */ C_th: number | TOmittable; /** @type `f64` */ epsilon_C: number | TOmittable; /** @type `f64` */ tau_Var: number | TOmittable; /** @type `f64` */ C_lock: number | TOmittable; /** @type `f64` */ dC_lock: number | TOmittable; /** @type `i32` */ tunnelCooldown: number | TOmittable; /** @type `f64` */ entropyFloor: number | TOmittable; /** @type `f64` */ entropyCeiling: number | TOmittable; /** @type `i32` */ J_max: number | TOmittable; /** @type `i32` */ W_max: number | TOmittable; /** @type `i32` */ L: number | TOmittable; /** @type `f64` */ learningRate: number | TOmittable; /** @type `f64` */ learnedCouplingWeight: number | TOmittable; /** @type `f64` */ learningThreshold: number | TOmittable; /** @type `i32` */ lockupDetectionWindow: number | TOmittable; /** @type `f64` */ perturbationStrength: number | TOmittable; /** @type `f64` */ maxTotalEnergy: number | TOmittable; /** @type `i32` */ targetMaxActive: number | TOmittable; } /** assembly/discrete-observer/DiscreteObserverState */ declare class __Internref201 extends Number { private __nominal201: symbol; private __nominal0: symbol; } /** assembly/discrete-observer/DiscreteStepResult */ declare class __Internref231 extends Number { private __nominal231: symbol; private __nominal0: symbol; } /** assembly/resolang/EntangledNode */ declare class __Internref4 extends Number { private __nominal4: symbol; private __nominal0: symbol; } /** assembly/resolang/ResonantFragment */ declare class __Internref86 extends Number { private __nominal86: symbol; private __nominal0: symbol; } /** assembly/resolang/Attractor */ declare class __Internref232 extends Number { private __nominal232: symbol; private __nominal0: symbol; } /** assembly/quaternion-entanglement/QuaternionicAgent */ declare class __Internref235 extends Number { private __nominal235: symbol; private __nominal0: symbol; } /** assembly/quaternion-entanglement/QuaternionicSynchronizer */ declare class __Internref241 extends Number { private __nominal241: symbol; private __nominal0: symbol; } /** assembly/entropy-viz/EntropyFieldSampler */ declare class __Internref9 extends Number { private __nominal9: symbol; private __nominal0: symbol; } /** assembly/entropy-viz/EntropyEvolutionTracker */ declare class __Internref13 extends Number { private __nominal13: symbol; private __nominal0: symbol; } /** assembly/core/validation/StringValidationBuilder */ declare class __Internref244 extends Number { private __nominal244: symbol; private __nominal245: symbol; private __nominal0: symbol; } /** assembly/core/validation/NumberValidationBuilder */ declare class __Internref248 extends Number { private __nominal248: symbol; private __nominal249: symbol; private __nominal0: symbol; } /** assembly/core/validation/ObjectValidator */ declare class __Internref252 extends Number { private __nominal252: symbol; private __nominal0: symbol; } /** assembly/core/math-cache/PrimeCache */ declare class __Internref30 extends Number { private __nominal30: symbol; private __nominal0: symbol; } /** assembly/core/math-extended-gcd/ExtendedGCDResult */ declare class __Internref255 extends Number { private __nominal255: symbol; private __nominal0: symbol; } /** assembly/core/math-performance/MathProfiler */ declare class __Internref55 extends Number { private __nominal55: symbol; private __nominal0: symbol; } /** ~lib/function/Function<%28%29=>void> */ declare class __Internref327 extends Number { private __nominal327: symbol; private __nominal0: symbol; } /** assembly/core/math-performance/MathMemoryTracker */ declare class __Internref59 extends Number { private __nominal59: symbol; private __nominal0: symbol; } /** assembly/identity/prime-mapping/IdentityPrimeMapper */ declare class __Internref74 extends Number { private __nominal74: symbol; private __nominal61: symbol; private __nominal0: symbol; } /** assembly/identity/ownership-transfer/OwnershipTransferManager */ declare class __Internref77 extends Number { private __nominal77: symbol; private __nominal61: symbol; private __nominal0: symbol; } /** assembly/identity/audit-trail/AuditTrailManager */ declare class __Internref60 extends Number { private __nominal60: symbol; private __nominal61: symbol; private __nominal0: symbol; } /** assembly/identity/resolang-processor/IdentityResoLangProcessor */ declare class __Internref84 extends Number { private __nominal84: symbol; private __nominal0: symbol; } /** assembly/identity/interfaces/IIdentity */ declare interface __Record101 { } /** assembly/identity/ownership-transfer/TransferRequest */ declare class __Internref78 extends Number { private __nominal78: symbol; private __nominal61: symbol; private __nominal0: symbol; } /** assembly/identity/audit-trail/AuditEntry */ declare class __Internref62 extends Number { private __nominal62: symbol; private __nominal61: symbol; private __nominal0: symbol; } /** assembly/identity/identity-recovery/IdentityRecoveryManager */ declare class __Internref94 extends Number { private __nominal94: symbol; private __nominal0: symbol; } /** assembly/identity/permission-inheritance/PermissionInheritanceManager */ declare class __Internref103 extends Number { private __nominal103: symbol; private __nominal61: symbol; private __nominal0: symbol; } /** assembly/identity/authentication/AuthenticationManager */ declare class __Internref116 extends Number { private __nominal116: symbol; private __nominal0: symbol; } /** assembly/quantum/prime-state/PrimeState */ declare class __Internref275 extends Number { private __nominal275: symbol; private __nominal0: symbol; } /** ~lib/map/Map */ declare class __Internref12 extends Number { private __nominal12: symbol; private __nominal0: symbol; } /** assembly/quaternion/Quaternion */ declare class __Internref236 extends Number { private __nominal236: symbol; private __nominal0: symbol; } /** assembly/quaternion/QuaternionicResonanceField */ declare class __Internref237 extends Number { private __nominal237: symbol; private __nominal0: symbol; } /** assembly/quaternion/TwistDynamics */ declare class __Internref239 extends Number { private __nominal239: symbol; private __nominal0: symbol; } /** assembly/quaternion/QuaternionicProjector */ declare class __Internref240 extends Number { private __nominal240: symbol; private __nominal0: symbol; } /** assembly/quaternion/QuaternionPool */ declare class __Internref278 extends Number { private __nominal278: symbol; private __nominal0: symbol; } /** assembly/quaternion-entanglement/EntangledQuaternionPair */ declare class __Internref242 extends Number { private __nominal242: symbol; private __nominal0: symbol; } /** assembly/quantum/holographic-encoding/HolographicEncoding */ declare class __Internref279 extends Number { private __nominal279: symbol; private __nominal0: symbol; } /** assembly/quantum/entropy-evolution/EntropyEvolution */ declare class __Internref280 extends Number { private __nominal280: symbol; private __nominal0: symbol; } /** assembly/types/Complex */ declare class __Internref276 extends Number { private __nominal276: symbol; private __nominal0: symbol; } /** ~lib/map/Map */ declare class __Internref281 extends Number { private __nominal281: symbol; private __nominal0: symbol; } /** assembly/examples/universal-symbolic-transformer/UniversalConstraint */ declare class __Internref211 extends Number { private __nominal211: symbol; private __nominal0: symbol; } /** assembly/examples/universal-symbolic-transformer/UniversalSymbolicState */ declare class __Internref210 extends Number { private __nominal210: symbol; private __nominal0: symbol; } /** assembly/examples/universal-symbolic-transformer/UniversalSymbolicTransformer */ declare class __Internref215 extends Number { private __nominal215: symbol; private __nominal0: symbol; } /** assembly/runtime/processor/IdentityResoLangProcessor */ declare class __Internref172 extends Number { private __nominal172: symbol; private __nominal0: symbol; } /** assembly/enochian/EnochianLetter */ declare class __Internref283 extends Number { private __nominal283: symbol; private __nominal0: symbol; } /** assembly/enochian/EnochianParseResult */ declare class __Internref284 extends Number { private __nominal284: symbol; private __nominal0: symbol; } /** assembly/physics/PhysicsConfig */ declare interface __Record177 { /** @type `f64` */ resonanceThreshold: number | TOmittable; /** @type `f64` */ couplingBase: number | TOmittable; /** @type `f64` */ simulationSpeed: number | TOmittable; /** @type `f64` */ dampening: number | TOmittable; /** @type `f64` */ lyapunovStableThreshold: number | TOmittable; } /** assembly/physics/PrimeOscillator */ declare class __Internref178 extends Number { private __nominal178: symbol; private __nominal0: symbol; } /** assembly/physics/PhysicsState */ declare class __Internref228 extends Number { private __nominal228: symbol; private __nominal0: symbol; } /** assembly/fano/MultiplicationResult */ declare class __Internref286 extends Number { private __nominal286: symbol; private __nominal0: symbol; } /** assembly/hypercomplex/Hypercomplex */ declare class __Internref289 extends Number { private __nominal289: symbol; private __nominal0: symbol; } /** assembly/hilbert/PrimeHilbertState */ declare class __Internref290 extends Number { private __nominal290: symbol; private __nominal0: symbol; } /** assembly/hilbert/SymbolicComputeResult */ declare class __Internref295 extends Number { private __nominal295: symbol; private __nominal0: symbol; } /** assembly/rformer/SparsePrimeState */ declare class __Internref302 extends Number { private __nominal302: symbol; private __nominal0: symbol; } /** assembly/pipelines/types/PipelineConfig */ declare interface __Record305 { /** @type `i32` */ numPrimes: number | TOmittable; /** @type `i32` */ historyLength: number | TOmittable; /** @type `f64` */ defaultDt: number | TOmittable; /** @type `f64` */ collapseThreshold: number | TOmittable; /** @type `f64` */ coherenceThreshold: number | TOmittable; /** @type `f64` */ entanglementThreshold: number | TOmittable; /** @type `f64` */ memoryDecayRate: number | TOmittable; /** @type `f64` */ entropyDecayRate: number | TOmittable; /** @type `f64` */ amplitudeDecayRate: number | TOmittable; /** @type `f64` */ kuramotoCoupling: number | TOmittable; /** @type `f64` */ resonanceStrength: number | TOmittable; } /** assembly/pipelines/semantic/SemanticPipeline */ declare class __Internref306 extends Number { private __nominal306: symbol; private __nominal307: symbol; private __nominal0: symbol; } /** assembly/pipelines/cognitive/CognitivePipeline */ declare class __Internref316 extends Number { private __nominal316: symbol; private __nominal307: symbol; private __nominal0: symbol; } /** assembly/pipelines/memory/MemoryPipeline */ declare class __Internref318 extends Number { private __nominal318: symbol; private __nominal307: symbol; private __nominal0: symbol; } /** assembly/pipelines/embedding/EmbeddingPipeline */ declare class __Internref321 extends Number { private __nominal321: symbol; private __nominal307: symbol; private __nominal0: symbol; } /** assembly/pipelines/agent/AgentPipeline */ declare class __Internref323 extends Number { private __nominal323: symbol; private __nominal307: symbol; private __nominal0: symbol; } /** assembly/pipelines/discrete/DiscreteConfig */ declare interface __Record324 { /** @type `i32` */ numOscillators: number | TOmittable; /** @type `i32` */ phaseResolution: number | TOmittable; /** @type `f64` */ amplitudeMax: number | TOmittable; /** @type `f64` */ amplitudeDecay: number | TOmittable; /** @type `f64` */ activeThreshold: number | TOmittable; /** @type `f64` */ baseBoostAmount: number | TOmittable; /** @type `i32` */ couplingStrength: number | TOmittable; /** @type `f64` */ coherenceThreshold: number | TOmittable; /** @type `f64` */ hebbianLearningRate: number | TOmittable; /** @type `bool` */ useEnochianPrimes: boolean | TOmittable; /** @type `bool` */ enableLockupRecovery: boolean | TOmittable; /** @type `i32` */ lockupWindow: number | TOmittable; /** @type `f64` */ lockupThreshold: number | TOmittable; } /** assembly/pipelines/discrete/DiscretePipeline */ declare class __Internref325 extends Number { private __nominal325: symbol; private __nominal0: symbol; }