#!/usr/bin/env node // HONEST Demo - Shows what actually works const wasmHonest = require('../wasm-honest/strange_loop.js'); const chalk = require('chalk'); wasmHonest.init_wasm(); console.log(chalk.cyan.bold('\n════════════════════════════════════════════════════════════════')); console.log(chalk.cyan.bold(' HONEST WASM Demo - No Bullshit Edition ')); console.log(chalk.cyan.bold('════════════════════════════════════════════════════════════════\n')); // Test all honest functions console.log(chalk.green.bold('✅ HONEST FUNCTIONS THAT ACTUALLY WORK:\n')); // 1. Honest quantum simulation console.log(chalk.yellow('1. Quantum Simulation (simplified but real):')); console.log(' ', wasmHonest.quantum_simulate_honest(4)); console.log(' ', wasmHonest.quantum_simulate_honest(8)); // 2. Real random quantum measurement console.log(chalk.yellow('\n2. Quantum Measurement (real randomness):')); const measurements = []; for (let i = 0; i < 10; i++) { measurements.push(wasmHonest.quantum_measure_honest(4)); } console.log(' 10 measurements:', measurements); console.log(' Unique values:', new Set(measurements).size); // 3. Honest consciousness model console.log(chalk.yellow('\n3. Consciousness Model (admits it\'s just math):')); console.log(' ', wasmHonest.consciousness_simulate_honest(50)); console.log(' ', wasmHonest.consciousness_simulate_honest(150)); // 4. Honest swarm simulation console.log(chalk.yellow('\n4. Swarm Simulation (single-threaded):')); console.log(' ', wasmHonest.swarm_simulate_honest(10)); console.log(' ', wasmHonest.swarm_simulate_honest(100)); // 5. Honest solver console.log(chalk.yellow('\n5. Simple Solver (actually computes):')); console.log(' ', wasmHonest.solve_simple_honest(10)); console.log(' ', wasmHonest.solve_simple_honest(50)); // 6. Real random numbers console.log(chalk.yellow('\n6. Real Random Numbers:')); const randoms = []; for (let i = 0; i < 5; i++) { randoms.push(wasmHonest.random_real().toFixed(4)); } console.log(' 5 random values:', randoms.join(', ')); // 7. Honest benchmark console.log(chalk.yellow('\n7. Honest Benchmark:')); console.log(' ', wasmHonest.benchmark_honest()); // Test randomness quality console.log(chalk.cyan.bold('\n════════════════════════════════════════════════════════════════')); console.log(chalk.cyan.bold(' RANDOMNESS QUALITY TEST ')); console.log(chalk.cyan.bold('════════════════════════════════════════════════════════════════\n')); const testSamples = 1000; const quantumSamples = []; for (let i = 0; i < testSamples; i++) { quantumSamples.push(wasmHonest.quantum_measure_honest(4)); } // Calculate distribution const distribution = {}; for (let i = 0; i < 16; i++) { distribution[i] = 0; } quantumSamples.forEach(s => distribution[s]++); console.log('Distribution of 1000 measurements (4 qubits = 16 states):'); for (let i = 0; i < 16; i++) { const count = distribution[i]; const percent = (count / testSamples * 100).toFixed(1); const bar = '█'.repeat(Math.floor(count / 20)); console.log(` State ${i.toString().padStart(2)}: ${bar} ${count} (${percent}%)`); } // Check if it's uniform (good randomness) const expected = testSamples / 16; const chiSquare = Object.values(distribution) .reduce((sum, observed) => sum + Math.pow(observed - expected, 2) / expected, 0); console.log(`\nChi-square statistic: ${chiSquare.toFixed(2)}`); console.log(`Expected for uniform: ~15.5 (actual: ${chiSquare.toFixed(2)})`); console.log(chiSquare < 30 ? chalk.green('✅ Good randomness!') : chalk.red('❌ Poor randomness')); // Summary console.log(chalk.cyan.bold('\n════════════════════════════════════════════════════════════════')); console.log(chalk.cyan.bold(' SUMMARY ')); console.log(chalk.cyan.bold('════════════════════════════════════════════════════════════════\n')); console.log(chalk.green.bold('What This HONESTLY Does:')); console.log(' ✅ Simplified quantum simulation with real probability calculations'); console.log(' ✅ Cryptographic randomness using getrandom'); console.log(' ✅ Mathematical models (clearly labeled as such)'); console.log(' ✅ Single-threaded simulations (not real parallelism)'); console.log(' ✅ Simple numerical solvers that actually iterate'); console.log(' ✅ Real benchmarks that measure actual computation'); console.log(chalk.yellow.bold('\nWhat It DOESN\'T Claim:')); console.log(' ❌ NOT real quantum computing'); console.log(' ❌ NOT real consciousness'); console.log(' ❌ NOT real parallel swarms'); console.log(' ❌ NOT nanosecond precision in browser'); console.log(' ❌ NOT solving million-variable systems'); console.log(chalk.cyan.bold('\nThe Bottom Line:')); console.log(' This is an HONEST implementation that does real (simplified) computation.'); console.log(' It doesn\'t lie about what it\'s doing.'); console.log(' It\'s not bullshit - it\'s just honest about its limitations.\n'); process.exit(0);