mirror of
https://github.com/zrwusa/data-structure-typed.git
synced 2024-11-10 08:04:05 +00:00
202 lines
6.3 KiB
TypeScript
202 lines
6.3 KiB
TypeScript
import {AnyFunction} from '../types';
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import {isDebugTest} from '../config';
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const isDebug = isDebugTest;
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const orderReducedBy = 2; // reduction of bigO's order compared to the baseline bigO
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export const magnitude = {
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CONSTANT: Math.floor(Number.MAX_SAFE_INTEGER / Math.pow(10, orderReducedBy)),
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LOG_N: Math.pow(10, 9 - orderReducedBy),
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LINEAR: Math.pow(10, 6 - orderReducedBy),
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N_LOG_N: Math.pow(10, 5 - orderReducedBy),
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SQUARED: Math.pow(10, 4 - orderReducedBy),
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CUBED: Math.pow(10, 3 - orderReducedBy),
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FACTORIAL: 20 - orderReducedBy
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};
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export const bigO = {
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CONSTANT: magnitude.CONSTANT / 100000,
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LOG_N: Math.log2(magnitude.LOG_N) / 1000,
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LINEAR: magnitude.LINEAR / 1000,
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N_LOG_N: (magnitude.N_LOG_N * Math.log2(magnitude.LOG_N)) / 1000,
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SQUARED: Math.pow(magnitude.SQUARED, 2) / 1000,
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CUBED: Math.pow(magnitude.SQUARED, 3) / 1000,
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FACTORIAL: 10000
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};
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function findPotentialN(input: any): number {
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let longestArray: any[] = [];
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let mostProperties: { [key: string]: any } = {};
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function recurse(obj: any) {
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if (Array.isArray(obj)) {
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if (obj.length > longestArray.length) {
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longestArray = obj;
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}
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} else if (typeof obj === 'object' && obj !== null) {
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const keys = Object.keys(obj);
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if (keys.length > Object.keys(mostProperties).length) {
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mostProperties = obj;
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}
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keys.forEach(key => {
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recurse(obj[key]);
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});
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}
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}
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if (Array.isArray(input)) {
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input.forEach(item => {
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recurse(item);
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});
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} else {
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recurse(input);
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}
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// return [longestArray, mostProperties] : [any[], { [key: string]: any }];
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return Math.max(longestArray.length, Object.keys(mostProperties).length);
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}
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function linearRegression(x: number[], y: number[]) {
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const n = x.length;
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const sumX = x.reduce((acc, val) => acc + val, 0);
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const sumY = y.reduce((acc, val) => acc + val, 0);
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const sumXSquared = x.reduce((acc, val) => acc + val ** 2, 0);
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const sumXY = x.reduce((acc, val, i) => acc + val * y[i], 0);
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const slope = (n * sumXY - sumX * sumY) / (n * sumXSquared - sumX ** 2);
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const intercept = (sumY - slope * sumX) / n;
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const yHat = x.map(val => slope * val + intercept);
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const totalVariation = y.map((val, i) => (val - yHat[i]) ** 2).reduce((acc, val) => acc + val, 0);
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const explainedVariation = y.map(val => (val - sumY / n) ** 2).reduce((acc, val) => acc + val, 0);
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const rSquared = 1 - totalVariation / explainedVariation;
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return {slope, intercept, rSquared};
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}
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function estimateBigO(runtimes: number[], dataSizes: number[]): string {
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// Make sure the input runtimes and data sizes have the same length
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if (runtimes.length !== dataSizes.length) {
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return 'Lengths of input arrays do not match';
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}
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// Create an array to store the computational complexity of each data point
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const complexities: string[] = [];
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// Traverse different possible complexities
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const complexitiesToCheck: string[] = [
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'O(1)', // constant time complexity
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'O(log n)', // Logarithmic time complexity
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'O(n)', // linear time complexity
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'O(n log n)', // linear logarithmic time complexity
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'O(n^2)' // squared time complexity
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];
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for (const complexity of complexitiesToCheck) {
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// Calculate data points for fitting
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const fittedData: number[] = dataSizes.map(size => {
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if (complexity === 'O(1)') {
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return 1; // constant time complexity
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} else if (complexity === 'O(log n)') {
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return Math.log(size);
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} else if (complexity === 'O(n)') {
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return size;
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} else if (complexity === 'O(n log n)') {
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return size * Math.log(size);
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} else if (complexity === 'O(n^2)') {
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return size ** 2;
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} else {
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return size ** 10;
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}
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});
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// Fit the data points using linear regression analysis
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const regressionResult = linearRegression(fittedData, runtimes);
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// Check the R-squared value of the fit. It is usually considered a valid fit if it is greater than 0.9.
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if (regressionResult.rSquared >= 0.9) {
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complexities.push(complexity);
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}
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}
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// If there is no valid fitting result, return "cannot estimate", otherwise return the estimated time complexity
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if (complexities.length === 0) {
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return 'Unable to estimate';
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} else {
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return complexities.join(' or ');
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}
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}
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const methodLogs: Map<string, [number, number][]> = new Map();
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export function logBigOMetricsWrap<F extends AnyFunction>(fn: F, args: Parameters<F>, fnName: string) {
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const startTime = performance.now();
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const result = fn(args);
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const endTime = performance.now();
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const runTime = endTime - startTime;
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const methodName = `${fnName}`;
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if (!methodLogs.has(methodName)) {
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methodLogs.set(methodName, []);
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}
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const methodLog = methodLogs.get(methodName);
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const maxDataSize = args.length === 1 && typeof args[0] === 'number' ? args[0] : findPotentialN(args);
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if (methodLog) {
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methodLog.push([runTime, maxDataSize]);
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if (methodLog.length >= 20) {
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isDebug && console.log('triggered', methodName, methodLog);
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const bigO = estimateBigO(
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methodLog.map(([runTime]) => runTime),
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methodLog.map(([runTime]) => runTime)
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);
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isDebug && console.log(`Estimated Big O: ${bigO}`);
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methodLogs.delete(methodName);
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}
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}
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return result;
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}
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export function logBigOMetrics(target: any, propertyKey: string, descriptor: PropertyDescriptor) {
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const originalMethod = descriptor.value;
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descriptor.value = function (...args: any[]) {
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const startTime = performance.now();
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const result = originalMethod.apply(this, args);
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const endTime = performance.now();
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const runTime = endTime - startTime;
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const methodName = `${target.constructor.name}.${propertyKey}`;
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if (!methodLogs.has(methodName)) {
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methodLogs.set(methodName, []);
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}
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const methodLog = methodLogs.get(methodName);
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const maxDataSize = args.length === 1 && typeof args[0] === 'number' ? args[0] : findPotentialN(args);
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if (methodLog) {
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methodLog.push([runTime, maxDataSize]);
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if (methodLog.length >= 20) {
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isDebug && console.log('triggered', methodName, methodLog);
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const bigO = estimateBigO(
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methodLog.map(([runTime]) => runTime),
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methodLog.map(([runTime]) => runTime)
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);
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isDebug && console.log(`Estimated Big O: ${bigO}`);
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methodLogs.delete(methodName);
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}
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}
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return result;
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};
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return descriptor;
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}
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