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Initial commit: NOFX AI Trading System
- Multi-AI competition mode (Qwen vs DeepSeek) - Binance Futures integration - AI self-learning mechanism - Professional web dashboard - Complete risk management system
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108
web/node_modules/recharts-scale/src/util/arithmetic.js
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108
web/node_modules/recharts-scale/src/util/arithmetic.js
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/**
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* @fileOverview 一些公用的运算方法
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* @author xile611
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* @date 2015-09-17
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*/
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import Decimal from 'decimal.js-light';
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import { curry } from './utils';
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/**
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* 获取数值的位数
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* 其中绝对值属于区间[0.1, 1), 得到的值为0
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* 绝对值属于区间[0.01, 0.1),得到的位数为 -1
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* 绝对值属于区间[0.001, 0.01),得到的位数为 -2
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*
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* @param {Number} value 数值
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* @return {Integer} 位数
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*/
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function getDigitCount(value) {
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let result;
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if (value === 0) {
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result = 1;
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} else {
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result = Math.floor(new Decimal(value).abs().log(10)
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.toNumber()) + 1;
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}
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return result;
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}
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/**
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* 按照固定的步长获取[start, end)这个区间的数据
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* 并且需要处理js计算精度的问题
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*
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* @param {Decimal} start 起点
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* @param {Decimal} end 终点,不包含该值
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* @param {Decimal} step 步长
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* @return {Array} 若干数值
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*/
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function rangeStep(start, end, step) {
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let num = new Decimal(start);
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let i = 0;
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const result = [];
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// magic number to prevent infinite loop
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while (num.lt(end) && i < 100000) {
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result.push(num.toNumber());
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num = num.add(step);
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i++;
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}
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return result;
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}
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/**
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* 对数值进行线性插值
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*
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* @param {Number} a 定义域的极点
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* @param {Number} b 定义域的极点
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* @param {Number} t [0, 1]内的某个值
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* @return {Number} 定义域内的某个值
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*/
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const interpolateNumber = curry((a, b, t) => {
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const newA = +a;
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const newB = +b;
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return newA + t * (newB - newA);
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});
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/**
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* 线性插值的逆运算
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*
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* @param {Number} a 定义域的极点
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* @param {Number} b 定义域的极点
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* @param {Number} x 可以认为是插值后的一个输出值
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* @return {Number} 当x在 a ~ b这个范围内时,返回值属于[0, 1]
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*/
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const uninterpolateNumber = curry((a, b, x) => {
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let diff = b - (+a);
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diff = diff || Infinity;
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return (x - a) / diff;
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});
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/**
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* 线性插值的逆运算,并且有截断的操作
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*
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* @param {Number} a 定义域的极点
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* @param {Number} b 定义域的极点
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* @param {Number} x 可以认为是插值后的一个输出值
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* @return {Number} 当x在 a ~ b这个区间内时,返回值属于[0, 1],
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* 当x不在 a ~ b这个区间时,会截断到 a ~ b 这个区间
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*/
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const uninterpolateTruncation = curry((a, b, x) => {
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let diff = b - (+a);
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diff = diff || Infinity;
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return Math.max(0, Math.min(1, (x - a) / diff));
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});
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export default {
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rangeStep,
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getDigitCount,
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interpolateNumber,
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uninterpolateNumber,
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uninterpolateTruncation,
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};
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