确定整数的平方根是否为整数的最快方法

基普:

我正在寻找最快的方法来确定一个long值是否是一个完美的平方(即,其平方根是另一个整数):

  1. 我已经通过使用内置Math.sqrt()函数轻松完成了此操作,但是我想知道是否有一种方法可以通过将自己限制为仅整数域来更快地完成此操作。
  2. 维护查找表是不切实际的(因为大约有2 31.5个整数,其平方小于2 63)。

这是我现在执行的非常简单明了的方法:

public final static boolean isPerfectSquare(long n)
{
  if (n < 0)
    return false;

  long tst = (long)(Math.sqrt(n) + 0.5);
  return tst*tst == n;
}

注意:我在许多Project Euler问题中都使用了此功能因此,没有其他人将不得不维护此代码。而且这种微优化实际上可能会有所作为,因为挑战的一部分是在不到一分钟的时间内完成每种算法,并且在某些问题中将需要数百万次调用此函数。


我已经尝试了不同的解决方案:

  • 经过详尽的测试,我发现0.5没有必要将Math.sqrt()的结果添加进去,至少在我的机器上没有。
  • 平方根倒数快速增快,但它给了不正确的结果对于n> = 410881.然而,所建议BobbyShaftoe,我们可以使用对于n <410881的FISR黑客攻击。
  • 牛顿的方法比慢Math.sqrt()这可能是因为Math.sqrt()使用了类似于牛顿方法的方法,但是是在硬件中实现的,因此它比Java快得多。同样,牛顿法仍然需要使用双精度。
  • 一种经过改进的牛顿方法,其中使用了一些技巧,以便仅涉及整数数学运算,因此需要一些技巧来避免溢出(我希望此函数与所有正负64位带符号整数一起使用),但它仍然比慢Math.sqrt()
  • 二进制印章甚至更慢。这是有道理的,因为二进制印章平均需要16次通过才能找到64位数字的平方根。
  • 根据John的测试,or在C ++中,使用语句比使用a更快switch,但是在Java和C#中,or之间似乎没有区别switch
  • 我还尝试制作查找表(作为64个布尔值的私有静态数组)。然后or,我只是说而不是switch或statement if(lookup[(int)(n&0x3F)]) { test } else return false;令我惊讶的是,这慢了一点。这是因为数组边界是在Java中检查的
雷克斯:

我想出一种方法,至少在我的CPU(x86)和编程语言(C / C ++)上比6bits + Cackack + sqrt代码快约35%。您的结果可能会有所不同,尤其是因为我不知道Java因素将如何发挥作用。

我的方法是三方面的:

  1. 首先,过滤出明显的答案。这包括负数并查看最后4位。(我发现查看最后六个没有帮助。)我也对0回答是。(在阅读下面的代码时,请注意我的输入是int64 x。)
    if( x < 0 || (x&2) || ((x & 7) == 5) || ((x & 11) == 8) )
        return false;
    if( x == 0 )
        return true;
  2. 接下来,检查它是否是平方模255 = 3 * 5 *17。因为这是三个不同素数的乘积,所以残差mod 255中只有约1/8是平方。但是,以我的经验,调用模运算符(%)所花费的成本要比获得的收益多,因此我使用涉及255 = 2 ^ 8-1的位技巧来计算残差。(无论好坏,我都没有使用从单词中读取单个字节的技巧,而只是按位与和移位。)
    int64 y = x;
    y = (y & 4294967295LL) + (y >> 32); 
    y = (y & 65535) + (y >> 16);
    y = (y & 255) + ((y >> 8) & 255) + (y >> 16);
    // At this point, y is between 0 and 511.  More code can reduce it farther.
    
    要实际检查残差是否为正方形,我在预先计算的表中查找答案。
    if( bad255[y] )
        return false;
    // However, I just use a table of size 512
    
  3. 最后,尝试使用类似于Hensel引理的方法计算平方根(我认为它不直接适用,但可以进行一些修改。)在此之前,我用二进制搜索将2的所有幂除掉:
    if((x & 4294967295LL) == 0)
        x >>= 32;
    if((x & 65535) == 0)
        x >>= 16;
    if((x & 255) == 0)
        x >>= 8;
    if((x & 15) == 0)
        x >>= 4;
    if((x & 3) == 0)
        x >>= 2;
    此时,要使我们的数字成为正方形,必须为1模8。
    if((x & 7) != 1)
        return false;
    Hensel引理的基本结构如下。(注意:未经测试的代码;如果无效,请尝试t = 2或8。)
    int64 t = 4, r = 1;
    t <<= 1; r += ((x - r * r) & t) >> 1;
    t <<= 1; r += ((x - r * r) & t) >> 1;
    t <<= 1; r += ((x - r * r) & t) >> 1;
    // Repeat until t is 2^33 or so.  Use a loop if you want.
    这个想法是,在每次迭代中,您需要在x的“当前”平方根r上加一位。每个平方根都是2的幂的乘积,即t / 2。最后,r和t / 2-r将是x以t / 2为模的平方根。(请注意,如果r是x的平方根,那么-r也是如此。即使对取模数也是如此,但是请注意,对某些数字取模,事物的平方根甚至可以大于2;值得注意的是,这包括2的幂。 )由于我们的实际平方根小于2 ^ 32,因此我们实际上可以仅检查r或t / 2-r是否为实平方根。在我的实际代码中,我使用以下修改后的循环:
    int64 r, t, z;
    r = start[(x >> 3) & 1023];
    do {
        z = x - r * r;
        if( z == 0 )
            return true;
        if( z < 0 )
            return false;
        t = z & (-z);
        r += (z & t) >> 1;
        if( r > (t >> 1) )
            r = t - r;
    } while( t <= (1LL << 33) );
    这里的加速是通过三种方式获得的:预先计算的起始值(相当于循环的约10次迭代),循环的较早退出以及跳过一些t值。在最后一部分中,我查看z = r - x * x,并将t设置为2的最大幂除以一点技巧。这使我可以跳过无论如何都不会影响r值的t值。在我的情况下,预先计算的起始值选取了“最小正”平方根模8192。

即使这段代码无法为您更快地工作,我希望您喜欢其中包含的一些想法。随后是完整的,经过测试的代码,包括预先计算的表。

typedef signed long long int int64;

int start[1024] =
{1,3,1769,5,1937,1741,7,1451,479,157,9,91,945,659,1817,11,
1983,707,1321,1211,1071,13,1479,405,415,1501,1609,741,15,339,1703,203,
129,1411,873,1669,17,1715,1145,1835,351,1251,887,1573,975,19,1127,395,
1855,1981,425,453,1105,653,327,21,287,93,713,1691,1935,301,551,587,
257,1277,23,763,1903,1075,1799,1877,223,1437,1783,859,1201,621,25,779,
1727,573,471,1979,815,1293,825,363,159,1315,183,27,241,941,601,971,
385,131,919,901,273,435,647,1493,95,29,1417,805,719,1261,1177,1163,
1599,835,1367,315,1361,1933,1977,747,31,1373,1079,1637,1679,1581,1753,1355,
513,1539,1815,1531,1647,205,505,1109,33,1379,521,1627,1457,1901,1767,1547,
1471,1853,1833,1349,559,1523,967,1131,97,35,1975,795,497,1875,1191,1739,
641,1149,1385,133,529,845,1657,725,161,1309,375,37,463,1555,615,1931,
1343,445,937,1083,1617,883,185,1515,225,1443,1225,869,1423,1235,39,1973,
769,259,489,1797,1391,1485,1287,341,289,99,1271,1701,1713,915,537,1781,
1215,963,41,581,303,243,1337,1899,353,1245,329,1563,753,595,1113,1589,
897,1667,407,635,785,1971,135,43,417,1507,1929,731,207,275,1689,1397,
1087,1725,855,1851,1873,397,1607,1813,481,163,567,101,1167,45,1831,1205,
1025,1021,1303,1029,1135,1331,1017,427,545,1181,1033,933,1969,365,1255,1013,
959,317,1751,187,47,1037,455,1429,609,1571,1463,1765,1009,685,679,821,
1153,387,1897,1403,1041,691,1927,811,673,227,137,1499,49,1005,103,629,
831,1091,1449,1477,1967,1677,697,1045,737,1117,1737,667,911,1325,473,437,
1281,1795,1001,261,879,51,775,1195,801,1635,759,165,1871,1645,1049,245,
703,1597,553,955,209,1779,1849,661,865,291,841,997,1265,1965,1625,53,
1409,893,105,1925,1297,589,377,1579,929,1053,1655,1829,305,1811,1895,139,
575,189,343,709,1711,1139,1095,277,993,1699,55,1435,655,1491,1319,331,
1537,515,791,507,623,1229,1529,1963,1057,355,1545,603,1615,1171,743,523,
447,1219,1239,1723,465,499,57,107,1121,989,951,229,1521,851,167,715,
1665,1923,1687,1157,1553,1869,1415,1749,1185,1763,649,1061,561,531,409,907,
319,1469,1961,59,1455,141,1209,491,1249,419,1847,1893,399,211,985,1099,
1793,765,1513,1275,367,1587,263,1365,1313,925,247,1371,1359,109,1561,1291,
191,61,1065,1605,721,781,1735,875,1377,1827,1353,539,1777,429,1959,1483,
1921,643,617,389,1809,947,889,981,1441,483,1143,293,817,749,1383,1675,
63,1347,169,827,1199,1421,583,1259,1505,861,457,1125,143,1069,807,1867,
2047,2045,279,2043,111,307,2041,597,1569,1891,2039,1957,1103,1389,231,2037,
65,1341,727,837,977,2035,569,1643,1633,547,439,1307,2033,1709,345,1845,
1919,637,1175,379,2031,333,903,213,1697,797,1161,475,1073,2029,921,1653,
193,67,1623,1595,943,1395,1721,2027,1761,1955,1335,357,113,1747,1497,1461,
1791,771,2025,1285,145,973,249,171,1825,611,265,1189,847,1427,2023,1269,
321,1475,1577,69,1233,755,1223,1685,1889,733,1865,2021,1807,1107,1447,1077,
1663,1917,1129,1147,1775,1613,1401,555,1953,2019,631,1243,1329,787,871,885,
449,1213,681,1733,687,115,71,1301,2017,675,969,411,369,467,295,693,
1535,509,233,517,401,1843,1543,939,2015,669,1527,421,591,147,281,501,
577,195,215,699,1489,525,1081,917,1951,2013,73,1253,1551,173,857,309,
1407,899,663,1915,1519,1203,391,1323,1887,739,1673,2011,1585,493,1433,117,
705,1603,1111,965,431,1165,1863,533,1823,605,823,1179,625,813,2009,75,
1279,1789,1559,251,657,563,761,1707,1759,1949,777,347,335,1133,1511,267,
833,1085,2007,1467,1745,1805,711,149,1695,803,1719,485,1295,1453,935,459,
1151,381,1641,1413,1263,77,1913,2005,1631,541,119,1317,1841,1773,359,651,
961,323,1193,197,175,1651,441,235,1567,1885,1481,1947,881,2003,217,843,
1023,1027,745,1019,913,717,1031,1621,1503,867,1015,1115,79,1683,793,1035,
1089,1731,297,1861,2001,1011,1593,619,1439,477,585,283,1039,1363,1369,1227,
895,1661,151,645,1007,1357,121,1237,1375,1821,1911,549,1999,1043,1945,1419,
1217,957,599,571,81,371,1351,1003,1311,931,311,1381,1137,723,1575,1611,
767,253,1047,1787,1169,1997,1273,853,1247,413,1289,1883,177,403,999,1803,
1345,451,1495,1093,1839,269,199,1387,1183,1757,1207,1051,783,83,423,1995,
639,1155,1943,123,751,1459,1671,469,1119,995,393,219,1743,237,153,1909,
1473,1859,1705,1339,337,909,953,1771,1055,349,1993,613,1393,557,729,1717,
511,1533,1257,1541,1425,819,519,85,991,1693,503,1445,433,877,1305,1525,
1601,829,809,325,1583,1549,1991,1941,927,1059,1097,1819,527,1197,1881,1333,
383,125,361,891,495,179,633,299,863,285,1399,987,1487,1517,1639,1141,
1729,579,87,1989,593,1907,839,1557,799,1629,201,155,1649,1837,1063,949,
255,1283,535,773,1681,461,1785,683,735,1123,1801,677,689,1939,487,757,
1857,1987,983,443,1327,1267,313,1173,671,221,695,1509,271,1619,89,565,
127,1405,1431,1659,239,1101,1159,1067,607,1565,905,1755,1231,1299,665,373,
1985,701,1879,1221,849,627,1465,789,543,1187,1591,923,1905,979,1241,181};

bool bad255[512] =
{0,0,1,1,0,1,1,1,1,0,1,1,1,1,1,0,0,1,1,0,1,0,1,1,1,0,1,1,1,1,0,1,
 1,1,0,1,0,1,1,1,1,1,1,1,1,1,1,1,1,0,1,0,1,1,1,0,1,1,1,1,0,1,1,1,
 0,1,0,1,1,0,0,1,1,1,1,1,0,1,1,1,1,0,1,1,0,0,1,1,1,1,1,1,1,1,0,1,
 1,1,1,1,0,1,1,1,1,1,0,1,1,1,1,0,1,1,1,0,1,1,1,1,0,0,1,1,1,1,1,1,
 1,1,1,1,1,1,1,0,0,1,1,1,1,1,1,1,0,0,1,1,1,1,1,0,1,1,0,1,1,1,1,1,
 1,1,1,1,1,1,0,1,1,0,1,0,1,1,0,1,1,1,1,1,1,1,1,1,1,1,0,1,1,0,1,1,
 1,1,1,0,0,1,1,1,1,1,1,1,0,0,1,1,1,1,1,1,1,1,1,1,1,1,1,0,0,1,1,1,
 1,0,1,1,1,0,1,1,1,1,0,1,1,1,1,1,0,1,1,1,1,1,0,1,1,1,1,1,1,1,1,
 0,0,1,1,0,1,1,1,1,0,1,1,1,1,1,0,0,1,1,0,1,0,1,1,1,0,1,1,1,1,0,1,
 1,1,0,1,0,1,1,1,1,1,1,1,1,1,1,1,1,0,1,0,1,1,1,0,1,1,1,1,0,1,1,1,
 0,1,0,1,1,0,0,1,1,1,1,1,0,1,1,1,1,0,1,1,0,0,1,1,1,1,1,1,1,1,0,1,
 1,1,1,1,0,1,1,1,1,1,0,1,1,1,1,0,1,1,1,0,1,1,1,1,0,0,1,1,1,1,1,1,
 1,1,1,1,1,1,1,0,0,1,1,1,1,1,1,1,0,0,1,1,1,1,1,0,1,1,0,1,1,1,1,1,
 1,1,1,1,1,1,0,1,1,0,1,0,1,1,0,1,1,1,1,1,1,1,1,1,1,1,0,1,1,0,1,1,
 1,1,1,0,0,1,1,1,1,1,1,1,0,0,1,1,1,1,1,1,1,1,1,1,1,1,1,0,0,1,1,1,
 1,0,1,1,1,0,1,1,1,1,0,1,1,1,1,1,0,1,1,1,1,1,0,1,1,1,1,1,1,1,1,
 0,0};

inline bool square( int64 x ) {
    // Quickfail
    if( x < 0 || (x&2) || ((x & 7) == 5) || ((x & 11) == 8) )
        return false;
    if( x == 0 )
        return true;

    // Check mod 255 = 3 * 5 * 17, for fun
    int64 y = x;
    y = (y & 4294967295LL) + (y >> 32);
    y = (y & 65535) + (y >> 16);
    y = (y & 255) + ((y >> 8) & 255) + (y >> 16);
    if( bad255[y] )
        return false;

    // Divide out powers of 4 using binary search
    if((x & 4294967295LL) == 0)
        x >>= 32;
    if((x & 65535) == 0)
        x >>= 16;
    if((x & 255) == 0)
        x >>= 8;
    if((x & 15) == 0)
        x >>= 4;
    if((x & 3) == 0)
        x >>= 2;

    if((x & 7) != 1)
        return false;

    // Compute sqrt using something like Hensel's lemma
    int64 r, t, z;
    r = start[(x >> 3) & 1023];
    do {
        z = x - r * r;
        if( z == 0 )
            return true;
        if( z < 0 )
            return false;
        t = z & (-z);
        r += (z & t) >> 1;
        if( r > (t  >> 1) )
            r = t - r;
    } while( t <= (1LL << 33) );

    return false;
}

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