为什么复杂的算法都用java或者c来实现而不是使用php这样子都脚本语言?
我觉得先用PHP实现,然后用C写也是可以的,毕竟写的时候要不断验证,这时PHP不需要编译、弱类型都是优势,等写好了再用C重写实现高性能,比如这是国人用PHP写的一个红黑树算法:
nil = array("left" => null ,"right" => null,"parent" => null,"color" => "BLACK","isnil" => true,"data" => "sentinel");// data 无意义
// set sentinel as the root
$this->root = &$this->nil;
}
public function Isnil(&$n)
{
return $n["isnil"];
}
// 按照算法导论
/*
PHP 里面没有引用这回事,只有别名,引用本身是一种类型,但是别名则不是一种类型
别名赋值给另外一个变量并不使其成为一个别名,而引用赋值另一个变量,那个变量也是引用
PHP中变量名都是别名
$a = 1;
$b = &a;
$a 和 $b 地位一样
别名就如同指针一样,但又有区别
REB BLACK TREE初始化的时候sentinel会作为root
sentinel相当于NULL节点,树中所有在bst中为NULL的指针均指向sentinel ,包括root的parent指针
*/
public function insert($n)
{
$y = &$this->nil;
$x = &$this->root;//root是一个引用,$x仍然是引用并且引用正确的对象吗?, $y = $x = $this->root $y仍然引用那个对象?
//看起来实际情况是 $x 得到的是root所引用对象的拷贝,最终$y也拷贝了一份
while( !$this->Isnil($x) )
{
$y = &$x;//每次进入新的子树,y代表root,第一次循环的时候,y会代表root,同时如果循环一次也未运行,y可以检测到树为空
if ($n["data"] <$x["data"])
$x = &$x["left"];
else
$x = &$x["right"];
}
if( $this->Isnil($y))
$this->root = &$n;
else if( $n["data"] <$y["data"] )
$y["left"] = &$n;
else
$y["right"] = &$n;
$n["parent"] = &$y;
$n["left"] = &$this->nil;//新加入的节点的right left都指向sentinel
$n["right"] = &$this->nil;
$n["color"] = "RED";
$n["isnil"] = false;
$this->insertFixup($n);
}
public function insertFixup(&$node)
{
$n = &$node;
while ( $n["parent"]["color"] == "RED" )
{
//echo "calling inserFixup,do actually fixup:".$n["data"]."parent:".$n["parent"]["data"]."(".$n["parent"]["color"].")n";
// php 中如何表示两个别名指向同一块内存
// 实际上比较两个别名,PHP是比较它们所指向的值,
// 如果有两块内存,存放了相同的东西,实际上它们的引用应该是不同的
// 但是PHP里面会认为相同
// 如果两个引用指向了不同的位置,但是其内容相等,应该有机制可以区别这两个引用
// 但是PHP是没有的
// PHP中似乎不能直接比较两个引用,一旦比较必然是比较变量本身,
$tmp = &$n["parent"]["parent"];
if( $n["parent"]["data"] == $tmp["left"]["data"] )
{
$y = &$n["parent"]["parent"]["right"];// uncle
//if uncle is red
if( $y["color"] == "RED" )
{
$n["parent"]["color"] = "BLACK";
$y["color"] = "BLACK";// SET UNCLE to black
$n["parent"]["parent"]["color"] = "RED";
$n = &$n["parent"]["parent"];
}
else //case 2
{
if ( $n["data"] == $n["parent"]["right"]["data"] )
{
$n = &$n["parent"];//将n指向其parent ,然后left rotate
$this->leftRotate($n);
}
$n["parent"]["color"] = "BLACK";
$n["parent"]["parent"]["color"] = "RED";
$this->rightRotate($n["parent"]["parent"]);
}
}
else // 对称的, n的parent是一个right child
{
$y = &$n["parent"]["parent"]["left"];// uncle
//if uncle is red
if( $y["color"] == "RED" )
{
$n["parent"]["color"] = "BLACK";
$y["color"] = "BLACK";// SET UNCLE to black
$n["parent"]["parent"]["color"] = "RED";
$n = &$n["parent"]["parent"];
}
else //case 2
{
if ( $n["data"] == $n["parent"]["left"]["data"] )
{
// 如果n是一个 left child
$n = &$n["parent"];
$this->rightRotate($n);
}
$n["parent"]["color"] = "BLACK";
$n["parent"]["parent"]["color"] = "RED";
$this->leftRotate($n["parent"]["parent"]);
}
}
}
$this->root["color"] = "BLACK";
}
/*
n
/
a y
/
b c
y
/
n c
/
a b
*/
public function leftRotate(&$n)
{
$y = &$n["right"];
$n["right"] = &$y["left"];
if ( !$this->Isnil($y["left"]) )
{
$y["left"]["parent"] = &$n;
}
$y["parent"] = &$n["parent"];
if ( $this->Isnil($n["parent"]) )
{
$this->root = &$y;
}
else if ( $n["data"] == $n["parent"]["left"]["data"] )//Fatal error: Nesting level too deep - recursive dependency?
{
$n["parent"]["left"] = &$y;
}
else
{
$n["parent"]["right"] = &$y;
}
$y["left"] = &$n;
$n["parent"] = &$y;
}
/*
n
/
y a
/
b c
y
/
b n
/
c a
*/
public function rightRotate(&$n)
{
$y = &$n["left"];
$n["left"] = &$y["right"];
if ( !$this->Isnil($y["right"]) )
{
$y["right"]["parent"] = &$n;
}
$y["parent"] = &$n["parent"];
if ( $this->Isnil($n["parent"]) )
{
$this->root = &$y;
}
else if ( $n["data"] == $n["parent"]["left"]["data"] )
{
$n["parent"]["left"] = &$y;
}
else
{
$n["parent"]["right"] = &$y;
}
$y["right"] = &$n;
$n["parent"] = &$y;
}
// 按照数据结构和算法分析里面的操作
public function delete($data,&$r)
{
if ( $r == null )
return;//没有找到节点,或者视图从一个空树中删除节点
if ( $data <$r["data"] )
$this->delete( $data, $r["left"] );
else if ( $data > $r["data"] )
$this->delete( $data, $r["right"] );
else if ( $r["left"] != null && $r["right"] != null )
{
//往下的都是$data == $r["data"] ,找到节点,而且其左右均不为空
$min = $this->findMin( $r["right"] );// y replace z ,
$r["data"] = $min["data"];
$this->delete( $r["data"] , $r["right"]);//delete y which in z's right subtree
}
else
{
//找到,但是该节点最多只有一个child
$r = ( $r["left"] != null ) ? $r["left"] : $r["right"];
}
}
// 检测是否违反红黑树性质, 用于测试插入和删除
public function checkerror()
{
if($this->root["color"] == "RED")
{
echo "root must be black n";
return;
}
}
public function transplant(&$u,&$v)
{
if ( $this->Isnil($u["parent"]) )
$this->root = &$v;
else if ( $u["data"] == $u["parent"]["left"]["data"] ) // whats wrong with the php
$u["parent"]["left"] = &$v;
else
$u["parent"]["right"] = &$v;
$v["parent"] = &$u["parent"];
}
public function delete2($data,&$r)
{
if ( $this->Isnil($r) )
return ;//没有找到节点
if ( $data <$r["data"])
$this->delete2( $data, $r["left"] );
else if ( $data > $r["data"] )
$this->delete2( $data, $r["right"] );
else
{
// we find the node , now we can call the algorithm in introduction to algorithm
$y = &$r;
$y_origin_color = $r["color"];
if ( $this->Isnil($r["left"]) )
{
// simulator the transplant z , z.right
// 我们没有改变指针间的关系,而是直接改变了变量的内容,将z所在的变量用z.right覆盖
// 在C++的实现中r是指针的引用,指向某个Node,这个引用的对象是parent的right或left
// 在那里是修改指针的内容为z.right,
// 但是PHP里面引用就代表变量本身,我们parent.left只是一个别名,别名实际上等于变量名
// 我们实际上没有得到parent的right 或 left,而是得到了一个和他等价的,也就是指向同一个变量的变量名
// 所以我们无法改变引用本身,只能改变其所指向的变量
$x = &$r["right"];
$this->transplant($r,$r["right"]);
//相当于transplant
}
else if( $this->Isnil($r["right"]) )
{
$x = &$r["left"];
$this->transplant($r,$r["left"]);
}
else
{
// 有两个 child
$y = &$this->findMin( $r["right"] ); // 加& 得到节点的引用
$y_origin_color = $y["color"];
echo "y.data is ".$y["data"]." ".$r["data"]."n";
// y has no left child
$x = &$y["right"];
if ( $y["parent"]["data"] == $r["data"])
{
// y 是r的直接child
$x["parent"] = &$y;// x could be sentinel , x will 取代y的位置
} else
{
// y 是right subtree中的某个节点
// 要用 y的right 取代y的位置
$this->transplant($y,$y["right"]);//因为PHP不是按照指针来区别节点的,因此如果y有两个sentinel节点,transplant函数会失效
$y["right"] = &$r["right"];
$y["right"]["parent"] = &$y; // 这里的right不是y原来的parent,而是来自r的 right,对transplant的继续
}
$this->transplant($r,$y);
$y["left"] = &$r["left"];//继续y取代r的步骤
$y["left"]["parent"] = &$y;// left could be sentinel
$y["color"] = $r["color"];
}
}
if ( $y_origin_color == "BLACK" )
$this->deleteFixup($x);
}
/*
这里要讨论一下,是否会出现,x的parent的两个孩子都是nil的情况
不可能,因为x的doubly black, 如果x是sentinel,那么x.parent的另一个节点绝不可能是sentinel too
p
/
x sentinel
这样的话,从到x的black节点比p到sentinel要多,
因此
if ( $x == $x["parent"]["left"] )
总会得到正确的结果
*/
public function deleteFixup(&$x)
{
while ( $x["data"] != $this->root["data"] && $x["color"] == "BLACK" ) // nest level too deep
{
// X is a doubly black
if ( $x["data"] == $x["parent"]["left"]["data"] ) // nest level too deep
{
// 如果x是sentinel,而x是right child,而parent也有一个sentinel的left child,
// 那么这个判断会失效
// 发现如果x是sentinel,那么无法判断x是left 还是right
$s = &$x["parent"]["right"]; // sibling
if ( $s["color"] == "RED" )
{
$s["color"] = "BLACK";
$x["parent"]["color"] = "RED";
$this->leftRotate($x["parent"]);
$s = $x["parent"]["right"];// sibling , now the sibling is BLACK , not introduce any violation , transform to case 2
}
if ( $s["left"]["color"] == "BLACK" && $s["right"]["color"] == "BLACK" )
{
$s["color"] = "RED";
$x = &$x["parent"];// float up the x , go back to the while iteration , the loop invariant : x is doubly or red blck node hold
}
else
{
if( $s["right"]["color"] == "BLACK" )
{
// SIBLING IS BLACK , 并且sibling的两个child不同时是BLACK , 如果right是BLACK ,left 一定是RED
// 操作是transform到 case 4
$s["left"]["color"] = "BLACK";
$s["color"] = "RED";// exchange s and s.left , then rightRotate
$this->rightRotate($s);
$s = &$x["parent"]["right"];
// now ,sibling is black ,and sibling has a RED right child , is case 4
}
// into case 4
$s["color"] = $x["parent"]["color"];
$x["parent"]["color"] = "BLACK";// SIBLING D PARENT 和 sibling 交换眼色
// 等价于
//$s["parent"]["color"] = "BLACK";,因为事先知道s的color,因此交换无须中间变量
$s["right"]["color"] = "BLACK";// 因为下面要rotate,经过right的路径会减少一个BLACK,因此将right改成黑色
$this->leftRotate($x["parent"]);
$x = &$this->root;// 完成
}
}
else
{
// 如果x是sentinel,而x是right child,而parent也有一个sentinel的left child,
// 那么这个判断会失效
// 发现如果x是sentinel,那么无法判断x是left 还是right
$s = &$x["parent"]["left"]; // sibling
if ( $s["color"] == "RED" )
{
$s["color"] = "BLACK";
$x["parent"]["color"] = "RED";
$this->rightRotate($x["parent"]);
$s = $x["parent"]["left"];// sibling , now the sibling is BLACK , not introduce any violation , transform to case 2
}
if ( $s["right"]["color"] == "BLACK" && $s["left"]["color"] == "BLACK" )
{
$s["color"] = "RED";
$x = &$x["parent"];// float up the x , go back to the while iteration , the loop invariant : x is doubly or red blck node hold
}
else
{
if( $s["left"]["color"] == "BLACK" )
{
// SIBLING IS BLACK , 并且sibling的两个child不同时是BLACK , 如果right是BLACK ,left 一定是RED
// 操作是transform到 case 4
$s["right"]["color"] = "BLACK";
$s["color"] = "RED";// exchange s and s.left , then rightRotate
$this->leftRotate($s);
$s = &$x["parent"]["left"];
// now ,sibling is black ,and sibling has a RED right child , is case 4
}
// into case 4
$s["color"] = $x["parent"]["color"];
$x["parent"]["color"] = "BLACK";// SIBLING D PARENT 和 sibling 交换眼色
// 等价于
//$s["parent"]["color"] = "BLACK";,因为事先知道s的color,因此交换无须中间变量
$s["left"]["color"] = "BLACK";// 因为下面要rotate,经过right的路径会减少一个BLACK,因此将right改成黑色
$this->rightRotate($x["parent"]);
$x = &$this->root;// 完成
}
}
}
$x["color"] = "BLACK";
}
public function & findMin( &$r )
{
if ( $this->Isnil($r) )
return null;
if ( $this->Isnil($r["left"]) )
return $r;
return $this->findMin($r["left"]);//此处不加&,返回的也是别名而不是拷贝
}
//按层,从左到右输出
public function printTree()
{
// 存储一个数组,是上一层的全部树根
$roots = array();
//初始只包含树根
$roots[] = $this->root;
$this->printTreeRecursion($roots);
}
public function printTreeRecursion($roots)
{
$nextroots = array();//当前层的所有节点的left right 组成的数组
if( count($roots) == 0 )//退出条件,某层为空
return;
for( $i = 0 ; $i printTreeRecursion($nextroots);
}
public function printTreePreorder(&$r,$d)
{
for( $i = 0 ; $i <$d * 2 ; $i++ )
echo " ";
if( $this->Isnil($r))
echo "nilln";
else
echo $r["data"]."(".$r["color"].") PARENT:".$r["parent"]["data"]."n";
if( $this->Isnil($r))
return;
$this->printTreePreorder($r["left"],$d+1);
$this->printTreePreorder($r["right"],$d+1);
}
// 中序可按顺序输出,中间的某个元素是跟
// 这个元素的左边所有元素是其左树,右边全部是其右树
public function printTreeInorder(&$r,$d)
{
if ( $r != null )
$this->printTreeInorder($r["left"],$d+1);
for( $i = 0 ; $i <$d * 2 ; $i++ )
echo " ";
if( $r == null)
echo "nilln";
else
echo $r["data"]."n";
if( $r != null)
$this->printTreeInorder($r["right"],$d+1);
}
}
$rbt = new RBTree();
echo "hahn";
//$rbt->insert(array("left" => null,"right" => null,"parent" => null,"color" => "RED","isnil" => false,"data" => 1));
echo "hahn";
//$rbt->insert(array("left" => null,"right" => null,"parent" => null,"color" => "RED","isnil" => false,"data" => 2));
echo "hahn";
//$rbt->insert(array("left" => null,"right" => null,"parent" => null,"color" => "RED","isnil" => false,"data" => 3));
echo "hahn";
//$rbt->printTreePreorder($rbt->root,0);
$rbt->insert(array("left" => null,"right" => null,"parent" => null,"color" => "RED","isnil" => false,"data" => 4));//执行此处的时候出了问题
echo "hahn";
$rbt->insert(array("left" => null,"right" => null,"parent" => null,"color" => "RED","isnil" => false,"data" => 5));
$rbt->insert(array("left" => null,"right" => null,"parent" => null,"color" => "RED","isnil" => false,"data" => 6));
$rbt->insert(array("left" => null,"right" => null,"parent" => null,"color" => "RED","isnil" => false,"data" => 7));
$rbt->insert(array("left" => null,"right" => null,"parent" => null,"color" => "RED","isnil" => false,"data" => 8));
$rbt->insert(array("left" => null,"right" => null,"parent" => null,"color" => "RED","isnil" => false,"data" => 9));
//$rbt->printTreePreorder($rbt->root,0);
$rbt->insert(array("left" => null,"right" => null,"parent" => null,"color" => "RED","isnil" => false,"data" => 23));
//$rbt->printTreePreorder($rbt->root,0);
/*
下面插入12之后,红黑树被破坏了
之前的树
4B
/
2B 6B
/ /
1B 3B 5B 8R
/
7B 9B
23R
正确的做法应该是12 会加到 23的left child, RED RED 冲突
uncle是BLACK,z本身是left child,我们应该做一个right rotate
4B
/
2B 6B
/ /
1B 3B 5B 7B
9B
/
8R 23R
/
12R
正确的结果应该是
4B
/
2B 6B
/ /
1B 3B 5B 8R
/
7B 12B
/
9R 23R
*/
$rbt->insert(array("left" => null,"right" => null,"parent" => null,"color" => "RED","isnil" => false,"data" => 12));
//$rbt->printTreePreorder($rbt->root,0);
$rbt->insert(array("left" => null,"right" => null,"parent" => null,"color" => "RED","isnil" => false,"data" => 10));
$rbt->insert(array("left" => null,"right" => null,"parent" => null,"color" => "RED","isnil" => false,"data" => 24));
$rbt->insert(array("left" => null,"right" => null,"parent" => null,"color" => "RED","isnil" => false,"data" => 28));
$rbt->insert(array("left" => null,"right" => null,"parent" => null,"color" => "RED","isnil" => false,"data" => -12));
//$rbt->insert(array("left" => null,"right" => null,"parent" => null,"color" => "RED","isnil" => false,"data" => -5));
//$rbt->insert(array("left" => null,"right" => null,"parent" => null,"color" => "RED","isnil" => false,"data" => -20));
//$rbt->insert(array("left" => null,"right" => null,"parent" => null,"color" => "RED","isnil" => false,"data" => -3));
$rbt->insert(array("left" => null,"right" => null,"parent" => null,"color" => "RED","isnil" => false,"data" => 102));
$rbt->insert(array("left" => null,"right" => null,"parent" => null,"color" => "RED","isnil" => false,"data" => 90));
$rbt->insert(array("left" => null,"right" => null,"parent" => null,"color" => "RED","isnil" => false,"data" => 72));
$rbt->insert(array("left" => null,"right" => null,"parent" => null,"color" => "RED","isnil" => false,"data" => 720));
$rbt->insert(array("left" => null,"right" => null,"parent" => null,"color" => "RED","isnil" => false,"data" => 121));
$rbt->printTreePreorder($rbt->root,0);
$rbt->delete2(4,$rbt->root);
$rbt->delete2(5,$rbt->root);
$rbt->delete2(8,$rbt->root);
$rbt->delete2(24,$rbt->root);
$rbt->delete2(28,$rbt->root);
$rbt->delete2(9,$rbt->root);
$rbt->delete2(6,$rbt->root);
$rbt->delete2(12,$rbt->root);
echo "hahan";
$rbt->printTreePreorder($rbt->root,0);
//finishing
// 红黑树在实际使用的时候,似乎会倾向于像右边倾斜
?>
算法是什么?
教科书说
Algorithm是指解题方案的准确而完整的描述,是一系列解决问题的清晰指令,算法代表着用系统的方法描述解决问题的策略机制。
再读一遍,发现什么?
我发现了
1. 算法是一个解决问题的方案,你乐意的话,完全可以用中文描述出来,中文写出来的人类语言那也是算法。
2. 算法跟计算机没有必然联系关系,没有发明计算机,世界上仍旧会有算法的问题。
3. 计算机发扬了算法,让算法得意引用,计算机语言就是算法的计算机表述。
4. 因此你用任何语言都可以实现
为什么复杂的算法都用java或者c来实现而不是使用php这样子都脚本语言?
首先: 这个问题有bug。
"都用"是你主管臆断,其实js,python实现的算法有很多。
那多用c,或者java的原因是?
- c和java程序员多
- c就是编程界的English,属于通用语言,到哪儿都可以被人读懂,并且顺利的翻译为任何语言。
- 数学好的人,少会js,php,因为js和php都属行业语言,太局限某个领域,例如离开了互联网,php有什么优势?js有什么优势呢?
- 复杂算法的关注人群大多对性能有追求,因此用C不是很合乎逻辑么?
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