Home >Backend Development >PHP Tutorial >javascript - Given a value, such as 100, and an array, select N elements from the array. The sum of these N elements is also 100. Just get one result.
Such as array:
<code>var arr = [99.1, 92.2, 60, 50, 49.5, 45.7, 25.1, 20, 17.4, 13, 10, 7, 2.1, 2, 1]; </code>
Find the array elements whose sum is 100:
<code>[60,20,10,7,2,1] </code>
Such as array:
<code>var arr = [99.1, 92.2, 60, 50, 49.5, 45.7, 25.1, 20, 17.4, 13, 10, 7, 2.1, 2, 1]; </code>
Find the array elements whose sum is 100:
<code>[60,20,10,7,2,1] </code>
<code>function f($n, $arr) { //$n是目标数字,$arr是数字组成的数组 if (empty($arr)) return false; //如果数组没有元素,返回 if (in_array($n, $arr)) return [$n];//如果期望的值已经存在,直接返回这个值 foreach($arr as $k => $v) { //遍历数组 if ($v > $n) continue; //比指定数还大,过 $copy = $arr; //复制数组 unset($copy[$k]); //去掉复制数组中已经被选中的数字 $next = f($n - $v, $copy); //递归计算 if(! empty($next)) return array_merge([$v], $next); //合并结果集 } return false;//没找到啊 } $arr = [99.1, 92.2, 60, 50, 49.5, 45.7, 25.1, 20, 7.4, 13, 10, 7, 2.1, 2, 1]; $data = f(100, $arr); print_r($data);//Array ( [0] => 60 [1] => 20 [2] => 13 [3] => 7 ) $data = f(105, $arr); print_r($data);//Array ( [0] => 60 [1] => 20 [2] => 13 [3] => 10 [4] => 2 ) </code>
Let’s get a Python version:
<code>def subsetsum(elements, target): if target==0: return True, [] elif not elements or target < 0: return False, None result, subset = subsetsum(elements[:-1], target-elements[-1]) return (True, subset + [elements[-1]]) if result else subsetsum(elements[:-1], target)</code>
The idea is very simple. When I want to ask whether elements
can be added to target
, there are only two possibilities:
I need to use element[-1]
to add target
-> I need to be able to use elements[:-1]
to add target-elements[-1]
I don’t need to use element[-1]
to add target
-> I need to be able to use elements[:-1]
to add target
boundary condition is:
When target
is 0
, it means I can add it without using anything, so return True, []
When elements
is empty or target
is a negative value, it means it can never be added, so return False, None
Test:
<code>elements = [99.1, 92.2, 60, 50, 49.5, 45.7, 25.1, 20, 17.4, 13, 10, 7, 2.1, 2, 1] target = 100 result, subset = subsetsum(elements, target) print(result, subset)</code>
Result:
<code>True [60, 20, 10, 7, 2, 1]</code>
Off topic, I feel very familiar when I see this question. It would be more interesting if we also consider the speed of solution and so on.
I have done research in this area before, and I raised a question about transformation. You can think about it:
Today we are given a multiset of integers (it is ok to represent negative numbers) (a multiset is a set, but elements are allowed to appear repeatedly), called
elements
, and given another multiset of integers, it is calledtargets
, let’s ask whether there are several sub-multisets, and the sum of elements of each sub-multiset has exactly one corresponding target intargets
.
It’s okay if you don’t understand the definition. Let me give you an example:
<code>elements = (1,4,6,4,1) targets = (5,10,1)</code>
This example has a solution:
<code>(1,4) -> 5 (4,6) -> 10 (1) -> 1</code>
Note that each element in elements
can only be used once!
Composition problem. Take a look at the original title of leetcode:
<code>function t100(array){ var tempArray = array.concat([]).sort(function(a,b){ return a-b; }); var temp = 0; var result = []; for(var i=0;i<tempArray.length;i++){ if(tempArray[i]>100){ tempArray.length = i; } } for(var i=0;i<tempArray.length;i++){ temp+=tempArray[i]; result.push(tempArray[i]); if(temp==100){ console.log("已经找到相加得100的数字们:",result) return result; } else{ console.log("暂时没有计算出相加得100的数字们") } } } t100([10,10,10,10,20,20,234,244,20,40]);</code>
A loop within a recursion