如何编写三元搜索算法?
How to write the Ternary Search alogrithm?
搜索排序的算法
n 个项目的列表,将其分成几乎 n/3 个项目的三个子列表。该算法发现
可能包含给定项目的子列表,并将其分成三个更小的子列表,几乎
大小相等。算法重复这个过程,直到它找到该项目或断定该项目
不在列表中
您在那里描述的称为 Ternary Searching Algorithm,它类似于二分搜索,只是我们将集合分为三个子集。这是 C++ 中的解释:
// Function to perform Ternary Search
int ternarySearch(int l, int r, int key, int ar[])
{
if (r >= l) {
// Find the mid1 and mid2
int mid1 = l + (r - l) / 3;
int mid2 = r - (r - l) / 3;
// Check if key is present at any mid
if (ar[mid1] == key) {
return mid1;
}
if (ar[mid2] == key) {
return mid2;
}
// Since key is not present at mid,
// check in which region it is present
// then repeat the Search operation
// in that region
if (key < ar[mid1]) {
// The key lies in between l and mid1
return ternarySearch(l, mid1 - 1, key, ar);
}
else if (key > ar[mid2]) {
// The key lies in between mid2 and r
return ternarySearch(mid2 + 1, r, key, ar);
}
else {
// The key lies in between mid1 and mid2
return ternarySearch(mid1 + 1, mid2 - 1, key, ar);
}
}
// Key not found
return -1;
}
// Driver code
int main()
{
int l, r, p, key;
// Get the array
// Sort the array if not sorted
int ar[] = { 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 };
// Starting index
l = 0;
// length of array
r = 9;
// Checking for 5
// Key to be searched in the array
key = 5;
// Search the key using ternarySearch
p = ternarySearch(l, r, key, ar);
// Print the result
cout << "Index of " << key
<< " is " << p << endl;
// Checking for 50
// Key to be searched in the array
key = 50;
// Search the key using ternarySearch
p = ternarySearch(l, r, key, ar);
// Print the result
cout << "Index of " << key
<< " is " << p << endl;
}
搜索排序的算法 n 个项目的列表,将其分成几乎 n/3 个项目的三个子列表。该算法发现 可能包含给定项目的子列表,并将其分成三个更小的子列表,几乎 大小相等。算法重复这个过程,直到它找到该项目或断定该项目 不在列表中
您在那里描述的称为 Ternary Searching Algorithm,它类似于二分搜索,只是我们将集合分为三个子集。这是 C++ 中的解释:
// Function to perform Ternary Search
int ternarySearch(int l, int r, int key, int ar[])
{
if (r >= l) {
// Find the mid1 and mid2
int mid1 = l + (r - l) / 3;
int mid2 = r - (r - l) / 3;
// Check if key is present at any mid
if (ar[mid1] == key) {
return mid1;
}
if (ar[mid2] == key) {
return mid2;
}
// Since key is not present at mid,
// check in which region it is present
// then repeat the Search operation
// in that region
if (key < ar[mid1]) {
// The key lies in between l and mid1
return ternarySearch(l, mid1 - 1, key, ar);
}
else if (key > ar[mid2]) {
// The key lies in between mid2 and r
return ternarySearch(mid2 + 1, r, key, ar);
}
else {
// The key lies in between mid1 and mid2
return ternarySearch(mid1 + 1, mid2 - 1, key, ar);
}
}
// Key not found
return -1;
}
// Driver code
int main()
{
int l, r, p, key;
// Get the array
// Sort the array if not sorted
int ar[] = { 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 };
// Starting index
l = 0;
// length of array
r = 9;
// Checking for 5
// Key to be searched in the array
key = 5;
// Search the key using ternarySearch
p = ternarySearch(l, r, key, ar);
// Print the result
cout << "Index of " << key
<< " is " << p << endl;
// Checking for 50
// Key to be searched in the array
key = 50;
// Search the key using ternarySearch
p = ternarySearch(l, r, key, ar);
// Print the result
cout << "Index of " << key
<< " is " << p << endl;
}