const regex = /(\/)(\*)(.|\n)*?\2\1|(\/\/.*)/g;
// Alternative syntax using RegExp constructor
// const regex = new RegExp('(\\\/)(\\*)(.|\\n)*?\\2\\1|(\\\/\\\/.*)', 'g')
const str = `#include<stdio.h>
#include<stdlib.h>
typedef struct Node
{
int data;
struct Node *next;
struct Node *prev;
}node;
void insert(node *pointer, int data)
{
/* Iterate through the list till we encounter the last node.*/
while(pointer->next!=NULL)
{
pointer = pointer -> next;
}
/* Allocate memory for the new node and put data in it.*/
pointer->next = (node *)malloc(sizeof(node));
(pointer->next)->prev = pointer;
pointer = pointer->next;
pointer->data = data;
pointer->next = NULL;
}
int find(node *pointer, int key)
{
pointer = pointer -> next; //First node is dummy node.
/* Iterate through the entire linked list and search for the key. */
while(pointer!=NULL)
{
if(pointer->data == key) //key is found.
{
return 1;
}
pointer = pointer -> next;//Search in the next node.
}
/*Key is not found */
return 0;
}
void delete(node *pointer, int data)
{
/* Go to the node for which the node next to it has to be deleted */
while(pointer->next!=NULL && (pointer->next)->data != data)
{
pointer = pointer -> next;
}
if(pointer->next==NULL)
{
printf("Element %d is not present in the list\\n",data);
return;
}
/* Now pointer points to a node and the node next to it has to be removed */
node *temp;
temp = pointer -> next;
/*temp points to the node which has to be removed*/
pointer->next = temp->next;
temp->prev = pointer;
/*We removed the node which is next to the pointer (which is also temp) */
free(temp);
/* Beacuse we deleted the node, we no longer require the memory used for it .
free() will deallocate the memory.
*/
return;
}
void print(node *pointer)
{
if(pointer==NULL)
{
return;
}
printf("%d ",pointer->data);
print(pointer->next);
}
int main()
{
/* start always points to the first node of the linked list.
temp is used to point to the last node of the linked list.*/
node *start,*temp;
start = (node *)malloc(sizeof(node));
temp = start;
temp -> next = NULL;
temp -> prev = NULL;
/* Here in this code, we take the first node as a dummy node.
The first node does not contain data, but it used because to avoid handling special cases
in insert and delete functions.
*/
printf("1. Insert\\n");
printf("2. Delete\\n");
printf("3. Print\\n");
printf("4. Find\\n");
while(1)
{
int query;
scanf("%d",&query);
if(query==1)
{
int data;
scanf("%d",&data);
insert(start,data);
}
else if(query==2)
{
int data;
scanf("%d",&data);
delete(start,data);
}
else if(query==3)
{
printf("The list is ");
print(start->next);
printf("\\n");
}
else if(query==4)
{
int data;
scanf("%d",&data);
int status = find(start,data);
if(status)
{
printf("Element Found\\n");
}
else
{
printf("Element Not Found\\n");
}
}
}
}`;
// Reset `lastIndex` if this regex is defined globally
// regex.lastIndex = 0;
let m;
while ((m = regex.exec(str)) !== null) {
// This is necessary to avoid infinite loops with zero-width matches
if (m.index === regex.lastIndex) {
regex.lastIndex++;
}
// The result can be accessed through the `m`-variable.
m.forEach((match, groupIndex) => {
console.log(`Found match, group ${groupIndex}: ${match}`);
});
}
Please keep in mind that these code samples are automatically generated and are not guaranteed to work. If you find any syntax errors, feel free to submit a bug report. For a full regex reference for JavaScript, please visit: https://developer.mozilla.org/en/docs/Web/JavaScript/Guide/Regular_Expressions