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-   C (http://www.go4expert.com/articles/c-tutorials/)
-   -   Circular linked list (http://www.go4expert.com/articles/circular-linked-list-t1282/)

shabbir 27Aug2006 18:40

Circular linked list
 
Program for singly circular linked list which inserts, deletes, searches .... data in it

Code: C

#include <stdio.h>
#include <conio.h>
#include <stdlib.h>
#include <string.h>

/*****  Structure template  *****/
struct list{
    int roll_no;
    char name[20];
    float marks;
    struct list *next;
};

/*****  Redefining struct list as node  *****/
typedef struct list node;

void init(node*);
void ins_aft(node*);       /*** FUNCTION FOR DELETING A NODE AFTER ***/
node* ins_bef(node*);      /*** FUNCTION FOR INSERTING A NODE BEFORE ***/
node* del(node*);          /*** FUNCTION FOR DELETING A NODE ***/
void search(node*);        /*** FUNCTION FOR SEARCHING CRITERIA INPUT ***/
void disp(node*);          /*** FUNCTION DISPLAYING THE NODES ***/
void rollsrch(node*);      /*** FUNCTION SEARCHING THROUGH ROLL NUMBER ***/
void namesrch(node*);      /*** FUNCTION SEARCHING THROUGH NAME ***/
void marksrch(node*);      /*** FUNCTION SEARCHING THROUGH MARKS ***/

/*****  Main function  *****/
void main()
{
    node *head;               /* HEAD OF THE LINK LIST */
    char ch;                  /* Choice inputing varible */
    int opt;                  /* Option inputing variable*/
    static int flag=0;        /* Unchanged after iniialization */
    clrscr();
    head=(node*)malloc(sizeof(node));
    head->next=NULL;   /* NULL is being over written in init function */
    do
    {
again:
    printf("\nEnter your option\n");
    printf("\n1. Initialize the node\n");
    printf("\n2. Insert before a specified node\n");
    printf("\n3. Insert after a specified node\n");
    printf("\n4. Delete a particular node\n");
    printf("\n5. Search the nodes\n");
    printf("\n6. Display all the nodes\n");
    scanf("%d",&opt);
    if(flag==0 && opt!=1)
    {
        printf("\nNo. You must first initialize at least one node\n");
        goto again;
    }
    if(flag==1 && opt==1)
    {
        printf("\nInitialisation can occur only once.\n");
        printf("\nNow you can insert a node\n");
        goto again;
    }
    if(opt==4 && head->next==head)
    {
        printf("\nYou cannot delete the one and only the single node\n");
        goto again;
    }
    if(flag==0 && opt==1)
        flag=1;
    switch(opt)
    {
    case 1:
        init(head);
        break;
    case 2:
        head=ins_bef(head);
        break;
    case 3:
        ins_aft(head);
        break;
    case 4:
        head=del(head);
        break;
    case 5:
        search(head);
        break;
    case 6:
        disp(head);
        break;
    }
    printf("\nDo you wish to continue[y/n]\n");
    ch=(char)getche();
    }while(ch=='Y' || ch=='y');
    printf("\nDone by \"SHABBIR\"\n");
    printf("\nPress any key to exit\n");
    getch();
}

/*****  Initialisation function  *****/
void init(node *start)
{
    printf("\nEnter Roll number\n");
    scanf("%d",&start->roll_no);
    printf("\nEnter the name\n");
    fflush(stdin);
    gets(start->name);
    printf("\nEnter the marks\n");
    scanf("%f",&start->marks);
    start->next=start;
}

/*****  Function for inserting before a particular node  *****/
node* ins_bef(node *start)
{
    int rno;                    /* Roll number for inserting a node*/
    node *newnode;              /* New inputed node*/
    node *current;              /* Node for travelling the linked list*/
    newnode=(node*)malloc(sizeof(node));
    current=start;
    printf("\nEnter the roll number before which you want to insert a node\n");
    scanf("%d",&rno);
    init(newnode);
    if(current->roll_no==rno)
    {
        newnode->next=start;
        while(current->next!=start)
            current=current->next;
        current->next=newnode;
        start=newnode;
        return(start);
    }
    while(current->next!=start)
    {
        if(current->next->roll_no==rno)
        {
            newnode->next=current->next;
            current->next=newnode;
            return(start);
        }
        current=current->next;
    }
    /*
    If the function does not return from any return statement.
    There is no match to insert before the input  roll number.
    */

    printf("\nMatch not found\n");
    return(start);
}

/*****  Function for inserting after a particular node  *****/
void ins_aft(node *start)
{
    int rno;                    /* Roll number for inserting a node*/
    int flag=0;
    node *newnode;              /* New inputed node*/
    node *current;              /* Node for travelling the linked list*/
    newnode=(node*)malloc(sizeof(node));
    printf("\nEnter the roll number after which you want to insert a node\n");
    scanf("%d",&rno);
    init(newnode);
    current=start;
    while(current->next!=start)
    {
        /***  Insertion checking for all nodes except last  ***/
        if(current->roll_no==rno)
        {
            newnode->next=current->next;
            current->next=newnode;
            flag=1;
        }
        current=current->next;
    }
    if(flag==0 && current->next==start && current->roll_no==rno)
    {
        /***  Insertion checking for last nodes  ***/
        newnode->next=current->next;    /** start is copied in newnode->next**/
        current->next=newnode;
        flag=1;
    }
    if(flag==0 && current->next==start)
        printf("\nNo match found\n");
}

/*****  deletion function  *****/
node* del(node *start)
{
    int rno;                    /* Roll number for deleting a node*/
    node *delnode;          /* Node to be deleted */
    node *current;              /* Node for travelling the linked list*/
    printf("\nEnter the roll number whose node you want to delete\n");
    scanf("%d",&rno);
    current=start;
    if(current->roll_no==rno)
    {
        /***  Checking condition for deletion of first node  ***/
        delnode=current; /*  Unnecessary step  */
        while(current->next!=start)
            current=current->next;
        current->next=start->next;
        start=start->next;
        free(delnode);
        return(start);
    }
    else
    {
        while(current->next->next!=start)
        {
            /***  Checking condition for deletion of   ***/
            /*** all nodes except first and last node  ***/
            if(current->next->roll_no==rno)
            {
                delnode=current->next;
                current->next=current->next->next;
                free(delnode);
                return(start);
            }
            current=current->next;
        }
        if(current->next->next==start && current->next->roll_no==rno)
        {
            /***  Checking condition for deletion of last node  ***/
            delnode=current->next;
            free(delnode);
            current->next=start;
            return(start);
        }
    }
    printf("\nMatch not found\n");
    return(start);
}

void search(node *start)
{
    int ch;                          /* Choice inputing variable */
    printf("\nEnter the criteria for search\n");
    printf("\n1. Roll number\n");
    printf("\n2. Name\n");
    printf("\n3. Marks\n");
    scanf("%d",&ch);
    switch(ch)
    {
    case 1:
        rollsrch(start);
        break;
    case 2:
        namesrch(start);
        break;
    case 3:
        marksrch(start);
        break;
    default:
        rollsrch(start);
    }
}

/*****  Search function searching the appropriate roll number *****/
void rollsrch(node *start)
{
    int rno;                    /* Roll number to be searched */
    node *current;              /* Node for travelling the linked list*/
    current=start;
    printf("\nEnter the roll number to search\n");
    scanf("%d",&rno);
    while(current->next!=start)
    {
        if(current->roll_no==rno)
            printf("\n %d  %s  %f\n",current->roll_no,current->name,current->marks);
        current=current->next;
    }
    if(current->next==start && current->roll_no==rno)
        printf("\n %d  %s  %f\n",current->roll_no,current->name,current->marks);
}

/*****  Search function searching the appropriate name *****/
void namesrch(node *start)
{
    char arr[20];               /* Name to be searched */
    node *current;              /* Node for travelling the linked list*/
    current=start;
    printf("\nEnter the name to search\n");
    fflush(stdin);
    gets(arr);
    while(current->next!=start)
    {
        if(strcmp(current->name,arr)==NULL)
            printf("\n %d  %s  %f\n",current->roll_no,current->name,current->marks);
        current=current->next;
    }
    if(current->next==start && strcmp(current->name,arr)==NULL)
        printf("\n %d  %s  %f\n",current->roll_no,current->name,current->marks);
}

/*****  Search function searching the appropriate marks *****/
void marksrch(node *start)
{
    float marks;                /* Marks to be searched */
    node *current;              /* Node for travelling the linked list*/
    current=start;
    printf("\nEnter the marks to search\n");
    scanf("%f",&marks);
    while(current->next!=start)
    {
        if(current->marks==marks)
            printf("\n %d  %s  %f\n",current->roll_no,current->name,current->marks);
        current=current->next;
    }
    if(current->next==start && current->marks==marks)
        printf("\n %d  %s  %f\n",current->roll_no,current->name,current->marks);
}

/*****  Output displaying function  *****/
void disp(node *start)
{
    node *current;              /* Node for travelling the linked list*/
    current=start;
    while(current->next!=start)
    {
        printf("\n %d  %s  %f",current->roll_no,current->name,current->marks);
        current=current->next;
    }
    printf("\n %d  %s  %f",current->roll_no,current->name,current->marks);
}


Peter_APIIT 31Jan2008 09:45

Re: Circular linked list
 
Good article.

My circular link list concept is tail-> next = head;

Code:

#include<stdio.h>
#include<stdlib.h>
#include<assert.h>
#include<string.h>  // memset

#include "Link_List.h"

// -------------------------------------------------------
/*
  1. Insert Behind            // Done
  2. Insert In Front          // Done
  3. Random Insert Front-nth  // Done
  4. Remove Behind until zero or one only    // Done
  5. Remove In Front          // Done
  6. Random Remove -nth          // Done
  7. Display                    // Done
  8. Length  Index            // Done
  9. Palindrome
  10. Full Reverse            // Circular Link List
  11. merge                    // Done  SortedMerge MergeSort
  12. Count a particular int
  13. Get_Node_At_Index        // Done
  14. Split List
  15. Remove Duplicates
  16. Swap
  17. Empty          // Done
  18. Calcualte number of node can malloc
      from heap memory


Random cannot operate in head and tail

Double Link List
Double Circular Link List
Associate Link List
Skip List

Josephus problem

Searching
move-to-front heuristic = Once an elemnt found move to
                          first node
Index

*/

 /*
        Random must have a index to indicate the postion where
    almost same as array in order to achieve fast
        processing
*/


// -------------------------------------------------------

// tail->next = head; Circular Link List

void draw();

// --------------------List Function----------------------

struct LList* list_allocate(struct LList *);
void list_deallocate(struct LList *);

void Initialize_List(struct LList *);

int LList_ValidateIsAlloc(struct LList *);


struct LList* InsertBehind(struct LList *, struct node *);
struct LList* InsertFront(struct LList *, struct node*);
struct LList* RandomInsert(struct LList *, struct node*);
// Random Insert cannot insert at head and tail

struct LList* RemoveBehind(struct LList *);
struct LList* RemoveFront(struct LList *);
struct LList* RandomRemove(struct LList *);
// Random Remove cannot remove head and tail

struct LList* MergeList(struct LList *, struct LList *);


int get_Value_at_index(struct LList *);

int Validate_Index(struct LList *, int);
int isEmpty(struct LList *);
int length_of_List(struct LList *); 


// --------------------Node Function----------------------

struct node* node_allocate();
void node_deallocate(struct node *);


void Initialize_node(struct node *, int *);
int node_validateIsAlloc(struct node *); 

void userInput(int *);
void display(const struct LList *);



// ------------------------------------------------------
int main(int argc, char *argv[]) // char **argv
{
        struct LList *myList = 0;
        struct LList *myListSecond = 0;
        struct node *node;

        int length = 0, result, number, *numberptr;

        numberptr = &number;
       
        draw();
                         
        myList = list_allocate(myList); // Call by reference
        Initialize_List(myList);


// 1 node
        node = node_allocate();
        userInput(numberptr);
        Initialize_node(node, numberptr);//        InitializeCurrent(myList, node);
        myList = InsertBehind(myList, node);

// 2 node
        node = node_allocate();
        userInput(numberptr);
        Initialize_node(node, numberptr);
        myList = InsertBehind(myList, node);

// 3 node
        node = node_allocate();
        userInput(numberptr);
        Initialize_node(node, numberptr);
        myList = InsertBehind(myList, node);

// 4 node
        node = node_allocate();
        userInput(numberptr);
        Initialize_node(node, numberptr);
        myList = InsertBehind(myList, node);

// ----------------------------------------------------

// 2 List
        myListSecond = list_allocate(myList);
        Initialize_List(myListSecond);

// 1 node of 2 list
        node = node_allocate();
        userInput(numberptr);
        Initialize_node(node, numberptr);
        myListSecond = InsertBehind(myListSecond, node);

    myList = MergeList(myList, myListSecond);

        // InsertFront
        node = node_allocate();
        userInput(numberptr);
        Initialize_node(node, numberptr);
        myList = InsertFront(myList, node);

        length = length_of_List(myList);
        display(myList);

        // Random Insert
        node = node_allocate();
        userInput(numberptr);
        Initialize_node(node, numberptr);
        myList = RandomInsert(myList, node);


        length = length_of_List(myList);
        display(myList);


        myList = RemoveBehind(myList);
        display(myList);


        result = get_Value_at_index(myList);

        node = node_allocate();
        userInput(numberptr);
        Initialize_node(node, numberptr);
        InsertBehind(myList, node);

        display(myList);

        myList = RemoveFront(myList);

        display(myList);

        node_deallocate(node);
        list_deallocate(myList);
       
        return 0;
}

// ------------------------------------------------------
void draw()
{
        int loop;

        printf("\n\n\n\t\t");

        for (loop=0;loop<60;loop++)
        {
                printf("-");
        }
       
        printf("\n\n\t\t\t  Welcome to newly Link List Simulation Program");
        printf("\n\n\n\t\t");
        for (loop=0;loop<60;loop++)
        {
                printf("-");
        }
        printf("\n\n\n\n");
       
}
// -------------------------------------------------------
struct LList* list_allocate(struct LList *myList)
{
        int count = 1;

        do
        {
                myList = (struct LList *)malloc(sizeof(struct LList));
                assert(myList != NULL);
        // Ptr must initialize No dangling ptr

                if (count == 2)
                {
                        fprintf(stdout, "\n\t\t\tList Memory Allocation unsuccessful");
                        exit(0);
                }
                count++;
                fflush(stdout);
        }while( LList_ValidateIsAlloc(myList) == 0 && count < 3);

        /*
          Continue to loop even though memory is exhausted
          for first time but not over second times because
          this is unrealistic
        */

        return myList;
}

// -------------------------------------------------------
void list_deallocate(struct LList *myList)
{
        if (myList != NULL)
        {
                free(myList);
                myList = NULL;
        }
        else
        {
                exit(0);
        }
}
// -------------------------------------------------------
void Initialize_List(struct LList *myList)
{
        if (LList_ValidateIsAlloc(myList) != 0) // Not NULL
        {
                myList->head = NULL;
                myList->tail = NULL;
        }
        else
        {
                exit(0);
        }
}
// -------------------------------------------------------
int LList_ValidateIsAlloc(struct LList *myList)
{
        assert(myList != NULL);

        // If allocation is successful, then return true
        if (myList != NULL)
        {
//                fprintf(stdout, "Memory Allocation successful");
                return 1;
        }// Three control structure
        else
        {
                fprintf(stdout, "Memory exhausted");
                return 0;
        }
}
// -------------------------------------------------------
struct node* node_allocate()
{
        struct node *node;
        int count = 1;

        do
        {
                node = (struct node *)malloc(sizeof(struct node));
                assert(node != 0);

                count++;

        }while(        node_validateIsAlloc(node) == 0 && count < 3);


        if (node != NULL)
        {
                return node;
        }
        else
        {
                exit(0);
        }
}

// -------------------------------------------------------
void node_deallocate(struct node *node)
{
        if (node != NULL)
        {
                free(node);
                node = NULL;
        }
        else
        {
                exit(0);
        }
}       
// -------------------------------------------------------
void Initialize_node(struct node *node, int * numberptr)
{
        node->next = NULL;
       
        node->value = *numberptr;
}
// -------------------------------------------------------
int node_validateIsAlloc(struct node *node)
{
        // If allocation is successful, then return true
        if (node != NULL)
        {
                fprintf(stdout, "\n\n\t\t\tNode Memory Allocation successful");
                return 1;
        }
        else
        {
                fprintf(stdout, "Memory exhausted");
                return 0;
        }
}
// ------------------------------------------------------
void userInput(int *numberptr)
{
        int number;
       
        fflush(stdin);
        printf("\n\n\t\t\t\tEnter a value : ");
        fflush(stdin);
        scanf("%d", &number);

        *numberptr = number;
}
// ------------------------------------------------------
struct LList* InsertBehind(struct LList *myList, struct node *node)
{       
        if (myList->head == NULL)
        {
                myList->head = node;
                myList->tail = node;        // Traversal ptr         

                myList->tail->next = NULL;
                node->previous = NULL;
                node->next = NULL;

                return myList;
        }
        else
        {
                while (myList->tail != NULL)
                {
                        myList->tail->next = node;  // Previous node point to newly node
                        node->previous = myList->tail;  // New node point to previous node 
                        myList->tail = node;  // Traversal to new node       
                        return myList;
                }
        }
}
// ------------------------------------------------------
struct LList* InsertFront(struct LList *myList, struct node *node)
{
        struct LList *tempHead;
       
        tempHead = (struct LList *)malloc(sizeof(struct LList *));
    assert(tempHead != 0);

        if ( LList_ValidateIsAlloc(tempHead) == 1 )
        {
                tempHead->head = myList->head;
                node->next = myList->head;
                node->previous = NULL;
                myList->head = node;
        }
        else
        {
                exit(0);
        }

        free(tempHead);

        return myList;
}
// ------------------------------------------------------
struct LList* RandomInsert(struct LList *myList, struct node *node)
{
        struct node *traversal_First;
        struct node *traversal_Second;
        struct node *dummy_one;
        struct node *dummy_two;

        // Position of node insert
        int index, length = 1;

        traversal_First = myList->head;
        traversal_Second = myList->head;
        dummy_one = myList->head;
        dummy_two = myList->head;

        do
        {
                printf("\n\n\t\t\t\tEnter a index : ");
                scanf("%d", &index);  // Validate index no exceed length of list
       
                if ( Validate_Index(myList, index) == 1 )
                {
                        length = 1;
                        while (myList->tail != NULL && traversal_Second != NULL)
                        {
                                if (length == index)
                                {
                                        traversal_First = traversal_First->previous;
                                        traversal_First->next = node;
                                        node->next = traversal_Second;
                                        node->previous = traversal_First;
                                        traversal_Second->previous = node;
                                        goto exit;
                                }

                                traversal_First = traversal_First->next;
                                traversal_First->previous = dummy_one;
                                dummy_one = traversal_First;

                                traversal_Second = traversal_Second->next;
                                traversal_Second->previous = dummy_two;
                                dummy_two = traversal_Second;

                                length++;
                        }
                        exit:
                                return myList;
                }
        }while( Validate_Index(myList, index) == 0);
}
// -----------------------------------------------------
struct LList* RemoveBehind(struct LList *myList)
{
        struct node *traversal;
        struct node *dummy;

        int length = 1, real_length;
        int numberNode;

        real_length = length_of_List(myList);

        do
        {
                fprintf(stdout, "\n\n\t\t\tHow many removed node count from behind : ");
                scanf("%d", &numberNode);
        }while(numberNode > real_length || numberNode == 0);
       
        traversal = myList->head;

        length = 1;
        while (traversal->next != NULL)
        {
                traversal = traversal->next;
                length++;
        }

        // 1 2 3 4 5
        numberNode = length - numberNode;

        do
        {
                dummy = myList->tail;
                myList->tail = myList->tail->previous;
                dummy->value = NULL;
                node_deallocate(dummy); // free what pointed by dummy  Error
                length--;

        }while(length != numberNode);

        myList->tail->next = NULL;

        return myList;

}
// -----------------------------------------------------
struct LList* RemoveFront(struct LList *myList)
{
        struct node *removeHead, *removeTail, *traversal, *dummy;
        int numberNode, length, loop;

        removeHead = myList->head;
        removeTail = myList->head;
        traversal = myList->head;
        dummy = myList->head;


        do
        {
                fprintf(stdout, "\n\n\t\t\tHow many removed node count from in front : ");
                scanf("%d", &numberNode);

                length = length_of_List(myList);

        }while(numberNode > length || numberNode == length || numberNode == 0);


        myList->head = myList->head->next;
        for (loop=0;loop<numberNode - 1;loop++)
        {
                myList->head = myList->head->next;
                removeTail = removeTail->next;
        }

        removeTail->next = NULL;
        myList->head->previous = NULL;

        do
        {
                dummy = removeHead;
                removeHead = removeHead->next;
                traversal = traversal->next;

                dummy->value = NULL;
                node_deallocate(dummy);

        }while(traversal != NULL);

        return myList;
}
// ------------------------------------------------------
struct LList* RandomRemove(struct LList *myList)
{
        int indexOne, indexTwo; // To form a range

        fprintf(stdout, "Enter an index or range to remove : ");
       
        fprintf(stdout, "Enter first index : ");
        scanf("%d", &indexOne);

        fprintf(stdout, "Enter first index : ");
        scanf("%d", &indexTwo);

        return myList;
}
// ------------------------------------------------------
struct LList* MergeList(struct LList *first, struct LList *second)
{
        struct node *dummy;

        dummy = first->tail;

        first->tail->next = second->head;  // first list point to second list
        first->tail = first->tail->next;  // traverse to new tail after merge list
        first->tail->previous = dummy;    // tail node point back to second last node

        second = NULL;
        dummy = NULL;
       
        free(second);
        free(dummy);

        return first;
}
// ------------------------------------------------------
int get_Value_at_index(struct LList *myList)
{
        struct node *traversal;
        int length = 1, index, value, real_length;
       
        traversal = myList->head;

        do
        {
                fprintf(stdout, "\n\n\t\t\t\tEnter an index : ");
                scanf("%d", &index);

                real_length = length_of_List(myList);
        }while(index > real_length || index == 0);

        length = 1;
        do
        {
                if (index == length )
                {
                        value = traversal->value;
                        goto exit;
                }

                traversal = traversal->next;
                length++;
        }while (traversal->next != NULL && index != length);
       
        exit:
                value = traversal->value;
                fprintf(stdout, "\n\n\t\t\t\tValue at node %d of list is %d\n\n", index, value);
        return value;
}

// ------------------------------------------------------
int Validate_Index(struct LList *myList, int index)
{
        struct node *traversal;
        int length = 1;

        traversal = myList->head;

        length = 1;

        while (traversal->next != NULL)
        {
                traversal = traversal->next;
                length++;
        }

        if (index < length && index != 0)
        {
                return 1;
        }
        else
        {
                return 0;
        }
}
// ------------------------------------------------------
int isEmpty(struct LList *myList)
{
        if (myList->head == NULL)
        {
                return 1;
        }
        else
        {
                return 0;
        }
}
// ------------------------------------------------------
int length_of_List(struct LList *myList)
{
        struct node *traversal;
        int length = 1;
       
        traversal = myList->head;

        length = 1;
        while (traversal->next != NULL)
        {
                traversal = traversal->next;
                length++;
        }

        printf("\n\n\t\t\t\tLength of List is %d", length);
       

        return length;
}
// ------------------------------------------------------
void display(const struct LList * myList)
{
        printf("\n\n\n");

        struct node *traversal;
        int length;

        traversal = myList->head;

        length = 1;
        while(traversal != NULL)
        {
                printf("\t\t\t\tNode %d of List : %d\n", length, traversal->value);
                traversal = traversal->next;
                length++;
        }
       
}
// ------------------------------------------------------


[/QUOTE]

[QUOTE]
#ifndef _LList_
#define _LList_

// Single Node
struct node
{
        int value;
        struct node *next;
        struct node *previous;
};


// Consists of many nodes
struct LList
{
        struct node *head;
        struct node *tail;
};

       
// Add index to struct

#endif


Any comment about my program ?

Thanks.

shabbir 31Jan2008 17:25

Re: Circular linked list
 
Looks well commented but I have not run it.

Peter_APIIT 9Feb2008 08:37

Re: Circular linked list
 
Any comment about hte program is more than welcome.

Thanks.

lead.smart34 26Feb2008 18:25

Re: Circular linked list
 
Quote:

Originally Posted by Peter_APIIT
Any comment about hte program is more than welcome.

Thanks.

i tried it works

crazytolearn57 26Feb2008 18:32

Re: Circular linked list
 
shabbir's is better

back from retirement 9Nov2008 11:58

Re: Circular linked list
 
yes.......shabbir's is better....

back from retirement 30Nov2008 12:28

Re: Circular linked list
 
Is there any post or article on circular array????

xpi0t0s 30Nov2008 17:38

Re: Circular linked list
 
What are you looking for? C doesn't implement circular arrays, but you can achieve that with a modulo function:
Code:

// warning: untested
int data[size];
void set_circ_array(int data, int index)
{
  arr[index % size] = data;
}
int get_circ_array(int index)
{
  return arr[index % size];
}


Peter_APIIT 1Dec2008 07:58

Re: Circular linked list
 
Array is random access.

How can it be circular array A?


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