Basics of a family tree : Tree « Data Structure Algorithm « C / ANSI-C

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C / ANSI-C » Data Structure Algorithm » TreeScreenshots 
Basics of a family tree

/*
Beginning C, Third Edition
 By Ivor Horton
 ISBN: 1-59059-253-0
 Published: Apr 2004
 Publisher: apress

*/

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

struct Family *get_person(void);    /* Prototype for input function */
char related(struct Family *pmember1, struct Family *pmember2);
char set_ancestry(struct Family *pmember1, struct Family *pmember2);

struct Date   
{
  int day;
  int month;
  int year;
};

struct Family                      /* Family structure declaration   */
{
  struct Date dob;
  char name[20];
  char father[20];
  char mother[20];
  struct Family *next;            /* Pointer to next structure      */
  struct Family *previous;        /* Pointer to previous structure  */
  struct Family *p_to_pa;         /* Pointer to father structure   */
  struct Family *p_to_ma;         /* Pointer to mother structure   */
};

void main()
{
   struct Family *first = NULL;    /* Pointer to first person        */
   struct Family *current = NULL;  /* Pointer to current person      */
   struct Family *last = NULL;     /* Pointer to previous person     */
   
   char more = '\0';               /* Test value for ending input    */

   for; ; )
   {
     printf("\nDo you want to enter details of a%s person (Y or N)? "
                                        first != NULL?"nother " "" );
     scanf(" %c", &more);
     if(tolower(more== 'n'
       break;

     current = get_person();

     if(first == NULL)
     {
       first = current;            /* Set pointer to first Family    */
       last = current;             /* Remember for next iteration    */
     }
     else
     {
       last->next = current;  /* Set next address for previous Family */  
       current->previous = last; /* Set previous address for current */
       last = current;           /* Remember for next iteration */             
     }
   }

   current = first;

   while(current->next != NULL)  /* Check for relation for each person in    */
   {                       /* the list up to second to last            */
     int parents = 0;      /* Declare parent count local to this block */
     last = current->next; /* Get the pointer to the next              */

     while(last != NULL)   /* This loop tests current person           */
     {                     /* against all the remainder in the list    */
       if(related(current, last))         /* Found a parent ?          */
         if(++parents == 2)   /* Yes, update count and check it        */
           break;             /* Exit inner loop if both parents found */

       last = last->next;     /* Get the address of the next           */
     
     current = current->next;   /* Next in the list to check             */
   }

   /* Now tell them what we know */

   /* Output Family data in correct order */
   current = first;

   while (current != NULL)  /* Output Family data in correct order  */
   {
     printf("\n%s was born %d/%d/%d, and has %s and %s as parents.",
                  current->name, current->dob.day, current->dob.month,
               current->dob. year, current->father,  current->mother);
     if(current->p_to_pa != NULL )
       printf("\n\t%s's birth date is %d/%d/%d  ",
                current->father, current->p_to_pa->dob.day,
                               current->p_to_pa->dob.month, 
                               current->p_to_pa->dob.year);
     if(current->p_to_ma != NULL)
       printf("and %s's birth date is %d/%d/%d.\n  ",
                current->mother, current->p_to_ma->dob.day,
                               current->p_to_ma->dob.month, 
                               current->p_to_ma->dob.year);

     current = current->next;  /* current points to next in list       */
   }

   /* Now free the memory */  
   current = first;
   while(current->next != NULL)
   {
     last = current;     /* Save pointer to enable memory to be freed */
     current = current->next; /* current points to next in list       */
     free(last);         /* Free memory for last                      */
   }
}

/*   Function to input data on Family members   */
struct Family *get_person(void)
{
   struct Family *temp;         /* Define temporary structure pointer */

   /* Allocate memory for a structure */
   temp = (struct Family*malloc(sizeof(struct Family));

   printf("\nEnter the name of the person: ");
   scanf("%s", temp -> name );         /* Read the Family's name */

   printf("\nEnter %s's date of birth (day month year); ", temp->name);
   scanf("%d %d %d", &temp->dob.day, &temp->dob.month, &temp->dob.year);

   printf("\nWho is %s's father? ", temp->name );
   scanf("%s", temp->father );        /* Get the father's name */
 
   printf("\nWho is %s's mother? ", temp -> name );
   scanf("%s", temp -> mother );      /* Get the mother's name */
 
   temp->next = temp->previous = NULL; /* Set pointers to NULL */

   temp->p_to_pa = temp->p_to_ma = NULL;    /* Set pointers to NULL  */
   return temp;          /* Return address of Family structure */
}

char set_ancestry(struct Family *pmember1, struct Family *pmember2)
{
   if(strcmp(pmember1->father, pmember2->name== 0)
   {
     pmember1->p_to_pa = pmember2;
     return 1;
   }

   ifstrcmp(pmember1->mother, pmember2->name== 0)
   {
     pmember1->p_to_ma = pmember2;
     return 1;
   }
   else
     return 0;
}

/* Fill in pointers for mother or father relationships */
char related (struct Family *pmember1, struct Family *pmember2)
{
   return set_ancestry(pmember1, pmember2||
                           set_ancestry(pmember2, pmember1);
}



           
       
Related examples in the same category
1.Basics of a family tree 2
2.Investigating the family
3.Displays a binary tree
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