# Creating array of structure

I have been busy with a question from a C book. The question is simple but it has some specific parts.

I would like to ask a question about arrays. My question is about the best way with creating an array of a structure. The question wants these all; Firstly create an array of structure. Secondly, create a linked list which connects these arrays with a restp pointer. I want to divide my question into sub parts. First part is array of structure... How can I create an array of a structure. I've made a research about this. And here is my way: I'm creating a structure for my array of structure:

``````struct student{
int id;
struct courseList_node_s *restp;
};
``````

And my linked list for completing rest of question:

``````typedef struct courseList_node_s{
char course[6];
int credit,
section;
struct courseList_node_s *restp;
}courseList_node_t;
``````

I have implemented some function to handle this student schedule. In my get_studentList function; I declared my array as this;

``````struct student *ansp[size];
``````

And making memory allocation;

``````ansp[i] = malloc(sizeof(struct student));
``````

And lastly assigning a value;

``````ansp[i]->id =id;
``````

Now, my problem is while creating an array, I couldn't make it as an ordered array. For instance, the user can type 1111, 1222, 1232, and then 1011. So, my first element of array which is ansp[0] = 1011, and ansp[1] = 1111.

I couldn't figure out.

Can you give me an algorithm which consist these(Creating an ordered array of structure).

Lastly, sorry for my bad English and I may made some grammatical mistakes...

-
`malloc(sizeof(struct student));` should be `sizeof coursList_node_t`. `student` is an array of pointers to `courseList_node_t`, not a `courseList_node_t`. –  Ed S. Sep 12 '12 at 20:27
I guess, an ordered array should be created after user operation, and then find the smallest -> put to array[0], find the smallest in remaining -> put to array[1], .... So you might need another parameter in student structure (e.g., bool archived) to denotes whether it is already in array. –  benbai123 Sep 12 '12 at 23:56

I'd solved the problem with helps @Keith Randall and lserni I have implemented both binary search tree and array of structure.

First way, sorting array with qsort:

I had to create a compare function:

``````int compare(const void *p1, const void *p2){
return (* (struct student **) p1)->id - (* (struct student **) p2)->id;
}
``````

And my other helper functions;

``````void get_studentList(struct student **listp,int size){
int id,i;
struct student *ansp[size];
for(i=0;i<size;i++){
printf("Enter student's id to exit enter -1> ");
scanf("%d", &id);
ansp[i] = malloc(sizeof(courseList_node_t));
ansp[i]->id = id;
ansp[i]->restp = NULL;
}
qsort (ansp, size, sizeof(struct student *), compare);
for(i=0;i<size;i++){
listp[i] = ansp[i];
}
}

courseList_node_t * insert_studentSchedule(courseList_node_t *headp, int size){
courseList_node_t *cur_nodep;
cur_nodep = scan_course();
} else {
}
}
``````

And my display function;

``````void display_schedule(struct student **headp, int size){
courseList_node_t *cur_nodep;
int i = 0;
while(i< size){
while(cur_nodep != NULL){
printf("Course name> %s\t", cur_nodep->course);
printf("Course credit> %d\t", cur_nodep->credit);
printf("Course section> %d\n", cur_nodep->section);
cur_nodep = cur_nodep->restp;
}
i++;
}
}
``````

Second way, Binary Search Tree:

I changed typedef parts of my header file as this:

``````typedef struct tree_node_s{
int id;
struct courseList_node_s *restp;
struct tree_node_s *leftp, *rightp;
}tree_node_t;
``````

And my macro to formalize a standart pattern in dynamic allocation of nodes:

``````#define TYPED_ALLOC(type) (type *)malloc(sizeof(type))
``````

And my implementation of creating a binary search tree:

``````/*
* Insert a new id in a binary search tree.
* Pre: rootp points to the root node of a binary search tree
*/
tree_node_t * get_studentTree(tree_node_t *rootp, int newId)
{
if (rootp == NULL){
rootp = TYPED_ALLOC(tree_node_t);
rootp->id = newId;
rootp->restp = NULL;
rootp->leftp = NULL;
rootp->rightp = NULL;
} else if ( newId == rootp->id){
/* */
} else if (newId < rootp->id){
rootp->leftp = get_studentTree(rootp->leftp, newId);
} else {
rootp->rightp = get_studentTree(rootp->rightp, newId);
}
return (rootp);
}
``````

This parts are not related with this question. I gave them because I want to share the partial solution of real question.

``````/*
* Its aim to add courses to restp component of subtree
* It may have some problems. And you can omit it. Because it not related with this question
* Pre: elementp not empty
*/
courseList_node_t * add_course(courseList_node_t *nextp, courseList_node_t *elementp){
if(nextp->restp == NULL){
nextp->restp = elementp;
} else {
}
return (nextp);
}

/*
* It is not neccessary to first call get_studentTree function. It simply creates a linked list which consist of student class/lecture schedule.
* Pre: ele and id not empty
* Post: Tree returned includes all schedule and retains binary search tree properties.
*/
tree_node_t * insert_studentSchedule(tree_node_t *rootp,courseList_node_t *ele, int id){
if (rootp == NULL){
rootp = get_studentTree(rootp, id);
rootp->restp = TYPED_ALLOC(courseList_node_t);
strcpy(rootp->restp->course, ele->course);
rootp->restp->credit = ele->credit;
rootp->restp->section = ele->section;
}
else if(rootp->id == id){
if ( rootp->restp == NULL ){
rootp->restp = TYPED_ALLOC(courseList_node_t);
strcpy(rootp->restp->course, ele->course);
rootp->restp->credit = ele->credit;
rootp->restp->section = ele->section;
} else {
}

} else if ( id < rootp->id ){
if ( rootp->leftp != NULL )
rootp->leftp = insert_studentSchedule(rootp->leftp, ele, id);
} else if ( id > rootp->id ) {
if ( rootp->rightp != NULL )
rootp->rightp = insert_studentSchedule(rootp->rightp, ele, id);
}
return (rootp);
}

/*
* Course scanning function
*/
courseList_node_t * scan_course(void){
courseList_node_t *cur_coursep;
char courseName[6];
cur_coursep = (courseList_node_t *)malloc(sizeof(courseList_node_t));

printf("Welcome to course scanning part>\n");
printf("Enter the name of course> ");
scanf("%s", courseName);
strcpy(cur_coursep->course, courseName);
printf("Enter the credit of course> ");
scanf("%d", &cur_coursep->credit);
printf("Enter the section of course> ");
scanf("%d", &cur_coursep->section);
cur_coursep->restp = NULL;

return (cur_coursep);
}

/*
* My way to print binary search tree with all elements
*/
void display_schedule(tree_node_t *rootp){
courseList_node_t *cur_course;
if(rootp == NULL)
return;
display_schedule(rootp->leftp);
if (rootp->restp == NULL)
printf("Tree with id: %d element has no member!", rootp->id);
else {
cur_course = rootp->restp;
while (cur_course != NULL){
printf("Student Id> %d\n", rootp->id);
printf("Course name> %s\t", rootp->restp->course);
printf("Course credit> %d\t", rootp->restp->credit);
printf("Course section> %d\n", rootp->restp->section);
cur_course = cur_course->restp;
}
}
display_schedule(rootp->rightp);
}
``````

It may not full solution of book question but with your helps, It is solution of essential parts. If you found a mistake. Feel free to add a comment.

-

Can you give me an algorithm which consist these(Creating an ordered array of structure).

If you want to create an orderd array of structures, you probably want to build a tree.

There are libraries for that, but to learn and understand, you can Google 'Binary trees in C' or something like that, e.g.:

http://www.macs.hw.ac.uk/~rjp/Coursewww/Cwww/tree.html

Trees will allow your user to insert non-sorted values and retrieve them in sorted order (also, search them more quickly).

-
To order the elements, you will need to sort them. In `C`, you probably want to use `qsort` (in `C++` there are easier ways). You will need to define a comparison function on `struct student *` and call `qsort` on your array with it.