# 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...

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`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

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.

See this example for inspiration. Note that your array is an array of structure pointers, the example is an array of direct structures (which is maybe what you wanted anyway?).

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thanks for your suggestion. It helped me to solve my problem. I implemented binary search tree, too. But your way was the real solution for my problem... Thank you, I will share my solution as soon as possible. –  mustafaSarialp Sep 13 '12 at 21:23

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).

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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.

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