tmeissner
/
learning-by-doing


								#include <stdlib.h>

								#include <stdio.h>


								// macro for easier using of saferfree function

								#define safeFree(p) saferFree((void**) &(p))


								// typedefs

								typedef int (*t_fptr)(int);

								typedef int (*t_fptr_op)(int, int);

								typedef void (*t_fptr_base)();


								// function declarations

								void allocateArray(int **arr, size_t size, int value);

								void allocateArrayWrong(int *arr, int size, int value);

								void saferFree(void **pointer);

								int square(int num);

								int add(int a, int b);

								int sub(int a, int b);

								//int err(int a, int b);

								void err(void);

								int operation(t_fptr_op op, int a, int b);

								t_fptr_op select(int opc);

								void initialiseOperationsArray(void);

								int eval(int opc, int a, int b);

								int evalArray(int opc, int a, int b);

								t_fptr_op operations[128] = {NULL};


								// pointer by reference

								void allocateArray(int **arr, size_t size, int value) {

								    int *array = (int*) malloc(size * sizeof(int));

								    if (array != NULL) {

								        for (size_t index = 0; index < size; index++) {

								            array[index] = value;

								        }

								    }

								    *arr = array;

								}


								// pointer by value -> this will not work

								void allocateArrayWrong(int *arr, int size, int value) {

								    arr = (int*) malloc(size * sizeof(int));

								    if(arr != NULL) {

								        for(int i = 0; i < size; i++) {

								            arr[i] = value;

								        }

								    }

								}


								// safer free version which checks for NULL pointer

								// assigns NULL after freeing the pointer

								// hint: check for null before free() isn't neccessary

								void saferFree(void **pointer) {

								    if (pointer != NULL && *pointer != NULL) {

								        free(*pointer);

								        *pointer = NULL;

								    }

								}


								// simple (unsafe) addition function

								int add(int a, int b) {

								    return a + b;

								}


								// simple (unsafe) subtract function

								int sub(int a, int b) {

								    return a - b;

								}


								int operation(t_fptr_op op, int a, int b) {

								    return op(a, b);

								}


								// simple (unsafe) square function

								int square(int num) {

								    return num * num;

								}


								// function selector

								// returns pointer to selected function

								t_fptr_op select(int opc) {

								    switch (opc) {

								        case '+': return add;

								        case '-': return sub;

								        default : return (t_fptr_op) err;

								    }

								}


								// error function

								void err(void) {  //int a, int b) {

								    fprintf(stderr, "invalid operation!\n");

								    //return 42;

								}


								// evaluate given operation on a & b

								// operation is given by function pointer

								int eval(int opc, int a, int b) {

								    t_fptr_op operation = select(opc);

								    return operation(a, b);

								}


								// initialise operations array

								// with pointers to add & sub functions

								void initialiseOperationsArray(void) {

								    operations['+'] = add;

								    operations['-'] = sub;

								}


								// eval function which works with

								// the array of function pointers

								int evalArray(int opc, int a, int b) {

								    t_fptr_op operation;

								    operation = operations[opc];

								    return operation(a, b);

								}


								int main (void) {


								    // variable definitions

								    size_t size = 8;

								    int value = 5;

								    int *vector = NULL;

								    //int (*fptr0) (int);

								    t_fptr fptr0;


								    // print vector address

								    printf("before malloc: %p\n", vector);


								    // function calls

								    allocateArray(&vector, size, value);

								    //allocateArrayWrong(vector_wrong, size, value);


								    for (size_t index = 0; index < size; index++) {

								        printf("%u : %d\n", (unsigned int) index, vector[index]);

								    }


								    // print vector address

								    printf("before safeFree: %p\n", vector);


								    //saferFree((void**)&(vector));

								    safeFree(vector);


								    // print vector address after free

								    printf("after safeFree: %p\n", vector);


								    // function pointer fptr0 now points to square()

								    fptr0 = square;


								    // call function which fptr0 points to

								    printf("%d squared is %d\n", value, fptr0(value));


								    // test of function pointers as function parameters

								    printf("%u + %d = %d\n", (unsigned int) size, value, operation(add, size, value));

								    printf("%u - %d = %d\n", (unsigned int) size, value, operation(sub, size, value));


								    // test of fucntion pointer returning

								    printf("%d\n", eval('t', size, value));


								    // function pointer casting

								    t_fptr_base basePointer;

								    t_fptr_op fptrFirst = add;

								    basePointer = (t_fptr_base) fptrFirst;

								    fptrFirst = (t_fptr_op) basePointer;

								    printf("%d\n", fptrFirst(5,6));


								    // return value

								    return 0;

								}