Related
I want to create a function that performs a function passed by parameter on a set of data. How do you pass a function as a parameter in C?
Declaration
A prototype for a function which takes a function parameter looks like the following:
void func ( void (*f)(int) );
This states that the parameter f will be a pointer to a function which has a void return type and which takes a single int parameter. The following function (print) is an example of a function which could be passed to func as a parameter because it is the proper type:
void print ( int x ) {
printf("%d\n", x);
}
Function Call
When calling a function with a function parameter, the value passed must be a pointer to a function. Use the function's name (without parentheses) for this:
func(print);
would call func, passing the print function to it.
Function Body
As with any parameter, func can now use the parameter's name in the function body to access the value of the parameter. Let's say that func will apply the function it is passed to the numbers 0-4. Consider, first, what the loop would look like to call print directly:
for ( int ctr = 0 ; ctr < 5 ; ctr++ ) {
print(ctr);
}
Since func's parameter declaration says that f is the name for a pointer to the desired function, we recall first that if f is a pointer then *f is the thing that f points to (i.e. the function print in this case). As a result, just replace every occurrence of print in the loop above with *f:
void func ( void (*f)(int) ) {
for ( int ctr = 0 ; ctr < 5 ; ctr++ ) {
(*f)(ctr);
}
}
Source
This question already has the answer for defining function pointers, however they can get very messy, especially if you are going to be passing them around your application. To avoid this unpleasantness I would recommend that you typedef the function pointer into something more readable. For example.
typedef void (*functiontype)();
Declares a function that returns void and takes no arguments. To create a function pointer to this type you can now do:
void dosomething() { }
functiontype func = &dosomething;
func();
For a function that returns an int and takes a char you would do
typedef int (*functiontype2)(char);
and to use it
int dosomethingwithchar(char a) { return 1; }
functiontype2 func2 = &dosomethingwithchar
int result = func2('a');
There are libraries that can help with turning function pointers into nice readable types. The boost function library is great and is well worth the effort!
boost::function<int (char a)> functiontype2;
is so much nicer than the above.
Since C++11 you can use the functional library to do this in a succinct and generic fashion. The syntax is, e.g.,
std::function<bool (int)>
where bool is the return type here of a one-argument function whose first argument is of type int.
I have included an example program below:
// g++ test.cpp --std=c++11
#include <functional>
double Combiner(double a, double b, std::function<double (double,double)> func){
return func(a,b);
}
double Add(double a, double b){
return a+b;
}
double Mult(double a, double b){
return a*b;
}
int main(){
Combiner(12,13,Add);
Combiner(12,13,Mult);
}
Sometimes, though, it is more convenient to use a template function:
// g++ test.cpp --std=c++11
template<class T>
double Combiner(double a, double b, T func){
return func(a,b);
}
double Add(double a, double b){
return a+b;
}
double Mult(double a, double b){
return a*b;
}
int main(){
Combiner(12,13,Add);
Combiner(12,13,Mult);
}
Pass address of a function as parameter to another function as shown below
#include <stdio.h>
void print();
void execute(void());
int main()
{
execute(print); // sends address of print
return 0;
}
void print()
{
printf("Hello!");
}
void execute(void f()) // receive address of print
{
f();
}
Also we can pass function as parameter using function pointer
#include <stdio.h>
void print();
void execute(void (*f)());
int main()
{
execute(&print); // sends address of print
return 0;
}
void print()
{
printf("Hello!");
}
void execute(void (*f)()) // receive address of print
{
f();
}
Functions can be "passed" as function pointers, as per ISO C11 6.7.6.3p8: "A declaration of a parameter as ‘‘function returning type’’ shall be adjusted to ‘‘pointer to function returning type’’, as in 6.3.2.1. ". For example, this:
void foo(int bar(int, int));
is equivalent to this:
void foo(int (*bar)(int, int));
I am gonna explain with a simple example code which takes a compare function as parameter to another sorting function.
Lets say I have a bubble sort function that takes a custom compare function and uses it instead of a fixed if statement.
Compare Function
bool compare(int a, int b) {
return a > b;
}
Now , the Bubble sort that takes another function as its parameter to perform comparison
Bubble sort function
void bubble_sort(int arr[], int n, bool (&cmp)(int a, int b)) {
for (int i = 0;i < n - 1;i++) {
for (int j = 0;j < (n - 1 - i);j++) {
if (cmp(arr[j], arr[j + 1])) {
swap(arr[j], arr[j + 1]);
}
}
}
}
Finally , the main which calls the Bubble sort function by passing the boolean compare function as argument.
int main()
{
int i, n = 10, key = 11;
int arr[10] = { 20, 22, 18, 8, 12, 3, 6, 12, 11, 15 };
bubble_sort(arr, n, compare);
cout<<"Sorted Order"<<endl;
for (int i = 0;i < n;i++) {
cout << arr[i] << " ";
}
}
Output:
Sorted Order
3 6 8 11 12 12 15 18 20 22
You need to pass a function pointer. The syntax is a little cumbersome, but it's really powerful once you get familiar with it.
typedef int function();
function *g(function *f)
{
f();
return f;
}
int main(void)
{
function f;
function *fn = g(f);
fn();
}
int f() { return 0; }
It's not really a function, but it is an localised piece of code. Of course it doesn't pass the code just the result. It won't work if passed to an event dispatcher to be run at a later time (as the result is calculated now and not when the event occurs). But it does localise your code into one place if that is all you are trying to do.
#include <stdio.h>
int IncMultInt(int a, int b)
{
a++;
return a * b;
}
int main(int argc, char *argv[])
{
int a = 5;
int b = 7;
printf("%d * %d = %d\n", a, b, IncMultInt(a, b));
b = 9;
// Create some local code with it's own local variable
printf("%d * %d = %d\n", a, b, ( { int _a = a+1; _a * b; } ) );
return 0;
}
i have a simple program like this :
#include<stdio.h>
void add(int *nb)
{
*nb += 1;
}
int f(int nb, void (*add)(int *))
{
if (nb < 5)
f(nb, add(&nb));
return (nb);
}
int main() {
int b = 5;
int a = f(b, add);
printf("%d\n", a);
}
i want to call f recursively until nb become greater or equal to 5, but when i compile the program , the gcc compiler show something like this :
error: passing 'void' to parameter of incompatible type 'void (*)(int *)'
can anyone help me please?
I'm not completely certain as to what you are trying to do with your function, but I took a stab at what I think you might be attempting to do:
#include<stdio.h>
void add(int *nb)
{
*nb += 1;
}
int f(int nb, void (*function)(int *))
{
function(&nb);
if (nb < 5)
f(nb, function);
return (nb);
}
int main() {
int b = 5;
int a = f(b, add);
printf("%d\n", a);
}
Now your function f accepts a function-pointer to a void function that takes an int * as an argument (I renamed this argument to function so it doesn't conflict with your existing function add). It proceeds to call said function and pass in a pointer to nb to function.
What you were doing was passing in the result of add(&nb) into the function f as an argument (which said function is a void so it does not return anything) instead of passing in a pointer to the function.
The line f(nb, add(&nb)); doesn't make sense. You need to call the function somewhere, but not on the same line as where you pass the function pointer on, recursively.
Overall the program doesn't make much sense. I have no idea what you are trying to do, perhaps something similar to this?
#include<stdio.h>
void add(int *nb)
{
*nb += 1;
}
void f(int* nb, void (*add)(int *))
{
add(nb);
if (*nb < 5)
{
f(nb, add);
}
}
int main() {
int a = 5;
f(&a, add);
printf("%d\n", a);
}
Will print 6 since the add is called once. The name add as function parameter to f is also mighty confusing, so better come up with another name for it.
Passing add(&nb) as an argument passes the returned value of add with the argument &nb. The function signature for f requires a function pointer, which can be passed as:
f(nb, add)
Also, even if you were actually trying to pass the returned value of add, that would be undefined behavior since it is of type void.
As Christian pointed out in the comments, the problem is on the recursive call line:
f(nb, add(&nb));
If I understand correctly you are trying to increase nb using the function you receive as a pointer; here however you first pass nb unchanged (and as a value, not by reference), and then call the add function.
In the second argument the compiler is expecting a function pointer, but instead it receives the return value of the add(&nb) function call, which is void.
Also, in case nb is < 5 you need to return the recursive call.
The correct procedure would be:
#include<stdio.h>
void add(int *nb)
{
*nb += 1;
}
int f(int nb, void (*add)(int *))
{
if (nb < 5) {
add(&nb);
return f(nb, add);
}
return (nb);
}
int main() {
int b = 1;
int a = f(b, add);
printf("%d\n", a);
}
It almost seems like you're trying to use lazy evaluation, but C doesn't have that!
int main ()
{
int a, b;
call(&b);
printf("%d, %d",a , b);
}
void call(int *ptr)
{
}
Desired output:
50, 100
How to write the call function so as to modify both the variables to get the desired output??
Not sure where the values 50 and 100 are coming from or exactly what you are asking but maybe this will help with your question.
Since C is pass by value you need to send pointers to actually change the value inside another function.
Since the call function will have pointer values you need to dereference the pointers before changing the value.
Here is an example:
void call(int *a, int *b)
{
*a = 50;
*b = 100;
}
int main()
{
int a, b;
call(&a, &b);
printf("%d, %d\n", a, b);
}
While we are exploring the many ways this output could be achieved, consider that the function could store state in a static variable:
#include <stdio.h>
void call(int *ptr);
int main(void)
{
int a, b;
call(&a);
call(&b);
printf("%d, %d\n",a , b);
}
void call(int *ptr)
{
static int store = 0;
store += 50;
*ptr = store;
}
Program output:
50, 100
Note that you may also be able to do this as follows, without any modifications to main(). But be warned that this method invokes undefined behavior! It is undefined behavior to write to a location past the end of an array object, and in the case of a and b, these are considered to be array objects of size 1. Here we are assuming that this write will work, and that a and b are stored next to each other in memory. We further assume that a has the higher address in memory.
I would say that you should never do this, but I can see no other way to modify a from the function call() without knowing the address of a. You have been warned.
void call(int *ptr)
{
*ptr = 100;
*(ptr + 1) = 50;
}
Try something like this:
void call(int *ptr)
{
*ptr = 100;
}
int main ()
{
int a, b;
a = 50;
call(&b);
printf("%d, %d",a , b);
}
See demo
Maybe you want this:
int main ()
{
int a, b;
call(&a, &b);
printf("%d, %d",a , b);
}
void call(int *ptr1, int *ptr2)
{
*a = 50;
*b = 100;
}
To change a local variable in function a by calling function b you have two options.
1) Let function b return a value that you assign to the variable in function a. Like:
int b() {return 42;}
void a()
{
int x = b();
printf("%d\n", x);
}
This does, however, not seem to be what you are looking for.
2) Pass a pointer to the variable to function b and change the variable through that pointer
void b(int* p) // Notice the * which means the function takes a pointer
// to integer as argument
{
*p = 42; // Notice the * which means that 42 is assigned to the variable
// that p points to
}
void a()
{
int x;
b(&x); // Notice the & which means "address of x" and thereby
// becomes a pointer to the integer x
printf("%d\n", x);
}
int main()
{
int a,b;
call(&b);
printf("%d, %d\n", a,b);
}
int call(int *ptr)
{
int *m;
m = ptr++;
*ptr = 50;
*m = 100;
}
I have came across this interview question. I know it's tricky but can't think of any approach.
Change the program so that the output of printf is always 20. Only foo() can be changed. main() function can not be changed.
void foo()
{
// Add Here
}
int main()
{
int i = 20;
foo();
i = 100;
printf("%d", i);
//Some other computation. Doesn't have any printf statements.
return 0;
}
We can use Macro Arguments to change the output of printf.
void foo()
{
#define printf(x, y) printf(x, 20);
}
int main()
{
int i = 20;
foo();
i = 100;
printf("%d", i);
return 0;
}
By using this, during printf("%d",i) will get mapped to macro expansion printf("%d",20)
foo() could merely print 20 and call exit().
I want to create a function that performs a function passed by parameter on a set of data. How do you pass a function as a parameter in C?
Declaration
A prototype for a function which takes a function parameter looks like the following:
void func ( void (*f)(int) );
This states that the parameter f will be a pointer to a function which has a void return type and which takes a single int parameter. The following function (print) is an example of a function which could be passed to func as a parameter because it is the proper type:
void print ( int x ) {
printf("%d\n", x);
}
Function Call
When calling a function with a function parameter, the value passed must be a pointer to a function. Use the function's name (without parentheses) for this:
func(print);
would call func, passing the print function to it.
Function Body
As with any parameter, func can now use the parameter's name in the function body to access the value of the parameter. Let's say that func will apply the function it is passed to the numbers 0-4. Consider, first, what the loop would look like to call print directly:
for ( int ctr = 0 ; ctr < 5 ; ctr++ ) {
print(ctr);
}
Since func's parameter declaration says that f is the name for a pointer to the desired function, we recall first that if f is a pointer then *f is the thing that f points to (i.e. the function print in this case). As a result, just replace every occurrence of print in the loop above with *f:
void func ( void (*f)(int) ) {
for ( int ctr = 0 ; ctr < 5 ; ctr++ ) {
(*f)(ctr);
}
}
Source
This question already has the answer for defining function pointers, however they can get very messy, especially if you are going to be passing them around your application. To avoid this unpleasantness I would recommend that you typedef the function pointer into something more readable. For example.
typedef void (*functiontype)();
Declares a function that returns void and takes no arguments. To create a function pointer to this type you can now do:
void dosomething() { }
functiontype func = &dosomething;
func();
For a function that returns an int and takes a char you would do
typedef int (*functiontype2)(char);
and to use it
int dosomethingwithchar(char a) { return 1; }
functiontype2 func2 = &dosomethingwithchar
int result = func2('a');
There are libraries that can help with turning function pointers into nice readable types. The boost function library is great and is well worth the effort!
boost::function<int (char a)> functiontype2;
is so much nicer than the above.
Since C++11 you can use the functional library to do this in a succinct and generic fashion. The syntax is, e.g.,
std::function<bool (int)>
where bool is the return type here of a one-argument function whose first argument is of type int.
I have included an example program below:
// g++ test.cpp --std=c++11
#include <functional>
double Combiner(double a, double b, std::function<double (double,double)> func){
return func(a,b);
}
double Add(double a, double b){
return a+b;
}
double Mult(double a, double b){
return a*b;
}
int main(){
Combiner(12,13,Add);
Combiner(12,13,Mult);
}
Sometimes, though, it is more convenient to use a template function:
// g++ test.cpp --std=c++11
template<class T>
double Combiner(double a, double b, T func){
return func(a,b);
}
double Add(double a, double b){
return a+b;
}
double Mult(double a, double b){
return a*b;
}
int main(){
Combiner(12,13,Add);
Combiner(12,13,Mult);
}
Pass address of a function as parameter to another function as shown below
#include <stdio.h>
void print();
void execute(void());
int main()
{
execute(print); // sends address of print
return 0;
}
void print()
{
printf("Hello!");
}
void execute(void f()) // receive address of print
{
f();
}
Also we can pass function as parameter using function pointer
#include <stdio.h>
void print();
void execute(void (*f)());
int main()
{
execute(&print); // sends address of print
return 0;
}
void print()
{
printf("Hello!");
}
void execute(void (*f)()) // receive address of print
{
f();
}
Functions can be "passed" as function pointers, as per ISO C11 6.7.6.3p8: "A declaration of a parameter as ‘‘function returning type’’ shall be adjusted to ‘‘pointer to function returning type’’, as in 6.3.2.1. ". For example, this:
void foo(int bar(int, int));
is equivalent to this:
void foo(int (*bar)(int, int));
I am gonna explain with a simple example code which takes a compare function as parameter to another sorting function.
Lets say I have a bubble sort function that takes a custom compare function and uses it instead of a fixed if statement.
Compare Function
bool compare(int a, int b) {
return a > b;
}
Now , the Bubble sort that takes another function as its parameter to perform comparison
Bubble sort function
void bubble_sort(int arr[], int n, bool (&cmp)(int a, int b)) {
for (int i = 0;i < n - 1;i++) {
for (int j = 0;j < (n - 1 - i);j++) {
if (cmp(arr[j], arr[j + 1])) {
swap(arr[j], arr[j + 1]);
}
}
}
}
Finally , the main which calls the Bubble sort function by passing the boolean compare function as argument.
int main()
{
int i, n = 10, key = 11;
int arr[10] = { 20, 22, 18, 8, 12, 3, 6, 12, 11, 15 };
bubble_sort(arr, n, compare);
cout<<"Sorted Order"<<endl;
for (int i = 0;i < n;i++) {
cout << arr[i] << " ";
}
}
Output:
Sorted Order
3 6 8 11 12 12 15 18 20 22
You need to pass a function pointer. The syntax is a little cumbersome, but it's really powerful once you get familiar with it.
typedef int function();
function *g(function *f)
{
f();
return f;
}
int main(void)
{
function f;
function *fn = g(f);
fn();
}
int f() { return 0; }
It's not really a function, but it is an localised piece of code. Of course it doesn't pass the code just the result. It won't work if passed to an event dispatcher to be run at a later time (as the result is calculated now and not when the event occurs). But it does localise your code into one place if that is all you are trying to do.
#include <stdio.h>
int IncMultInt(int a, int b)
{
a++;
return a * b;
}
int main(int argc, char *argv[])
{
int a = 5;
int b = 7;
printf("%d * %d = %d\n", a, b, IncMultInt(a, b));
b = 9;
// Create some local code with it's own local variable
printf("%d * %d = %d\n", a, b, ( { int _a = a+1; _a * b; } ) );
return 0;
}