Reading about void pointers:-
When we assign address of integer to the void pointer, pointer will become Integer Pointer.
When we assign address of Character Data type to void pointer it will become Character Pointer.
And the code:
void main()
{
float f = 111.35;
void * fp;
fp = &f;
printf("%.2f\n",*fp);
}
It shows the error follows :Invalid use of void pointer
If I change the type of the pointer to a float * fp, there is no error.
The type of a void pointer is "pointer to void" and nothing else. And since void doesn't have a type you have to explicit cast it to the correct type when dereferencing it, like
*(float *) fp;
Your variable type must be specified before printf or in the printf, thus you can not access a void * variable before you cast it to a right type of c.
The prime benefit of using void pointer is its reusability.
You can use fp to point to a char* or int* or float* in successive statements.
When you state vp =&f, it implies that vp can act as a float pointer.
It does not become a float pointer.
So when you dereference it ( as in printf), you need to typecast it.
int main()
{
int iVal = 9;
float fVal = 9.0;
void *ptr;
ptr = &iVal;
printf("iVal = %d\n",*((int*)ptr)); //De-referencing
//Resuability
ptr = &fVal;
printf("fVal = %f\n",*((float*)ptr)); //De-referencing
return(0);
}
Related
int main()
{
int b = 12;
void *ptr = &b;
printf("%d", *ptr);
return 0;
}
I expected for this code to print 12, but it does not.
if instead of void pointer, we define int pointer it would work.
I wanted to know how can we use void pointer and print the address allocated to it and the amount saved in it?
Dereferencing a void * doesn't make sense because it has no way of knowing the type of the memory it points to.
You would need to cast to pointer to a int * and then dereference it.
printf("%d", *((int *)ptr));
void pointers cannot be dereferenced.it will give this warning
Compiler Error: 'void' is not a pointer-to-object type*
so, you have to do it like this.
#include<stdio.h>
int main()
{
int b = 12;
void *ptr = &b;
printf("%d", *(int *)ptr);
return 0;
}
If p has type void *, then the expression *p has type void, which means "no value". You can't pass a void expression to printf for the %d conversion specifier (or any other conversion specifier).
In order to dereference a void *, you must first convert it to a pointer of the appropriate type. You can do it with a cast:
printf( "%d\n", *(int *) ptr );
or assign it to a pointer of the appropriate type:
int *p = ptr;
printf( "%d\n", *p );
The rules around void pointers are special such that they can be assigned to other pointer types without an explicit cast - this allows them to be used as a "generic" pointer type. However, you cannot directly examine the thing a void pointer points to.
A schoolbook example of when void pointers are useful is qsort.
This is the signature:
void qsort(void *base,
size_t nitems,
size_t size,
int (*compar)(const void *, const void*)
);
base is just a pointer to the first element. The reason it's a void pointer is because qsort can be used for any list, regardless of type. nitems is number of items (doh) in the list, and size is the size of each element. Nothing strange so far.
But it does also take a fourth argument, which is a function pointer. You're supposed to write a custom compare function and pass a pointer to this function. This is what makes qsort able to sort any list. But since it's supposed to be generic, it takes two void pointers as argument. Here is an example of such a compare function, which is a bit bloated for clarity:
int cmpfloat(const void *a, const void *b) {
const float *aa = (float*) a;
const float *bb = (float*) b;
if(*aa == *bb) {
return 0;
} else if(*aa > *bb) {
return 1;
} else {
return -1;
}
}
Pretty clear what is going on. It returns positive number if a>b, zero if they are equal and negative if b>a, which is the requirements. In reality, I'd just write it like this:
int cmpfloat(const void *a, const void *b) {
return *(float*)a - *(float*)b;
}
What you do with this is something like:
float arr[5] = {5.1, 3.4, 8.9, 3.4, 1.3};
qsort(arr, 5, sizeof *arr, cmpfloat);
Maybe it's not completely accurate to say that void pointers are used instead of templates, generic functions, overloaded functions and such, but they have similarities.
I would like to convert a int pointer to a void pointer and pass that void pointer to a function and then back to an int pointer to use that value in another function.
void main(){
int newSize = size;
void *newSizePtr = &newSize;
someFunc(newSizePtr);
}
void someFunc(void *newSizePtr){
int actualValue = *((int *) newSizePtr);
}
Is this the right way to convert a int ptr to a void ptr and then back to use the value?
i am unable to dynamically allocate memory to the pointer itself because of restrictions with my program that i cannot use malloc. i.e.
int *newSize = malloc(sizeof(int));
which is why i did it this way.
i also need to pass in a void* argument because in my program i am using pthread_create(). This function requires me to pass in an argument of a void* to the function which is why i casted it to a void* and then back when i needed to use it
The conversion you are doing is explicitly allowed by the C standard. Section 6.3.2.3p1 regarding pointer conversions states:
A pointer to void may be converted to or from a pointer to any
object type. A pointer toa ny object type may be converted to a
pointer to void and back again; the result shall compare equal
to the original pointer.
It's also not necessary to explictily cast to or from a void *. So you can do something like this:
void someFunc(void *newSizePtr){
int *actualValuePtr = newSizePtr;
}
int main(){
int newSize = size;
pthread_t tid;
pthread_create(&tid, NULL, someFunc, &newSize);
}
#include <stdio.h>
#include <memory>
void someFunc(void*);
int main() {
int size = 4;
int newSize = size;
void* newSizePtr = &newSize;
someFunc(newSizePtr);
// void* -> int*, before using
int* newSize = (int*) malloc(sizeof(int));
}
void someFunc(void* newSizePtr) {
int actualValue = *((int*)newSizePtr);
printf("%d", actualValue);
}
Yes you can cast void* to int*, and int* to void *,
Because, void * is 'generic' pointer.
malloc returns generic pointer (void*) because malloc does not know what 'type' of return you need.
So, you need to convert to the type you need.
(In the above code, you need to convert to void* -> int*)
For more information about usage of generic pointer, below link may help you
https://codexpart.com/what-is-generic-pointer-difference-between-generic-pointer-and-void-pointer/
This code is practice code for pointers. But I am not understanding the (int**)&p; means in this code.
void fun(void *p);
int i;
int main()
{
void *vptr;
vptr = &i;
fun(vptr);
return 0;
}
void fun(void *p)
{
int **q;
q = (int**)&p;
printf("%d\n", **q);
}
Please elaborate how it is evaluated.
It's a type cast, that interprets the value of &p, which has type void **, as instead having type int ** which is the type of the variable the value is stored in.
The cast is necessary, since void ** is not the same as void * and does not automatically convert to/from other (data) pointer types. This can be confusing.
&p being of type void**, is being casted to type of int** which is to be assigned to q.
SIDE-NOTE : "Any pointer can be assigned to a pointer to void. It can then be cast back to its original
pointer type. When this happens the value will be equal to the original pointer value."
Be careful when using pointers to void. If you cast an arbitrary
pointer to a pointer to void, there is nothing preventing you from
casting it to a different pointer type.
Is it possible to dereference a void pointer without type-casting in the C programming language?
Also, is there any way of generalizing a function which can receive a pointer and store it in a void pointer and by using that void pointer, can we make a generalized function?
for e.g.:
void abc(void *a, int b)
{
if(b==1)
printf("%d",*(int*)a); // If integer pointer is received
else if(b==2)
printf("%c",*(char*)a); // If character pointer is received
else if(b==3)
printf("%f",*(float*)a); // If float pointer is received
}
I want to make this function generic without using if-else statements - is this possible?
Also if there are good internet articles which explain the concept of a void pointer, then it would be beneficial if you could provide the URLs.
Also, is pointer arithmetic with void pointers possible?
Is it possible to dereference the void pointer without type-casting in C programming language...
No, void indicates the absence of type, it is not something you can dereference or assign to.
is there is any way of generalizing a function which can receive pointer and store it in void pointer and by using that void pointer we can make a generalized function..
You cannot just dereference it in a portable way, as it may not be properly aligned. It may be an issue on some architectures like ARM, where pointer to a data type must be aligned at boundary of the size of data type (e.g. pointer to 32-bit integer must be aligned at 4-byte boundary to be dereferenced).
For example, reading uint16_t from void*:
/* may receive wrong value if ptr is not 2-byte aligned */
uint16_t value = *(uint16_t*)ptr;
/* portable way of reading a little-endian value */
uint16_t value = *(uint8_t*)ptr
| ((*((uint8_t*)ptr+1))<<8);
Also, is pointer arithmetic with void pointers possible...
Pointer arithmetic is not possible on pointers of void due to lack of concrete value underneath the pointer and hence the size.
void* p = ...
void *p2 = p + 1; /* what exactly is the size of void?? */
In C, a void * can be converted to a pointer to an object of a different type without an explicit cast:
void abc(void *a, int b)
{
int *test = a;
/* ... */
This doesn't help with writing your function in a more generic way, though.
You can't dereference a void * with converting it to a different pointer type as dereferencing a pointer is obtaining the value of the pointed-to object. A naked void is not a valid type so derefencing a void * is not possible.
Pointer arithmetic is about changing pointer values by multiples of the sizeof the pointed-to objects. Again, because void is not a true type, sizeof(void) has no meaning so pointer arithmetic is not valid on void *. (Some implementations allow it, using the equivalent pointer arithmetic for char *.)
You should be aware that in C, unlike Java or C#, there is absolutely no possibility to successfully "guess" the type of object a void* pointer points at. Something similar to getClass() simply doesn't exist, since this information is nowhere to be found. For that reason, the kind of "generic" you are looking for always comes with explicit metainformation, like the int b in your example or the format string in the printf family of functions.
A void pointer is known as generic pointer, which can refer to variables of any data type.
So far my understating on void pointer is as follows.
When a pointer variable is declared using keyword void – it becomes a general purpose pointer variable. Address of any variable of any data type (char, int, float etc.)can be assigned to a void pointer variable.
main()
{
int *p;
void *vp;
vp=p;
}
Since other data type pointer can be assigned to void pointer, so I used it in absolut_value(code shown below) function. To make a general function.
I tried to write a simple C code which takes integer or float as a an argument and tries to make it +ve, if negative. I wrote the following code,
#include<stdio.h>
void absolute_value ( void *j) // works if used float, obviously it must work but thats not my interest here.
{
if ( *j < 0 )
*j = *j * (-1);
}
int main()
{
int i = 40;
float f = -40;
printf("print intiger i = %d \n",i);
printf("print float f = %f \n",f);
absolute_value(&i);
absolute_value(&f);
printf("print intiger i = %d \n",i);
printf("print float f = %f \n",f);
return 0;
}
But I was getting error, so I came to know my understanding with void pointer is not correct :(. So now I will move towards to collect points why is that so.
The things that i need to understand more on void pointers is that.
We need to typecast the void pointer variable to dereference it. This is because a void pointer has no data type associated with it. There is no way the compiler can know (or guess?) what type of data is pointed to by the void pointer. So to take the data pointed to by a void pointer we typecast it with the correct type of the data holded inside the void pointers location.
void main()
{
int a=10;
float b=35.75;
void *ptr; // Declaring a void pointer
ptr=&a; // Assigning address of integer to void pointer.
printf("The value of integer variable is= %d",*( (int*) ptr) );// (int*)ptr - is used for type casting. Where as *((int*)ptr) dereferences the typecasted void pointer variable.
ptr=&b; // Assigning address of float to void pointer.
printf("The value of float variable is= %f",*( (float*) ptr) );
}
A void pointer can be really useful if the programmer is not sure about the data type of data inputted by the end user. In such a case the programmer can use a void pointer to point to the location of the unknown data type. The program can be set in such a way to ask the user to inform the type of data and type casting can be performed according to the information inputted by the user. A code snippet is given below.
void funct(void *a, int z)
{
if(z==1)
printf("%d",*(int*)a); // If user inputs 1, then he means the data is an integer and type casting is done accordingly.
else if(z==2)
printf("%c",*(char*)a); // Typecasting for character pointer.
else if(z==3)
printf("%f",*(float*)a); // Typecasting for float pointer
}
Another important point you should keep in mind about void pointers is that – pointer arithmetic can not be performed in a void pointer.
void *ptr;
int a;
ptr=&a;
ptr++; // This statement is invalid and will result in an error because 'ptr' is a void pointer variable.
So now I understood what was my mistake. I am correcting the same.
References :
http://www.antoarts.com/void-pointers-in-c/
http://www.circuitstoday.com/void-pointers-in-c.
The New code is as shown below.
#include<stdio.h>
#define INT 1
#define FLOAT 2
void absolute_value ( void *j, int *n)
{
if ( *n == INT) {
if ( *((int*)j) < 0 )
*((int*)j) = *((int*)j) * (-1);
}
if ( *n == FLOAT ) {
if ( *((float*)j) < 0 )
*((float*)j) = *((float*)j) * (-1);
}
}
int main()
{
int i = 0,n=0;
float f = 0;
printf("Press 1 to enter integer or 2 got float then enter the value to get absolute value\n");
scanf("%d",&n);
printf("\n");
if( n == 1) {
scanf("%d",&i);
printf("value entered before absolute function exec = %d \n",i);
absolute_value(&i,&n);
printf("value entered after absolute function exec = %d \n",i);
}
if( n == 2) {
scanf("%f",&f);
printf("value entered before absolute function exec = %f \n",f);
absolute_value(&f,&n);
printf("value entered after absolute function exec = %f \n",f);
}
else
printf("unknown entry try again\n");
return 0;
}
Thank you,
No, it is not possible. What type should the dereferenced value have?
void abc(void *a, int b) {
char *format[] = {"%d", "%c", "%f"};
printf(format[b-1], a);
}
Here is a brief pointer on void pointers: https://www.learncpp.com/cpp-tutorial/613-void-pointers/
6.13 — Void pointers
Because the void pointer does not know what type of object it is pointing to, it cannot be dereferenced directly! Rather, the void pointer must first be explicitly cast to another pointer type before it is dereferenced.
If a void pointer doesn't know what it's pointing to, how do we know what to cast it to? Ultimately, that is up to you to keep track of.
Void pointer miscellany
It is not possible to do pointer arithmetic on a void pointer. This is because pointer arithmetic requires the pointer to know what size object it is pointing to, so it can increment or decrement the pointer appropriately.
Assuming the machine's memory is byte-addressable and does not require aligned accesses, the most generic and atomic (closest to the machine level representation) way of interpreting a void* is as a pointer-to-a-byte, uint8_t*. Casting a void* to a uint8_t* would allow you to, for example, print out the first 1/2/4/8/however-many-you-desire bytes starting at that address, but you can't do much else.
uint8_t* byte_p = (uint8_t*)p;
for (uint8_t* i = byte_p; i < byte_p + 8; i++) {
printf("%x ",*i);
}
I want to make this function generic,
without using ifs; is it possible?
The only simple way I see is to use overloading .. which is not available in C programming langage AFAIK.
Did you consider the C++ programming langage for your programm ? Or is there any constraint that forbids its use?
Void pointers are pointers that has no data type associated with it.A void pointer can hold address of any type and can be typcasted to any type. But, void pointer cannot be directly be dereferenced.
int x = 1;
void *p1;
p1 = &x;
cout << *p1 << endl; // this will give error
cout << (int *)(*p) << endl; // this is valid
You can easily print a void printer
int p=15;
void *q;
q=&p;
printf("%d",*((int*)q));
Because C is statically-typed, strongly-typed language, you must decide type of variable before compile. When you try to emulate generics in C, you'll end up attempt to rewrite C++ again, so it would be better to use C++ instead.
void pointer is a generic pointer.. Address of any datatype of any variable can be assigned to a void pointer.
int a = 10;
float b = 3.14;
void *ptr;
ptr = &a;
printf( "data is %d " , *((int *)ptr));
//(int *)ptr used for typecasting dereferencing as int
ptr = &b;
printf( "data is %f " , *((float *)ptr));
//(float *)ptr used for typecasting dereferencing as float
You cannot dereference a pointer without specifying its type because different data types will have different sizes in memory i.e. an int being 4 bytes, a char being 1 byte.
Fundamentally, in C, "types" are a way to interpret bytes in memory. For example, what the following code
struct Point {
int x;
int y;
};
int main() {
struct Point p;
p.x = 0;
p.y = 0;
}
Says "When I run main, I want to allocate 4 (size of integer) + 4 (size of integer) = 8 (total bytes) of memory. When I write '.x' as a lvalue on a value with the type label Point at compile time, retrieve data from the pointer's memory location plus four bytes. Give the return value the compile-time label "int.""
Inside the computer at runtime, your "Point" structure looks like this:
00000000 00000000 00000000 00000000 00000000 00000000 00000000
And here's what your void* data type might look like: (assuming a 32-bit computer)
10001010 11111001 00010010 11000101
This won't work, yet void * can help a lot in defining generic pointer to functions and passing it as an argument to another function (similar to callback in Java) or define it a structure similar to oop.
If I am given the address of a pointer, how do I get what the pointer points to?
You might mean:
/**
* #param pointer_to_pointer_to_int: the address of a pointer to an integer.
**/
void function_that_takes_pointer_to_pointer(int **pointer_to_pointer_to_int) {
int the_int = **pointer_to_pointer_to_int;
printf("The pointer points to %d\n", the_int);
}
Assuming it is a valid pointer, you can dereference it using the unary * operator:
int *ptr = ...;
int x;
x = *ptr;
The unary * operator.
int *ptr = malloc(sizeof(int));
*ptr = 45;
printf("address: %p, value: %d", ptr, *ptr);
The most common way to be given the address of a pointer is through a pointer to a pointer. If the value the pointer points to is an integer, the type of the address of the pointer is int **.
To get the pointer to the integer, you need to dereference the double pointer. Then you can dereference the integer pointer to get the integer value.
To dereference a pointer, use the * operator.
int **double_pointer = given;
int *int_pointer = *double_pointer;
int value = *int_pointer;
You can also chain the dereferences to do that on one line.
int **double_pointer = given;
int value = **double_pointer;
The unary * operator returns or sets the value at a memory location.
For example:
int val = 42;
int* ptr = &val;
assert(val == *ptr);
If you have the address of a pointer, you would write **pointerpointer.
Going off of RedX's comment, If you have a situation like
void foo(void *ptr)
{
...
}
where the value of ptr is a pointer to a pointer to int, for example, you could do something like
void foo(void *ptr)
{
int x = **((int **) ptr);
...
}
Basically, you cast ptr to int **, then double-dereference it.
If you don't know what the target type is ahead of time (e.g., the function is meant to handle pointers to multiple types), then you're going to have to figure out a way to encode that type information in a second argument and pass it to the function.
There are two possible answers to your question depending on whether the compiler has a clue about the data that's referred or not.
Declaring a pointer of type int *, char * or mytype * instructs the compiler that a later attempt to dereference it using the unary * operator must yield a result of int, char or mytype respectively.
In the other case you would normally store a pointer either in a void * (generic, untyped pointer) or in a uintptr_t (an unsigned int the same size of a pointer, but without pointer semantics). In such a case the compiler doesn't have a clue how to interpret the dereferencing operator, so you must explicitly cast such a pointer to another pointer type, and only then dereference it:
int x = 5;
void *p = &x; /* p now points to an int, but the compiler doesn't know it */
printf("%d\n", *((int *) p)); /* we know what we did and don't rely on the compiler */
printf("%d\n", *p); /* compile-time error, dereferencing has undefined semantics */
Note that in compiled, unmanaged languages like C there is no runtime information about what kind of data a pointer is pointing to, unlike languages like Java where you can use the instanceof operator to check what a reference is really pointing to at runtime.