C language uses pass by value
.
So, You have to receive the address of array as argument.
void change(int *, int);
int main(void) {
int array[3] = { 1, 2, 3 };
printf("%d", array[1]);
change(array, 1);
printf("%d", array[1]);
}
void change(int *array, int index) {
*(array+index) = 4;
}
For the multi dimension, You should pass a size of column.
I made 2 samples as change
and change2
.
I think you can understand change
well.
But, In case of change2
, array
has a head address of memory in array[2][3]
and it has 6
integers by 2x3
. So, you can calculate.
void change(int array[2][3], int, int, int);
void change2(int *, int, int, int, int);
int main(void) {
int array[2][3] = { { 1, 2, 3 }, {4, 5, 6} };
printf("%d", array[1][1]);
change(array, 1, 1, 10);
printf("%d", array[1][1]);
change2((int *)array, 3, 1, 1, 20);
printf("%d", array[1][1]);
}
void change(int array[2][3], int row, int col, int value) {
array[row][col] = value;
}
void change2(int *array, int size_col, int row, int col, int value) {
*(array + row*size_col + col) = value;
}
change
takes anint
argument, notint *
, so that'a a deal breaker right out of the gate. Second,*array[0]
is certainly wrong, even after fixing the parameter type to properint *
. It would bearray[0] = ...
or*array = ...
to set the first element, but not both. I think a thorough review of arrays, function parameters and passing the former as arguments to the latter, are on your upcoming agenda.change(int)
, what would make the parameter "array" an array, apart from the name which the compiler ignores?int[2]
, now itsint[1][2]
. Further, your twoprintf
commands are both using invalid indexes on thearray
variable. C arrays of dimn
are indexed using0..(n-1)
.