I have just found out that the following is not valid.
//Header File
class test
{
const static char array[] = { '1', '2', '3' };
};
Where is the best place to initialize this?
The best place would be in a source file
// Header file
class test
{
const static char array[];
};
// Source file
const char test::array[] = {'1','2','3'};
You can initialize integer types in the class declaration like you tried to do; all other types have to be initialized outside the class declaration, and only once.
.h
were declarations and .c
were definitions, hence why taking a reference to an integer type that is declared only in the header results in a compiler error: undefined reference to test::SOME_INTEGER
? (I realize this sounds super nit-picky and pedantic, and I'm not trying to be difficult; I just want to make sure I'm using the right terminology, so definitely correct me if I'm wrong).
Feb 15, 2016 at 15:55
You can always do the following:
class test {
static const char array(int index) {
static const char a[] = {'1','2','3'};
return a[index];
}
};
A couple nice things about this paradigm:
&a[1]
be consistent over multiple objects.
Apr 30, 2014 at 13:28
//Header File
class test
{
const static char array[];
};
// .cpp
const char test::array[] = { '1', '2', '3' };
static
's many uses confuse a lot of folks.
Jan 22, 2010 at 13:33
Now, in C++17, you can use inline variable
A simple static data member(N4424):
struct WithStaticDataMember { // This is a definition, no outofline definition is required. static inline constexpr const char *kFoo = "foo bar"; };
In your example:
//Header File
class test
{
inline constexpr static char array[] = { '1', '2', '3' };
};
should just work
static constexpr
already implies inline
I believe: stackoverflow.com/questions/14391272/…
Aug 27, 2020 at 9:29
constexpr
is not needed. The whole point of inline
is being able to define the values without constexpr
. godbolt.org/z/f94e73dav
With constexpr
you must define the value on the header even in C++11
If you use constexpr
instead of const
, then this answer suggests that you not only can, but must, define on header even in C++11:
#include <cassert>
struct MyClass {
static constexpr int is[] = {1, 2, 3};
static constexpr int i = 1;
};
// TODO is this ever mandatory? Create example that fails on -std=c++11.
// Pretty sure never mandatory in C++17 https://stackoverflow.com/a/40959093/895245
// constexpr int MyClass::is[];
int main (void) {
assert(MyClass::is[0] == 1);
assert(&MyClass::is[0] == &MyClass::is[1] - 1);
assert(MyClass::i == 1);
assert(&MyClass::i == &MyClass::i);
}
Compile and run with:
g++-10 -ggdb3 -O0 -std=c++11 -Wall -Wextra -pedantic -o main.out main.cpp
./main.out
If instead you try:
struct MyClass {
static constexpr int is[];
};
constexpr int MyClass::is[] = {1, 2, 3};
compilation fails with:
main.cpp:4:26: error: ‘constexpr’ static data member ‘is’ must have an initializer
Tested on Ubuntu 20.04.
This is kind of an abuse of the system, but if you REALLY want to define it in the header file (and you don't have C++17), you can do this. It won't be a static member, but it will be a constant that only takes up storage per compilation unit (rather than per class instance):
(Put all of this code in the header file.)
namespace {
const char test_init_array[] = {'1', '2', '3'};
}
class test {
public:
const char * const array;
test() : array(test_init_array) {}
};