Assuming you can use C++11, then a std::vector
of std::tuple
seems to be a simple approach, here is a simple example:
#include <iostream>
#include <vector>
#include <tuple>
int main()
{
std::vector<std::tuple<int,int,int>> tupleVector ;
tupleVector.push_back( std::make_tuple( 10, 20, 30 ) ) ;
tupleVector.push_back( std::make_tuple( 44, 55, 66 ) ) ;
std::cout << std::get<0>( tupleVector[0] ) << ":" << std::get<1>( tupleVector[0] ) << ":" << std::get<2>( tupleVector[0] ) << std::endl ;
std::cout << std::get<0>( tupleVector[1] ) << ":" << std::get<1>( tupleVector[1] ) << ":" << std::get<2>( tupleVector[1] ) << std::endl ;
}
A non C++11 example could use a struct
to hold the slot data, you could stick with arrays but std::vector
is simpler and will cause you less headaches in the long run:
#include <iostream>
#include <vector>
#include <tuple>
struct slot
{
int x1, x2, x3 ;
slot() : x1(0), x2(0), x3() {} // Note, need default ctor for array example
slot( int p1, int p2, int p3 ) : x1(p1), x2(p2), x3(p3) {}
} ;
int main()
{
std::vector<slot> slotVector ;
slotVector.push_back( slot( 10, 20, 30 ) ) ;
slotVector.push_back( slot( 44, 55, 66 ) ) ;
std::cout << slotVector[0].x1 << ":" << slotVector[0].x2 << ":" << slotVector[0].x3 << std::endl ;
slot slotArray[5] ;
slotArray[0] = slot( 10, 20, 30 ) ;
slotArray[0] = slot( 44, 55, 66 ) ;
std::cout << slotArray[0].x1 << ":" << slotArray[0].x2 << ":" << slotArray[0].x3 << std::endl ;
}
==
is equality not assignment(=
), second can you provide a little more context.