I have seen other people questions but found none that applied to what I'm trying to achieve here.
I'm trying to sort Entities via my EntityManager class using std::sort and a std::vector<Entity *>
/*Entity.h*/
class Entity
{
public:
float x,y;
};
struct compareByX{
bool operator()(const GameEntity &a, const GameEntity &b)
{
return (a.x < b.x);
}
};
/*Class EntityManager that uses Entitiy*/
typedef std::vector<Entity *> ENTITY_VECTOR; //Entity reference vector
class EntityManager: public Entity
{
private:
ENTITY_VECTOR managedEntities;
public:
void sortEntitiesX();
};
void EntityManager::sortEntitiesX()
{
/*perform sorting of the entitiesList by their X value*/
compareByX comparer;
std::sort(entityList.begin(), entityList.end(), comparer);
}
I'm getting a dozen of errors like
: error: no match for call to '(compareByX) (GameEntity* const&, GameEntity* const&)'
: note: candidates are: bool compareByX::operator()(const G开发者_如何学PythonameEntity&, const GameEntity&)
I'm not sure but ENTITY_VECTOR is std::vector<Entity *>
, and I don't know if that could be the problem when using the compareByX function object ?
I'm pretty new to C++, so any kind of help is welcome.
And a third one comes in... After you edited you question, still one open topic: your comparator takes a const &
to the GameEntity
class. It should, in order to work with the values of the vector<GameEntity*>
, take const GameEntity*
arguments instead.
A functor is a class that defines operator() so an object of that class can be "invoked" with the same syntax as calling a function:
struct functor {
bool operator()(Entity const &a, Entity const &b) {
return a.x < b.x;
}
};
If you want that as a member of your Entity class, you'd use a nested class:
class Entity {
float x;
public:
friend class byX;
class byX {
bool operator()(Entity const &a, Entity const &b) {
return a.x < b.x;
}
};
};
Then your sort would look something like this:
std::sort(ManagedEndities.begin(), ManagedEntities.end(), Entity::byX());
Alternatively, if you usually sort Entities by X, you could define operator< for Entity:
class Entity {
float x;
public:
bool operator<(Entity const &other) {
return x < other.x;
}
};
In this case, your use of sort would be a bit simpler:
std::sort(ManagedEntities.begin(), ManagedEntities.end());
Creating the comparison function as a normal member function of the Entity class, however, will lead to a sort invocation that's pretty ugly -- it'll usually need something like std::mem_fun_ref to do the job; it's sufficiently ugly that I'd generally avoid it for real code.
I did see this question, recently, though....
The answer was something in the way of: the function provided to sort
should not be a member-function of something. Meaning: it should be a static function, or a free function. In case you declare it a static function, you should still precede it by Entity::compareByX
in order to name it correctly.
If you define the order in the class itself, you can, as aJ already said, use a function adapter mem_fun
or mem_fun_ref
to pour it into a 'free' functor object.
If you want an Entity
object to do the comparison, you should provide sort
with an object (called a functor or comparator in this case):
struct EntityComp {
bool operator()( const GameEntity& a, const GameEntity& b ) const {
return a.x < b.x;
}
}
...
std::sort( v.begin(), v.end(), EntityComp() );
I believe compareByX
should be a static
member or lake a look here
In the light of 'what you're trying to achieve', I may do another guess... You want to be able to specify whether to compare your objects by their GameEntity::x
member, or by their GameEntity::y
member.
The easiest way would be to, as you did, specify a functor for each member:
struct CompareX {
bool operator()( const GameEntity& a, const GameEntity& b ) const {
return a.x < b.x;
}
};
struct CompareY {
bool operator()( const GameEntity& a, const GameEntity& b ) const {
return a.y < b.y;
}
};
CompareX compx; // create a compare object
std::sort( v.begin(), v.end(), compx );
The 'flexible' yet more cumbersome way would be to create a template functor:
#include <iostream>
using namespace std;
// a mockup of your class
struct GameEntity { float x, y, z; };
// just to be able to print it...
ostream& operator<<( ostream& o, const GameEntity& g ) {
return o << "(" << g.x << ", " << g.y << ", " << g.z << ")";
}
// cumbersome starts here...
typedef float (GameEntity::*membervar);
// a 'generic' float-member comparator
template< membervar m > struct CompareBy {
bool operator()( const GameEntity& a, const GameEntity& b ) const {
return a.*m < b.*m ;
}
};
// example code
int main() {
using namespace std;
GameEntity v[] = { {1,0,0}, {2,0,1}, {3,-1,2} };
GameEntity* vend = v + sizeof(v)/sizeof(v[0]);
sort( v, vend, CompareBy< &GameEntity::x >() );
copy( v, vend, ostream_iterator<GameEntity>( cout, "\n" ) );
}
try this..
class CompareByX
{
operator ()(const GameEntity &a, const GameEntity &b) { ... };
};
...
std::sort( this->begin(), this->end(), CompareByX);
In a nutshell, a functor is a function object - the STL looks specifically for an operator () that takes in the two parameters I've specified. If you're new to C++, I suggest you look up operators and functors - they're pretty handy even outside STL.
Edit: Jerry's answer is better, and more comprehensive.
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