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I'm curious, is:

bool State::operator<(const State* S)
  return this->operator<(*dynamic_cast<const State *>(S));

exactly the same as:

bool State::operator<(const State* S)
  return this->operator<(*(S));

For reference the this->operator< being called is:

bool State::operator<(const State& S)
  return this->reward < S.reward ? true : false;

Which one is more "correct" and type safe / secure to use or, is there any actual difference ?

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I assume you mean *dynamic_cast<const State *>(S) in your first example? Otherwise it is an infinite loop. –  Nemo Jul 12 '11 at 17:07
What happens if the dynamic_cast fails? –  Alok Save Jul 12 '11 at 17:08
Als: How could it possibly fail if it casting from the compile-time type to itself? –  Nemo Jul 12 '11 at 17:10
@Nemo: And that is the reason it is not needed in first place :) –  Alok Save Jul 12 '11 at 17:12

2 Answers 2

up vote 3 down vote accepted

No, the first one casts the pointer to itself, which doesn't really do anything, and then calls const State* overload, which results in an infinite loop. You don't need dynamic_cast until you need to downcast at runtime — there is no downcasting here, so

return this->operator<(*S);

is the only thing to do.

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Thank you, you just saved me lots of future trouble ! –  Alex Jul 12 '11 at 17:10

Assuming you have a typo and you mean to compare this:

*dynamic_cast<const State *>(s)

...to this:


...where s has compile-time type const State *, there is no difference at all.

It is conceivable that the former could be slightly slower if your compiler does not notice that they are compile-time equivalent.

I would avoid the former on the grounds that anybody reading it will wonder what you are thinking.

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No it wasn't a typo, I completely forgot to make it a pointer. LoL, and it compiled fine. –  Alex Jul 12 '11 at 17:16

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