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algorithm - How can I negate a functor in C++ (STL)?

I have some function to find a value:

struct FindPredicate
{

    FindPredicate(const SomeType& t) : _t(t) {
    }
    bool operator()(SomeType& t) {
      return t == _t;
    }

private:
    const SomeType& _t;
};

bool ContainsValue(std::vector<SomeType>& v, SomeType& valueToFind) {
    return find_if(v.begin(), v.end(), FindPredicate(valueToFind)) != v.end();
}

Now I would like to write a function that checks if all members of a vector satisfy that predicate:

bool AllSatisfy(std::vector<SomeType>& v) {
    /* ... */
}

One solution is to use the std::count_if algorithm.

Does anyone know a solution that involves negating the predicate?

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by (71.8m points)

The best solution is to use the STL functional library. By deriving your predicate from unary_function<SomeType, bool> , you'll then be able to use the not1 function, which does precisely what you need (i.e. negating a unary predicate).

Here is how you could do that :

struct FindPredicate : public unary_function<SomeType, bool>
{
    FindPredicate(const SomeType& t) : _t(t) {}

    bool operator()(const SomeType& t) const {
      return t == _t;
    }

private:
    const SomeType& _t;
};

bool AllSatisfy(std::vector<SomeType>& v, SomeType& valueToFind)
{
    return find_if(v.begin(), 
                   v.end(), 
                   not1(FindPredicate(valueToFind))) == v.end();
}

If you want to roll your own solution (which is, IMHO, not the best option...), well, you could write another predicate that is the negation of the first one :

struct NotFindPredicate
{

    NotFindPredicate(const SomeType& t) : _t(t) {
    }
    bool operator()(SomeType& t) {
      return t != _t;
    }

private:
    const SomeType& _t;
};

bool AllSatisfy(std::vector<SomeType>& v) {
    return find_if(v.begin(), 
                   v.end(), 
                   NotFindPredicate(valueToFind)) == v.end();
}

Or you could do better and write a template functor negator, like :

template <class Functor>
struct Not
{
    Not(Functor & f) : func(f) {}

    template <typename ArgType>
    bool operator()(ArgType & arg) { return ! func(arg); }

  private:
    Functor & func;
};

that you could use as follow :

bool AllSatisfy(std::vector<SomeType>& v, SomeType& valueToFind)
{
    FindPredicate f(valueToFind);
    return find_if(v.begin(), v.end(), Not<FindPredicate>(f)) == v.end();
}

Of course, the latter solution is better because you can reuse the Not struct with every functor you want.


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