Representing nothing in C++ [duplicate]

Question

I'm in a situation where I have a std::vector<double> but I want some of those doubles to be "nothing"/"non-existent". How is this done in C++? We can safely assume that all "normal" doubles are not negative for my purposes.

Should I let -1 (or some negative) denote "nothing"? That doesn't sound very elegant.

Should I create a Double class with a "nothing" bool member? That could work but seems rather lengthy and ugly.

Should I create a Double class and create a "NoDouble : public Double" subclass? That sounds even worse.

Any ideas would be appreciated.

Answer 1

If you have IEEE floating point arithmetic then use std::numeric_limits<double>::quiet_NaN() as value for "nothing". For checking if d is "nothing" use isnan(d). Also d != d is true only when d is NaN. Problem with NaN is that one may get it when doing defective calculations like dividing zero by zero or taking sqare root from negative number. Any calculations with NaN result also with NaN.

If you happen to use boost you may use boost::optional<double> that adds other level of not availability to side of NaN. Then you have two bad states: invalid number and missing number. Boost contains lot of useful libraries so it is worthy tool anyway.

If you need several possible reasons attached for why it is "nothing", then use special fallible class instead of double. Fallible was invented by Barnton and Nackman, the authors of the highly acclaimed "Scientific and Engineering C++" book.

You mentioned that there may not be negative numbers. On such case enwrap the double into class. What you have is not technically normal double so your class can add limitations to it.

Answer 2

You could use std::vector<double *>. A NULL pointer would indicate an empty slot or value.

Answer 3

What you want to do is to keep the vector the same, but also use a vector of bool, and then wrap that in a class.

Using the vector of bool on decent compiler should be optimized to 1 bit per boolean so that should get rid of your space problem.

class MyNullable {
public:
  double value;
  bool is_null;  
};

class NullableDoubles {
public:
  std::vector<double> values;
  std::vector<bool> nulls;
  void push_back(double d, bool is_null) {
    values.push_back(d);
    nulls.push_back(is_null);
  }
  MyNullable GetValue(int index) {
    MyNullable result;
    result.value = values[index];
    result.is_null = nulls[index];
    return result;
  }
  bool IsNull(int index) { return nulls[index]; }
  bool MakeNull(int index) { nulls[index] = false; }
};

And I am sure you can see the value(not pun intended) of wrapping that up in a template or two and then making nullable lists of anything.

template <class T>
class NullablesClass {
public:
  std::vector<T> values;
  std::vector<bool> nulls;
  void push_back(T d, bool is_null) {
    values.push_back(d);
    nulls.push_back(is_null);
  }
  MyNullable GetValue(int index) {
    MyNullableT<T> result;
    result.value = values[index];
    result.is_null = nulls[index];
    return result;
  }
  bool IsNull(int index) { return nulls[index]; }
  bool MakeNull(int index) { nulls[index] = false; }
  T GetValue(int index) { return values[index]; }
};

I hope that can do. Seems like the best way to be able to use all possible double values and also know if it is NULL while using the least memory and using the best alignment of memory. The vector is a specialization template in the C++ library so you should really only get 1 bit per bool for that.