21

Scenario

I have a class which I want to be able to compare for equality. The class is large (it contains a bitmap image) and I will be comparing it multiple times, so for efficiency I'm hashing the data and only doing a full equality check if the hashes match. Furthermore, I will only be comparing a small subset of my objects, so I'm only calculating the hash the first time an equality check is done, then using the stored value for subsequent calls.

Example

class Foo
{
public:

   Foo(int data) : fooData(data), notHashed(true) {}

private:

   void calculateHash()
   {
      hash = 0; // Replace with hashing algorithm
      notHashed = false;
   }

   int getHash()
   {
      if (notHashed) calculateHash();
      return hash;
   }

   inline friend bool operator==(Foo& lhs, Foo& rhs)
   {
      if (lhs.getHash() == rhs.getHash())
      {
         return (lhs.fooData == rhs.fooData);
      }
      else return false;
   }

   int fooData;
   int hash;
   bool notHashed;
};

Background

According to the guidance on this answer, the canonical form of the equality operator is:

inline bool operator==(const X& lhs, const X& rhs);

Furthermore, the following general advice for operator overloading is given:

Always stick to the operator’s well-known semantics.

Questions

  1. My function must be able to mutate it's operands in order to perform the hashing, so I have had to make them non-const. Are there any potential negative consequences of this (examples might be standard library functions or STL containers which will expect operator== to have const operands)?

  2. Should a mutating operator== function be considered contrary to its well-known semantics, if the mutation doesn't have any observable effects (because there's no way for the user to see the contents of the hash)?

  3. If the answer to either of the above is "yes", then what would be a more appropriate approach?

15
  • 9
    I suspect that 99% of all X's for which a stack overflow question exists of the form "is X a bad practice?" are bad practice. The people asking the question have done X in their code and are looking for moral support for just leaving it there. The other 1% have come up with some brilliant new practice and are just showing off.
    – Kaz
    Apr 12, 2013 at 17:33
  • Why do you have a friend function inside the class declaration? Why use an explicit inline for a function which is defined in a class declaration? The == operator can just be a member. The left hand side is implicit (the this object). bool operator == (const Foo &rhs) { ... }.
    – Kaz
    Apr 12, 2013 at 20:40
  • What if the getHash function was actually on a member object, or base class? Say you derive from some widget class which has a gethash function. Do you care that gethash performs lazy instantiation, and so is destructive, as long as it works?
    – Kaz
    Apr 12, 2013 at 20:42
  • This question sorta gets why the google c++ style guide discourages operator overloading. google-styleguide.googlecode.com/svn/trunk/…
    – jlund3
    Apr 12, 2013 at 20:45
  • 1
    I added a comment to that answer.
    – Kaz
    Apr 12, 2013 at 21:41

6 Answers 6

37

It seems like a perfectly valid usecase for a mutable member. You can (and should) still make your operator== take the parameters by const reference and give the class a mutable member for the hash value.

Your class would then have a getter for the hash value that is itself marked as a const method and that lazy-evaluates the hash value when called for the first time. It's actually a good example of why mutable was added to the language as it does not change the object from a user's perspective, it's only an implementation detail for caching the value of a costly operation internally.

2
  • 9
    Because it hasn't been mentioned — if you are planning to use mutable to perform caching, it would be advisable to do so in a thread-safe manner, because otherwise the fact that the operator== modifies the Foo could be observed by calling it on the same object from two threads simultaneously. Even if you never do this explicitly in your code, it is the opinion of at least some C++ committee members that it would be legal for the standard library to do this.
    – Mankarse
    Apr 12, 2013 at 16:03
  • 5
    note that you can make it thread safe by using 0 as a sentinal hash and doing if(atomic_load(&hash)!=0)atomic_store(&hash,calc_hash()); Apr 12, 2013 at 16:40
12

Use mutable for the data that you want to cache but which does not affect the public interface.

U now, “mutate” → mutable.

Then think in terms of logical const-ness, what guarantees the object offers to the using code.

3

You should never modify the object on comparison. However, this function does not logically modify the object. Simple solution: make hash mutable, as computing the hash is a form of cashing. See: Does the 'mutable' keyword have any purpose other than allowing the variable to be modified by a const function?

1
  1. Having side effect in the comparison function or operator is not recommended. It will be better if you can manage to compute the hash as part of the initialization of the class. Another option is to have a manager class that is responsible for that. Note: that even what seems as innocent mutation will require locking in multithreaded application.
  2. Also I will recommend to avoid using the equality operator for classes where the data structure is not absolutely trivial. Very often the progress of the project creates a need for comparison policy (arguments) and the interface of the equality operator becomes insufficient. In this case adding compare method or functor will not need to reflect the standard operator== interface for immutability of the arguments.
  3. If 1. and 2. seem overkill for your case you could use the c++ keyword mutable for the hash value member. This will allow you to modify it even from a const class method or const declared variable
1

Yes, introducing semantically unexpected side-effects is always a bad idea. Apart from the other reasons mentioned: always assume that any code you write will forever only be used by other people who haven't even heard of your name, and then consider your design choices from that angle.

When someone using your code library finds out his application is slow, and tries to optimize it, he will waste ages trying to find the performance leak if it is inside an == overload, since he doesn't expect it, from a semantic point of view, to do more than a simple object comparison. Hiding potentially costly operations within semantically cheap operations is a bad form of code obfuscation.

8
  • Interesting point, and the same one mentioned in the Google style guide linked to in one of the other comments. The hashing is designed to reduce the cost of the == operation in most cases, but you're right in that there will be cases where that is not the case e.g. where the user never compares the object more than once. So you're suggesting I should prefer a named equality member function (e.g. bool equals(Foo& rhs)), and documenting the performance semantics there?
    – JBentley
    Apr 13, 2013 at 0:38
  • Yes, that would be far cleaner, and let the == operator just do the plain, potentially expensive plain comparison. The coder will know that the operation is computationally expensive if he puts a 4GB binary in it. Apr 13, 2013 at 0:45
  • Huh? So first you're saying == should be computionally cheap because it's semantically cheap, now you're saying it should not be optimised. — I supposed what you mean is, the computation cost of == should be predictable, but as long as you have a fixed and reasonable worst-case bound I don't see what's wrong with performance variations. There are many operations which may take different time depending on hard-to-predict circumstances, for instance std::vector::push_back is very fast on avarage but sometimes needs to relocate the entire array. Apr 13, 2013 at 11:00
  • Yeah the wording wasn't as clean as it could be hehe. I meant indeed the computational cost of a comparison should have a predictable linear relationship at worst to the size of its operands. Introducing side-effects could make it exponential. Apr 13, 2013 at 11:05
  • Why would it become exponential? Apr 13, 2013 at 11:06
0

You can go the mutable route, but I'm not sure if that is needed. You can do a local cache when needed without having to use mutable. For example:

#include <iostream>
#include <functional> //for hash

using namespace std;

template<typename ReturnType>
class HashCompare{
public:
    ReturnType getHash()const{
        static bool isHashed = false;
        static ReturnType cachedHashValue = ReturnType();
        if(!isHashed){
            isHashed = true;
            cachedHashValue = calculate();
        }
        return cachedHashValue;
    }
protected:
    //derived class should implement this but use this.getHash()
    virtual ReturnType calculate()const = 0;
};



class ReadOnlyString: public HashCompare<size_t>{
private:
    const std::string& s;
public:
    ReadOnlyString(const char * s):s(s){};
    ReadOnlyString(const std::string& s): s(s){}

    bool equals(const ReadOnlyString& str)const{
        return getHash() == str.getHash();
    }
protected:
    size_t calculate()const{
        std::cout << "in hash calculate " << endl;
        std::hash<std::string> str_hash;
        return str_hash(this->s);
    }
};

bool operator==(const ReadOnlyString& lhs, const ReadOnlyString& rhs){ return lhs.equals(rhs); }


int main(){
    ReadOnlyString str = "test";
    ReadOnlyString str2 = "TEST";
    cout << (str == str2) << endl;
    cout << (str == str2) << endl;
}

Output:

 in hash calculate 
 1
 1

Can you give me a good reason to keep as to why keeping isHashed as a member variable is necessary instead of making it local to where its needed? Note that we can further get away from 'static' usage if we really want, all we have todo is make a dedicated structure/class

1
  • You mean keep a HashCompare alongside every Foo, and then check both locally each time or have a free function to do that? That breaks encapsulation (isHashed is a property of a Foo, so why does it live outside Foo?) and means I have to pass them around as pairs wherever they're needed. Whats the benefit? Please clarify if I've misunderstood your suggestion.
    – JBentley
    Apr 12, 2013 at 23:11

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