I am a big fan of letting the compiler do as much work for you as possible. When writing a simple class the compiler can give you the following for 'free':

  • A default (empty) constructor
  • A copy constructor
  • A destructor
  • An assignment operator (operator=)

But it cannot seem to give you any comparison operators - such as operator== or operator!=. For example:

class foo
    std::string str_;
    int n_;

foo f1;        // Works
foo f2(f1);    // Works
foo f3;
f3 = f2;       // Works

if (f3 == f2)  // Fails
{ }

if (f3 != f2)  // Fails
{ }

Is there a good reason for this? Why would performing a member-by-member comparison be a problem? Obviously if the class allocates memory then you'd want to be careful, but for a simple class surely the compiler could do this for you?

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    Of course, also the destructor is provided for free. – Johann Gerell Oct 20 '08 at 17:28
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    In one of his recent talks, Alex Stepanov pointed out that it was a mistake not to have a default automatic ==, in the same way that there is a default automatic assignment (=) under certain conditions. (The argument about pointers is inconsistent because the logic applies both for = and ==, and not just for the second). – alfC Sep 2 '15 at 6:45
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    @becko It is one in the series at A9: youtube.com/watch?v=k-meLQaYP5Y , I don't remember in which of the talks. There is also a proposal that it seems to be making its way to C++17 open-std.org/JTC1/SC22/WG21/docs/papers/2016/p0221r0.html – alfC Mar 16 '16 at 0:20
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    @becko, it is one of the first in either the series "Efficient programming with components" or "Programming Conversations" both at A9, available in Youtube. – alfC Mar 16 '16 at 0:28
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    @becko Actually there is an answer below pointing to Alex's point of view stackoverflow.com/a/23329089/225186 – alfC Mar 16 '16 at 1:16

13 Answers 13


The compiler wouldn't know whether you wanted a pointer comparison or a deep (internal) comparison.

It's safer to just not implement it and let the programmer do that themselves. Then they can make all the assumptions they like.

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    That problem doesn't stop it from generating a copy ctor, where it's quite harmful. – MSalters Oct 20 '08 at 9:57
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    Copy constructors (and operator=) generally work in the same context as comparison operators - that is, there is an expectation that after you perform a = b, a == b is true. It definitely makes sense for the compiler to provide a default operator== using the same aggregate value semantics as it does for operator=. I suspect paercebal is actually correct here in that operator= (and copy ctor) are provided solely for C compatibility, and they didn't want to make situation any worse. – Pavel Minaev Oct 29 '09 at 7:31
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    -1. Of course you want a deep comparison, if the programmer wanted a pointer comparison, he'd write (&f1 == &f2) – Viktor Sehr Sep 1 '10 at 9:07
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    Viktor, I suggest you re-think your response. If the class Foo contains a Bar*, then how would the compiler know whether Foo::operator== wants to compare the address of Bar*, or the contents of Bar? – Mark Ingram Sep 1 '10 at 13:59
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    @Mark: If it contains a pointer, comparing the pointer values is reasonable - if it contains a value, comparing the values is reasonable. In exceptional circumstances, the programmer could override. This is just like the language implements comparison between ints and pointer-to-ints. – Eamon Nerbonne Sep 26 '11 at 8:45

The argument that if the compiler can provide a default copy constructor, it should be able to provide a similar default operator==() makes a certain amount of sense. I think that the reason for the decision to not provide a compiler-generated default for this operator can be guessed by what Stroustrup said about the default copy constructor in "The Design and Evolution of C++" (Section 11.4.1 - Control of Copying):

I personally consider it unfortunate that copy operations are defined by default and I prohibit copying of objects of many of my classes. However, C++ inherited its default assignment and copy constructors from C, and they are frequently used.

So instead of "why doesn't C++ have a default operator==()?", the question should have been "why does C++ have a default assignment and copy constructor?", with the answer being those items were in included reluctantly by Stroustrup for backwards compatibility with C (probably the cause of most of C++'s warts, but also probably the primary reason for C++'s popularity).

For my own purposes, in my IDE the snippet I use for new classes contains declarations for a private assignment operator and copy constructor so that when I gen up a new class I get no default assignment and copy operations - I have to explicitly remove the declaration of those operations from the private: section if I want the compiler to be able to generate them for me.

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    Good answer. I'd just like to point out that in C++11, rather than making the assignment operator and copy constructor private, you can remove them completely like this: Foo(const Foo&) = delete; // no copy constructor and Foo& Foo=(const Foo&) = delete; // no assignment operator – karadoc Jun 5 '13 at 10:19
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    "However, C++ inherited its default assignment and copy constructors from C" That does not imply why you have to make ALL C++ types this way. They should have just restricted this to plain old PODs, just the types that are in C already, no more. – thesaint Aug 11 '14 at 11:25
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    I can certainly understand why C++ inherited these behaviors for struct, but I do wish that it let class behave differently (and sanely). In the process, it also would have given a more meaningful difference between struct and class beside default access. – jamesdlin Jun 1 '18 at 0:42

UPDATE 2: Unfortunately this proposal didn't make it to C++17, so nothing is changing in the language with this regard for now.

UPDATE: The current version of the proposal which has very high chance to get voted into C++17 is here.

There is a recent proposal (N4126) on explicitly defaulted comparison operators, which has had very positive feedback from the standard committee, so hopefully we'll see it in some form in C++17.

In short, the proposed syntax is:

struct Thing
    int a, b, c;
    std::string d;

bool operator==(const Thing &, const Thing &)= default;
bool operator!=(const Thing &, const Thing &)= default;

Or in friend form for classes with private fields:

class Thing
    int a, b;

    friend bool operator<(Thing, Thing) = default;
    friend bool operator>(Thing, Thing) = default;
    friend bool operator<=(Thing, Thing) = default;
    friend bool operator>=(Thing, Thing) = default;

Or even in short form:

struct Thing
    int a, b, c;
    std::string d;

    default: ==, !=, <, >, <=, >=;   // defines the six non-member functions

Of course all this may change by the time this proposal is finally accepted.

  • Do you know if there is any more recent update on this? Is it going to be available in c++17? – dcmm88 Apr 19 '17 at 21:16
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    @dcmm88 Uhfortunately it won't be available in C++17. I've updated the answer. – Anton Savin Apr 19 '17 at 23:57

IMHO, there is no "good" reason. The reason there are so many people that agree with this design decision is because they did not learn to master the power of value-based semantics. People need to write a lot of custom copy constructor, comparison operators and destructors because they use raw pointers in their implementation.

When using appropriate smart pointers (like std::shared_ptr), the default copy constructor is usually fine and the obvious implementation of the hypothetical default comparison operator would be as fine.


It's answered C++ didn't do == because C didn't, and here is why C provides only default = but no == at first place. C wanted to keep it simple: C implemented = by memcpy; however, == cannot be implemented by memcmp due to padding. Because padding is not initialized, memcmp says they are different even though they are the same. The same problem exists for empty class: memcmp says they are different because size of empty classes are not zero. It can be seen from above that implementing == is more complicated than implementing = in C. Some code example regarding this. Your correction is appreciated if I'm wrong.

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    C++ doesn't use memcpy for operator= - that would only work for POD types, but C++ provides a default operator= for non POD types too. – Flexo Dec 7 '11 at 16:58
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    Yeah, C++ implemented = in a more sophisticated way. It seems C just implemented = with a simple memcpy. – Rio Wing Dec 9 '11 at 22:34
  • The content of this answer should be put together with Michael's. His corrects the question then this answers it. – Sgene9 Aug 29 '16 at 7:12

In this video Alex Stepanov, the creator of STL addresses this very question at about 13:00. To summarize, having watched the evolution of C++ he argues that:

  • It's unfortunate that == and != are not implicitly declared (and Bjarne agrees with him). A correct language should have those things ready for you (he goes further on to suggest you should not be able to define a != that breaks the semantics of ==)
  • The reason this is the case has its roots (as many of C++ problems) in C. There, the assignment operator is implicitly defined with bit by bit assignment but that wouldn't work for ==. A more detailed explanation can be found in this article from Bjarne Stroustrup.
  • In the follow up question Why then wasn't a member by member comparison used he says an amazing thing : C was kind of a homegrown language and the guy implementing these stuff for Ritchie told him he found this to be hard to implement!

He then says that in the (distant) future == and != will be implicitly generated.

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    seems like this distant future is not going to be 2017 nor 18, nor 19, well you catch my drift... – UmNyobe May 4 '17 at 12:47

It is not possible to define default ==, but you can define default != via == which you usually should define yourselves. For this you should do following things:

#include <utility>
using namespace std::rel_ops;

class FooClass
  bool operator== (const FooClass& other) const {
  // ...

You can see http://www.cplusplus.com/reference/std/utility/rel_ops/ for details.

In addition if you define operator< , operators for <=, >, >= can be deduced from it when using std::rel_ops.

But you should be careful when you use std::rel_ops because comparison operators can be deduced for the types you are not expected for.

More preferred way to deduce related operator from basic one is to use boost::operators.

The approach used in boost is better because it define the usage of operator for the class you only want, not for all classes in scope.

You can also generate "+" from "+=", - from "-=", etc... (see full list here)

  • I didn't get default != after writing == operator. Or I did but it was lacking constness. Had to write it myself too and all was well. – John Feb 6 '12 at 1:05
  • you can play with const-ness to achieve needed results. Without code it is difficult to say what is wrong with it. – sergtk Feb 6 '12 at 18:30

C++0x has had a proposal for default functions, so you could say default operator==; We've learnt that it helps to make these things explicit.

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    I thought that only the "special member functions" (default constructor,copy constructor, assignment operator and destructor) could be explicitly-defaulted. Have they extended this to some other operators? – Michael Burr Oct 21 '08 at 22:57
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    Move constructor can also be defaulted, but I don't think this applies to operator==. Which is a pity. – Pavel Minaev Oct 29 '09 at 7:31

C++20 provides a way to easily implement a default comparison operator.

Example from cppreference.com:

class Point {
    int x;
    int y;
    auto operator<=>(const Point&) const = default;
    // ... non-comparison functions ...
// compiler generates all six relational operators
Point pt1, pt2;
if (pt1 == pt2) { /*...*/ } // ok
std::set<Point> s; // ok
s.insert(pt1); // ok
if (pt1 <= pt2) { /*...*/ } // ok, makes only a single call to <=>
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    I'm surprised that they used Point as an example for an ordering operation, since there is no reasonable default way to order two points with x and y coordinates... – pipe Nov 14 '18 at 9:51
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    @pipe If you don't care in which order the elements are, using default operator makes sense. For example, you might use std::set to make sure all points are unique, and std::set uses operator< only. – Ville-Valtteri Jan 24 at 11:50

Conceptually it is not easy to define equality. Even for POD data, one could argue that even if the fields are the same, but it is a different object (at a different address) it is not necessarily equal. This actually depends on the usage of the operator. Unfortunately your compiler is not psychic and cannot infer that.

Besides this, default functions are excellent ways to shoot oneself in the foot. The defaults you describe are basically there to keep compatibility with POD structs. They do however cause more than enough havoc with developers forgetting about them, or the semantics of the default implementations.

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    There is no ambiguity for POD structs - they should behave in exact same way any other POD type does, which is value equality (rather then reference equality). One int created via copy ctor from another is equal to the one from which it was created; the only logical thing to do for a struct of two int fields is to work in exact same way. – Pavel Minaev Oct 29 '09 at 7:33
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    @mgiuca: I can see considerable usefulness for a universal equivalence relation that would allow any type that behaves as a value to be used as a key in a dictionary or similar collection. Such collections cannot behave usefully without a guaranteed-reflexive equivalence relation, however. IMHO, the best solution would be to define a new operator which all built-in types could implement sensibly, and define some new pointer types which were like the existing ones except that some would define equality as reference equivalence while others would chain to the target's equivalence operator. – supercat Mar 5 '15 at 4:07
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    @supercat By analogy, you could make almost the same argument for the + operator in that it is non-associative for floats; that is (x + y) + z != x + (y + z), due to the way FP rounding occurs. (Arguably, this is a far worse problem than == because it is true for normal numeric values.) You might suggest adding a new addition operator that works for all numeric types (even int) and is almost exactly the same as + but it is associative (somehow). But then you would be adding bloat and confusion to the language without really helping that many people. – mgiuca Mar 13 '15 at 6:20
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    @mgiuca: Having things which are quite similar except at edge cases is often extremely useful, and misguided efforts to avoid such things result in much needless complexity. If client code will sometimes need edge cases to be handled one way, and sometimes need them to be handled another, having a method for each style of handling will eliminate a lot of edge-case-handling code in the client. As for your analogy, there is no way to define operation on fixed-sized floating-point values to yield transitive results in all cases (though some 1980s languages had better semantics... – supercat Mar 14 '15 at 1:16
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    ...than today's in that regard) and thus the fact that they don't do the impossible should not be a surprise. There is no fundamental obstacle, however, to implementing an equivalence relation which would be universally applicable to any type of value which can be copied. – supercat Mar 14 '15 at 1:19

I agree, for POD type classes then the compiler could do it for you. However what you might consider simple the compiler might get wrong. So it is better to let the programmer do it.

I did have a POD case once where two of the fields were unique - so a comparison would never be considered true. However the comparison I needed only ever compared on the payload - something the compiler would never understand or could ever figure out on it's own.

Besides - they don't take long to write do they?!


Is there a good reason for this? Why would performing a member-by-member comparison be a problem?

It may not be a problem functionally, but in terms of performance, default member-by-member comparison is liable to be more sub-optimal than default member-by-member assignment/copying. Unlike order of assignment, order of comparison impacts performance because the first unequal member implies the rest can be skipped. So if there are some members that are usually equal you want to compare them last, and the compiler doesn't know which members are more likely to be equal.

Consider this example, where verboseDescription is a long string selected from a relatively small set of possible weather descriptions.

class LocalWeatherRecord {
    std::string verboseDescription;
    std::tm date;
    bool operator==(const LocalWeatherRecord& other){
        return date==other.date
            && verboseDescription==other.verboseDescription;
    // The above makes a lot more sense than
     // return verboseDescription==other.verboseDescription
     //     && date==other.date;
    // because some verboseDescriptions are liable to be same/similar

(Of course the compiler would be entitled to disregard the order of comparisons if it recognizes that they have no side-effects, but presumably it would still take its que from the source code where it doesn't have better information of its own.)


The default comparison operators would be correct a vanishingly small amount of the time; I expect that they would be a source of problems rather than something useful.

Also, the default methods you mention are often undesirable. Seeing code like this to get rid of the default copy constructor and operator= is very common:

class NonAssignable {
// ....
    NonAssignable(const NonAssignable&);  // Unimplemented
    NonAssignable& operator=(const NonAssignable&);  // Unimplemented

In a lot of code it is common to see a comment "default copy constructor and operator= OK" to indicate that it is not a mistake that they have been removed or explicitly defined.

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    Inheriting from boost::noncopyable is another very good way of supressing stray copy constructors and assignment operators. – CesarB Oct 20 '08 at 10:18
  • Yes, that is true. In fact, it is so common that it made it into boost and is regularly used. – janm Oct 20 '08 at 10:56
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    "The default comparison operators would be correct a vanishingly small amount of the time": that is a gross exaggeration. I have written hundreds of operator=='s that did nothing else but perform a simple memberwise comparison on the fields of the structure. – HighCommander4 Jun 3 '12 at 8:00

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