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In a C++ library where a user-defined type exists that adds a textual representation of the symbolical value of a variable, to the primitive data types int, double, ..., bool:

template<typename T>
class Var {
    T value;

    //a datastructure containing Expressions and string representations of operators
    Expression expr; 

The operator for addition (+) is overwritten:

template<typename X, typename Y>\
auto operator op(const X x, const Y y) ->\
se::Var<decltype(__filter(x).getValue() op __filter(y).getValue())> \
    const auto __x = __filter(x);\
    const auto __y = __filter(y);\
    auto result = se::constructVar(__x.getValue() op __y.getValue());\
    if(__x.isSymbolic() || __y.isSymbolic()) {\
        result.setExpression(BINARY_EXPRESSION(opName, __x.getExpression(), __y.getExpression()));\
    return result;\


The following program:


#define double Double
#define int Int
#define float Float
#define bool Bool

#include "aprogram.c"

#undef double 
#undef int
#undef float
#undef bool

int main(){
     std::cout << afunction();


int afunction(){
    double t1 = ... ;
    double t2 = ... ;
    return t1 + t2;

returns t1.expr + t2.expr as expected.


When overloading the operator greater (>):

#define OVERLOAD_COND_OPERATOR(op, opName) \
template<typename X, typename Y>\
se::Var<bool> operator op(const X x, const Y y)\
    const auto __x = __filter(x);\
    const auto __y = __filter(y);\
    auto result = se::constructVar(__x.getValue() op __y.getValue());\
    if(__x.isSymbolic() || __y.isSymbolic()) \
        result.setExpression(BINARY_EXPRESSION(opName, __x.getExpression(), __y.getExpression()));\
    return result;\


and changing the return in afunction() to return t1 > t2 we expect a similar result, t1.expr > t2.expr, but instead the result gets casted to a bool and the information stored in Var.expr is lost.

Although I believe the operators for + and > are similarly written, can you help me understand why > behaves differently? Can you help me get to the wanted behaviour?

Please provide feedback to my question: help me help you helping me.

Information Added after posting

1/ __filter() is a method returning the datastructure Var. In my example Var is greatly simplified, filter just returns the object with T value and Expression expr in it.


typedef se::Var<double> Double;
typedef se::Var<int> Int;
typedef se::Var<char> Char;
typedef se::Var<float> Float;
typedef se::Var<bool> Bool;
share|improve this question
Note: I guess double leading underscores are reserved for the compiler –  Dieter Lücking Mar 18 at 20:19
Am I the only one that finds OVERLOAD_COND_OPERATOR utterly misleading when defining an add-op ?? It would seem there should be a different expansion for conditional vs. value-result operators. –  WhozCraig Mar 18 at 20:19
Could you please share more on your code? What __filter is, etc? –  oopscene Mar 18 at 20:19
@WhozCraig typo on StackOverflow, my bad. –  Caroline Mar 18 at 20:21
Please post a sscce.org -- eliminate all macro use, as macros might be part of the problem, but if they are then eliminating them will tell us that. Actually test the code before you post, so it has no typos. Do not use identifiers starting with __, that is reserved for compiler implementors only. Finally, are you trying to overload operators on primitive types? You cannot do that, I am pretty sure: UB. No wait that is your illegal #defines making it look like you are. –  Yakk Mar 18 at 20:49

1 Answer 1

Your program is going to do any number of unexpected things, because it has undefined behavior.

This is not allowed:

#define double Double
#define int Int
#define float Float
#define bool Bool

Macro names have to be identifiers, and those are keywords, not identifiers.

Section makes this very clear:

A translation unit shall not #define or #undef names lexically identical to keywords, to the identifiers listed in Table 3, or to the attribute-tokens described in 7.6.


If a program declares or defines a name in a context where it is reserved, other than as explicitly allowed by this Clause, its behavior is undefined.

share|improve this answer
Ben, thanks for the reply! Please refer to the typedefs I added in my question field. Does that change anything? –  Caroline Mar 18 at 20:37
@Caroline: Nope, not unless you're telling me you are using the typedefs instead of these macros. It's the macro name, not the expansion, that this rule in the Standard is concerned with. –  Ben Voigt Mar 18 at 20:39

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