I would like to construct boolean operators for a vector of values; things like operator<, operator<=, operator==, etc.

This is so I can have std::vector<double> values; and compare all values to something:

std::vector<bool> valuesLessThanZero = values < 0.0;

I'm able to do this with a #define, such as this:

#define BOOL_ARRAY_OPER(OP)                                                   \
template <typename T>                                                         \
std::vector<bool> operator OP (const std::vector<T>& vec, const T& value) {   \
    std::vector<bool> results;                                                \
    results.reserve(vec.size());                                              \
    for (const T& result : vec) {                                             \
        results.push_back(result OP value);                                   \
    }                                                                         \
    return results;                                                           \


Example code here.

I'm wondering whether there's a way to do this purely with templates, without having to BOOL_ARRAY_OPER() each of the operators I wish to use?

It fails to compile if I write it as:

template <typename T, typename OP>
std::vector<bool> operator OP (const std::vector<T>& vec, const T& value) { ... }

with an error such as:

main.cpp:22:19: error: conversion function must be a non-static member function
std::vector<bool> operator OP (const std::vector<T>& vec, const T& value) {
  • Do you want to avoid the BOOL_ARRAY_OPER? Or just avoid macros entirely? – cigien Aug 7 at 17:59
  • You mean push_back(valuesLessThanZero, values | filtered([](int v){return v<0;})); with boost? – Mooing Duck Aug 7 at 18:01
  • I was hoping to avoid the macros, if possible, as there might be another operator I've forgotten about (let's say I had operator< but forgot operator<=). With templates, those would resolve at compile-time. With macros, it will error in some other file, and the library itself would need to be updated to support the new operator. – OnlineCop Aug 7 at 18:12

The usual c++ way of doing this would be something like a transform:

std::vector<double> values;
std::vector<bool> valuesLessThanZero;
std::transform(values.cbegin(), values.cend(), std::back_inserter(valuesLessThanZero), [] (double value) { return value < 0; });

It would, of course, be possible to write

std::vector<bool> operator<(std::vector<double> const & values, double value) { ... }

that would produce those sorts of results but I would suggest that you seriously think about whether abusing the syntax in the way you are thinking of would actually be of any benefit. Most people would expect that 'values < 0' would produce a single boolean value, not a vector of such values. Plus of course you would also need to provide

std::vector<bool> operator <(bool value, std::vector<double> const & values) { ... }

if you want to allow the usual order-agnostic semantics, this quickly balloons if you want to prodive all six comparison operators and even more if you need to handle r-value reference cases.

| improve this answer | |
  • This is part of a library which converts R syntax to C++. In R, an ifelse() statement operates like a ternary ?: but on an array: vec2 = ifelse(vec1 < 100, 0, 100). That vec1 < 100 is what I'm trying to emulate in c++, where each element returns a boolean, and I can do further processing at that point. – OnlineCop Aug 7 at 18:28

No, C++ isn't D. You have to declare each operator independently.

You could define a library that declares all six comparison operators and forwards them through to some other function named like opBinary(f, x, y) (as in D) - but that would still require declaring all six individually, such that like:

template <typename T>
auto operator==(vector<T> const& v, T const& u) -> vector<bool> {
    return opBinary(std::equal_to{}, v, u);

// other 5 here

Which would be shorter with a macro, but at least the bulk of the functionality would be in opBinary and not be a macro?

In range-v3, the implementations of these operators become much simpler since:

template <typename T>
auto operator==(vector<T> const& v, T const& y) -> vector<bool> {
    return v | views::transform([&](auto const& x){ return x == u; })
             | ranges::to<std::vector>();

Which maybe would be good enough to even avoid having to reify the vector at the end and use directly. Unfortunately we don't have good partial function application really, (can't just write (== y) or some such), but if you write short function objects that do the the right thing:

v == x

could become

v | views::transform(equals(x))

Which... isn't bad?

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