18

I have this code:

typedef struct {
    int test;
} SensorData_t;
volatile SensorData_t sensorData[10];

SensorData_t getNextSensorData(int i)
{
    SensorData_t data = sensorData[i];
    return data;
}


int main(int argc, char** argv) {

}

It compiles with gcc version 8.3, but not with g++. Error message:

main.c: In function ‘SensorData_t getNextSensorData(int)’:
main.c:8:34: error: no matching function for call to ‘SensorData_t(volatile SensorData_t&)’
  SensorData_t data = sensorData[i];
                                  ^
main.c:3:3: note: candidate: ‘constexpr SensorData_t::SensorData_t(const SensorData_t&)’ <near match>
 } SensorData_t;
   ^~~~~~~~~~~~
main.c:3:3: note:   conversion of argument 1 would be ill-formed:
main.c:8:34: error: binding reference of type ‘const SensorData_t&’ to ‘volatile SensorData_t’ discards qualifiers
  SensorData_t data = sensorData[i];
                      ~~~~~~~~~~~~^
main.c:3:3: note: candidate: ‘constexpr SensorData_t::SensorData_t(SensorData_t&&)’ <near match>
 } SensorData_t;
   ^~~~~~~~~~~~
main.c:3:3: note:   conversion of argument 1 would be ill-formed:
main.c:8:34: error: cannot bind rvalue reference of type ‘SensorData_t&&’ to lvalue of type ‘volatile SensorData_t’
  SensorData_t data = sensorData[i];

I'm not sure if I need to add volatile as well for the data variable and the return type, shouldn't be needed because it is copied. But I do access the sensorData array from an interrupt as well (on an embedded system), so I think I need volatile for the top level variable sensorData.

2
  • 2
    FYI: "typedef struct" is not required in C++. Also, one question concerning the code here: You could use a simple int array (or, better, std::array), do you have the struct here because it contains more members? In any case, you may need actual synchronization with the interrupt, even if it's just one int, so plan your critical section where only one of the two can access the data. Commented May 11, 2022 at 5:11
  • 1
    Related: stackoverflow.com/q/17217300/951890 Commented May 14, 2022 at 16:47

2 Answers 2

14

Your program is trying to copy a SensorData_t object. The compiler supplies a copy constructor with the following signature:

SensorData_t(const SensorData_t &)

This copy constructor will not work with volatile arguments, hence the compilation error.

You can write your own copy constructor which works with volatile SensorData_t objects (as well as non-volatile SensorData_t objects):

struct SensorData_t {
    SensorData_t() = default;

    SensorData_t(const volatile SensorData_t &other)
        : test(other.test) {
    }

    int test;
};
5

As an alternative to the accepted answer, you may consider avoid copying the data from the array altogether, if the getNextSensorData is a simple getter function for the global sensorData:

// Intorduce type alias
using SD = const volatile SensorData_t&;

SD getNextSensorData(int i)
{
    return sensorData[i];
}

This way (if it is suitable for the design), you'll keep the definitions code more concise. But I have to note that the usage is a bit less direct than in the copy case:

int main() {
    // Type alias
    SD sd1 = getNextSensorData(0);
    // Deduced type
    auto&& sd2 = getNextSensorData(1);
    // Explicit type
    const volatile SensorData_t& sd3 = getNextSensorData(2);
}
1
  • 5
    This is a bad idea, since it moves the actual access to the volatile object from the "get" abstraction to some unknown point later in the code. volatile strongly suggests that either the timing or order of access is critical.
    – Ben Voigt
    Commented May 11, 2022 at 15:19

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