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I have a container variant as follows:

typedef boost::variant<std::vector<int>, std::vector<std::string> > Container;

And I populate a Container object from a ValueContainer object (a C struct) as follows:

class ContainerAppender: public boost::static_visitor<>
    void setValueToAppend(const Value* value){
        _value = value;

    void operator()(std::vector<int>& container) const {

    void operator()(std::vector<std::string>& container) const {


    const Value* _value;

void fillContainer(Container& container, ValueContainer* cContainer) {
    if(cContainer) {
        ContainerAppender append;
        for(int i = 0; i < cContainer->nunberOfValues; i++) {
            boost::apply_visitor(append, container);

I am not free to change the C structures.

I don't like my solution for populating the container as I am visiting for every loop despite the fact that the container type never changes. It feels that there is a better way of doing. Can you help?

here's the C union:

typedef struct Value {
    union {
        int   i;
        const char* s;
    } value;
} Value_T;

typedef struct ValueContainer {
    Type type;
    unsigned int numberOfValues;
    Value *values;
} ValueContainer_T;
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Do you populate a vector of variants, a vector of either string or int, or a single variant? The way you explained it was unclear. –  Mr. kbok May 24 '13 at 8:46
Is the objective to populate a vector<boost::variant<int, std::string>> from an array of Value_T? –  hmjd May 24 '13 at 8:47
Very sorry, the typedef for my Container was incorrect. I've corrected this now. –  Baz May 24 '13 at 8:58

1 Answer 1

up vote 1 down vote accepted

Is the visitor really necessary? Consider this:

template<typename T>
T value_get(Value_T const &c_variant) {
    return T();

int value_get<int>(Value_T const &c_variant) {
    return c_variant.i;

const char* value_get<const char*>(Value_T const &c_variant) {
    return c_variant.s;

template<typename T> 
std::vector<T> fill_vector(ValueContainer_T const& c_container) {
    std::vector<T> cpp_container(c_container.numberOfValues);
    for(size_t i = 0; i < c_container.numberOfValues; ++i)
        cpp_container[i] = value_get<T>(c_container.values[i]);
    return cpp_container;

Looks simpler to me.

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