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I'm doing some deserialization from byte array and made a ExtractData variadic template so it works like

QByteArray data; // (this works just like std::vector<char>)
std::vector<std::any> values = ExtractData<float, char>(data); // read a float, char sequentially from data
float readFloat = std::any_cast<float>(values[0]);
float readChar = std::any_cast<char>(values[1]);

but still, a lot of boilerplate to decode stuff.
Ideally I'd want something like

float readFloat;
char readChar;
std::tie(readFloat, readChar) = ExtractData<float, char>(data);

ExtractData structure is basically

using anyVec = std::vector<std::any>;

// one type resolution
template<typename T>
anyVec ExtractData(const QByteArray& data, anyVec out = {}){
    // extract T value, assign to std::any, push_back into out
    return outVec;
}

// multiple types resolution
template<typename T, typename... Rest>
typename std::enable_if<(sizeof...(Rest) > 0), anyVec>::type
ExtractData(const QByteArray& data, anyVec out = {}){
    // extract T value, assign to std::any, push_back into out
    return ExtractData<Rest...>(data, out);
}

I just don't see how I could make ExtractData<type1, type2, ...>(data) return a std::tuple<type1, type2, ...> since all that original type info is lost when template type list "unwinds". Is it even possible? Sorry if I'm missing something obvious, I'm still quite new to c++11 and newer.

I see that I could make a template for fixed amount of types, but that's not my use case sadly.

I'm using Qt 5.11, c++14 (omitted experimental in namespaces here), but happy to hear c++17 advice too. Exact snippet of code I'm using: https://gist.github.com/tjakubo2/dc3e6897bf42f3bed78933031e53786b

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    You should be able to have ExtractData<Args...> return std::tuple<Args...>. Should be reasonably straightforward.
    – Igor Tandetnik
    Sep 23, 2018 at 16:59
  • "since all that original type info is lost when template type list "unwinds" That is simply wrong! If you "unwind" your typelist all and everything is still known!
    – Klaus
    Sep 23, 2018 at 17:57

2 Answers 2

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Something along these lines, perhaps:

template <typename T>
T ExtractOnePiece(const QByteArray& data, int& offset);

template <typename... Ts>
std::tuple<Ts...> ExtractData(const QByteArray& data) {
    int offset = 0;
    return {ExtractOnePiece<Ts>(data, offset)...};
}

Demo. Specializations of ExtractOnePiece for each type you want to support are left as an exercise for the reader.

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Thanks to beached, Ben and Seph from #include Discord server, just like Igor suggested in a response here, I've landed with:

template<typename T>
std::tuple<T> ExtractSingle(const QByteArray& data, size_t offset){
    // pull T_val from data at given offset
    return std::tuple<T>{T_val};
}

template<typename T>
std::tuple<T> ExtractData(const QByteArray& data, size_t offset = 0){
    return ExtractSingle<T>(data, offset);
}

template<typename T, typename... Rest>
typename std::enable_if<(sizeof...(Rest) > 0), std::tuple<T, Rest...>>::type
ExtractData(const QByteArray& data, size_t offset = 0){
    auto val = ExtractSingle<T>(data, offset);
    return std::tuple_cat(std::move(val), ExtractData<Rest...>(data, offset + sizeof(T)));
}

which does exactly what I wanted. I imagine it could be made a little more performant but that's not needed for my application as of now. Cheers!

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