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Suppose I have following template.

template<typename T>
class MyClass
   T _data;

When I use it, T is always a structure (data only). For example,

struct ST1{
    int a;
    int b;
struct ST2{
    int a1;
    int b1;
    int c1;

For a particular instance of MyClass, e.g., MyClass<struct ST1> myinstance, I would like to access or One generic way I can think of is to define methods in MyClass like

void MyClass::write(T const &){ _data = T;}
T    MyClass::read(){return _data;}

But the problem is that for every read and write, I need to create an structure instance, even though I only access a small portion of the _data.


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Do you want _data to be hidden and an implementation detail, or do you want the users of MyClass to access it? In the latter case, just make it public. It feels like you're creating the problem you're having. – Sebastian Redl Jun 13 '13 at 18:30
a getter method that return the reference to _data would do, although it break encapsulation, but so are your write and read. – yngum Jun 13 '13 at 18:35

2 Answers 2

up vote 1 down vote accepted

How about...

const T& MyClass::GetData() const { return _data; }
T& MyClass::GetData() { return _data; }

Then you can just do...

myClass.GetData().a = 17;

You could also just make _data public.

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Butter than my. It's simple. Thanks – Yan Zhu Jun 13 '13 at 18:37
I'd be against this pattern, because if you are doing this, why not just expose _data directly? The binary layout of _data is already exposed by the above method, and you cannot do any post processing on _data after the user changes it... – Yakk Jun 13 '13 at 19:15

The first thing you should do is think about making _data public. If it is just data, and it isn't active, and having its binary layout exposed isn't a problem, this works.

If you want to be able to "bookend" access to _data (say, with mutexes, or getting/setting some information remotely), and you have access to C++11 lambdas, this pattern can be useful:

template<typename Lambda>
auto Data( Lambda&& closure )->decltype( closure(_data) ) {
  // do pre-processing
  auto retval = closure(_data);
  // do post-processing
  return retval;
template<typename Lambda>
auto Data( Lambda&& closure ) const->decltype( closure(_data) ) {
  // do pre-processing
  auto retval = closure(_data);
  // do post-processing
  return retval;

which you'd use like this:

int main() {
  MyClass<Foo> instance;
  int x = instance.Data( [&]( Foo const& foo ) {
    return foo.x;
  instance.Data( [&]( Foo& foo ) {
    foo.y = 3;

which lets you manipulate your data "inside" wrapping code for the MyClass.

This is a bit awkward until C++14 auto lambdas show up, because you have to repeat the type of Foo.

A benefit to this style is that MyClass doesn't even have to store an instance of Foo! It could generate the Foo on demand, then read back from what the user changed.

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