9

The following code works on my machine, but is it good practice / guaranteed to work?

struct MyStruct {
   MyStruct(int x, int y, int z) :
       x(x),
       y(y),
       z(z) {
   }

   int x;
   int y;
   int z;
};

Specifically, is x(x) guaranteed to do what I want? (that is, does the variable in an initialization list always look at that struct/class' member?)

I don't want to use leading or trailing underscores since x is a public member of the struct.

Thanks!

4
  • While the compiler does the right thing, any human looking at the code will be baffled. And if that type is more complex than what you show, and you add a decade and three programmer generations of maintenance to this, it will almost certainly end up as a mess.
    – sbi
    Jan 30 '11 at 18:30
  • 2
    What would you recommend to do instead?
    – FrankMN
    Jan 30 '11 at 18:41
  • @sbi recommendations? Jan 18 '20 at 7:45
  • @CătălinaSîrbu: This is almost a decade old. I have since changed my mind. :-/
    – sbi
    Jan 20 '20 at 18:38
13

Yes, that is guaranteed to do what you expect.

The only thing that can exist "outside" the parentheses in an initializer list are member variables. And inside the parentheses, the usual rules apply; local variables hide member variables.

As to whether it's good practice, well, consider what happens if you accidentally remove one or more of the arguments from the constructor argument list. The code will still compile fine! But it will break horribly at runtime. Nevertheless, I still use this pattern fairly frequently.

1
  • The code will still compile fine! i tried this and i don't understand why. You said that outside the parentheses there are member variables. If a remove the argument from my constructor list, that is the local variable doesn't exist anymore. Will that mean that MyStruct(int x, int y):x(x),y(y),z(z){} will do what on the z member? Jan 18 '20 at 7:49
2

While it expects what you do, imagine this situation by extension:

class MyStruct {
public:
   MyStruct(int x, int y, int z)
   :   x(x),
       y(y),
       z(z) 
   {   }
   int x() const;
   int y() const;
   int z() const;

private:
   int x;
   int y;
   int z;
};

Which will not work. That's why I prefix my class members with m_. This allows very readable code with a hint to the reader that the identifier in question is part of the class. Non-prefixed identifiers are either function arguments (like in the constructor initializer list: m_x(x), or function local variables).

0

Yes, x(x) does exactly what you want. x(x) is a name of the member, and x(x) is a formal argument.

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