Now that the auto keyword was introduced in c++ 11, I think that we should be able to drop specifying auto and simply initialize variables as v = 20. Since C++ is able to deduce the type of a variable on its own, why not drop the auto keyword all together and deduce the type of a variable at its first initialization?

For example, instead of this,

int main() {
    auto v = 20;

why not just say,

int main() {
    v = 20;

(assuming no conflict with a global variable)

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    How would you distinguish between assigning to a variable and shadowing a variable in an outer scope? – sjdowling Mar 25 '15 at 9:49
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    Are you going to propose this to WG21 then? – EdChum Mar 25 '15 at 9:50
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    I don't understand why you keep banging on about how Python "handles such a situation" okay. I also don't understand why the best answers to this are hidden away in the comments. :( – Lightness Races in Orbit Mar 25 '15 at 10:53
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    salsabear - Python does not handle it right. That Python doesn't distinguish declare+init vs. simple assignment is a major design error of Python. – Martin Ba Mar 25 '15 at 12:49
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    I'm voting to close this question as off-topic because it does not appear to be asking about programming as defined by the help center. – TylerH Aug 17 '15 at 17:29

Your proposal would be rejected on the basis of backward compatibility alone. But let's say for the sake of argument that the standards committee like your idea.

  1. You don't take into account the numerous ways you can initialize a variable
widget w;                   // (a)

widget w();                 // (b)
widget w{};                 // (c)

widget w(x);                // (d)
widget w{x};                // (e)

widget w = x;               // (f)
widget w = {x};             // (g)

auto w = x;                 // (h)
auto w = widget{x};         // (i)

What is w() supposed to mean? Does it default construct a variable named w, or does it invoke the call operator on a variable named w? Does it create a function declaration (what would its type be? How do you deduce the type of such a function?)

Musing over the fact that widget w() is a function declaration is missing the point entirely. The point is the language is not as cut and dry as x = some_value.

Note that a proposal to omit the initializer for ranged-based for loops does NOT apply to the rest of the language. It works here because the scope of the variable is limited to the loop, and because you are forced to initialize a variable (that always uses auto&&).

for (i : {1, 2, 3}) { }
  1. auto is not magic, it uses template argument deduction

C++ is not a dynamically-typed language. The rules for deducing the type of auto pretends that the variable is being passed to an imaginary templated function. If the deduction would fail as it normally would, you can't create the variable. Currently there is a defect where the following will create an std::initializer_list rather than initializing a variable with a scalar:

auto a{4}; // initializer list of one element, not an int
auto{4}; // not allowed

How would you handle such a situation?

  • 2
    (b) is a function declaration. – user657267 Mar 25 '15 at 10:39
  • "What is w() supposed to mean? Does it default construct a variable named w" No. – Lightness Races in Orbit Mar 25 '15 at 10:52
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    @user657267 The two of you have really missed the point. In OP's proposed syntax, what would w() mean? – user4711407 Mar 25 '15 at 10:53
  • @user4711407 Like you say who knows, I'm just pointing out that (b) in your example is a function declaration, not an initialization of a widget. – user657267 Mar 25 '15 at 10:57
  • @user657267 widget w(x); is also a function declaration depending on what x is. – user4711407 Mar 25 '15 at 11:00

TL;DR: I'm not in favor.

Actually, the declare at the first initialization strategy of python is very dangerous. It actually means that no python code should be sent to customers before being sure that no variable typo is done ever, also not in almost never occurring recovery code. Of course, C++ code must be tested thoroughly too, but at least these mistakes are caught by the compiler.

I would even suggest running python code through a tool that checks that all variables of a class are assigned in __init__() with exception of classes where adding member variables makes sense.

A typo is so easily made and some tests can oversee this:

def my_func():
  my_check = do_some_checks()
  if my_check:
    my_chek = do_more_checks()
  return my_check


bool myFunc()
  auto myCheck = doSomeChecks();
  if (myCheck)
    myChek = doMoreChecks();
  return myCheck;

Bottom line: the compiler can be your friend if you let it be your friend.


Don't you see the problem here. When there is auto the compiler knows that there is a variable declared and initialized, but without auto it would be like an expression. Like

auto v=20;

here v is declared and initialized.But without auto


it will be like an assignment to a variable, which is previously been declared and has a memory space attached to it.

  • 1
    think in terms of dynamic languages. In that case this is clearly handled – nagavamsikrishna Mar 25 '15 at 9:58
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    C++ is not a dynamic language. – TartanLlama Mar 25 '15 at 9:58
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    @TartanLlama : my point is, that stuff done by dynamic languages can also be done at compile time and thus by c++ – nagavamsikrishna Mar 25 '15 at 10:00
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    @salsabear C++ has arbitrarily nested lexical scopes. The languages you're thinking of don't. – molbdnilo Mar 25 '15 at 10:03
  • It's worse than just nested scopes. using namespace Foo means that you might refer to Foo::v from a non-nested scope as well. – MSalters Mar 25 '15 at 12:52

The problems with allowing such things exceed the benefits. For example;

//  warning:  this is code to illustrate a problem with the proposal
//       it is not valid C++ (thankfully)

int main()
     alpha = 20;  

     //   do stuff

     Alpha= 30;    //   typo here.  We have introduced a new variable

     // do funky stuff that produces incorrect results if alpha has a value of 20    

The problem here is that the proposed "feature" would silently allow the code to compile, by creating a second variable where none is intended. Program bugs resulting from such things (two or more variables with similar names that are visually similar to the programmer who only intended there to be one variable) are often really hard to track down. Avoiding such bugs is one of the significant reasons that several programming languages - including C and C++ - do not allow implicit declaration of variables. Such errors can be easily detected by a compiler or interpreter, even if mere mortals have trouble spotting them.

There are other programming languages which allow this sort of thing. And one quite common criticism of those languages is the ease of introducing numerous small bugs like I describe, so developers must (if they test the code well) spend hours tracking down such simple things because there is no help from the compiler/interpreter.

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