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I have read Answers to C++ interview questions among which there is one that puzzles me:

Q: When are temporary variables created by C++ compiler?

A: Provided that function parameter is a "const reference", compiler generates temporary variable in following 2 ways.

a) The actual argument is the correct type, but it isn't Lvalue

double Cube(const double & num)
  num = num * num * num;
  return num;

double temp = 2.0;
double value = cube(3.0 + temp); // argument is a expression and not a Lvalue

b) The actual argument is of the wrong type, but of a type that can be converted to the correct type

 long temp = 3L;
 double value = cuberoot(temp); // long to double conversion

My question is once the function argument is a const reference, why does the compiler generate the temporary variable, isn't that self-contradictory? Also, should the function Cube fail to compile because it modifies the const argument?

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7 Answers 7

up vote 1 down vote accepted

You are allowed to pass the results of an expression (including that of implicit casting) to a reference-to-const. The rationale is that while (const X & value) may be cheaper to use, depending on the copy-cost of type type X, than (X value), the effect is pretty much the same; value gets used but not modified (barring some dicey const-casting). Hence it is harmless to allow a temporary object to be created and passed to the function.

You are not allowed to do so with pointer-to-const or reference-to-non-const, because unexpected (and bad) things can happen, such as you might expect the long temp to be cast back to long, which isn't going to happen.

You're correct about num = num * num * num; being invalid. That's a bug in the text, but the argument made by it holds.

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@Jon:thanks for the extra limitations in pointer-to-const and reference-to-non-const,but what do you mean by "the long temp to be cast back to long". –  Tracy Oct 6 '10 at 13:18
I mean, if it was non const then the second example you gave could be expected to change the double past to it. Since the value passed to it is not actually temp but a temporary double created by casting temp, what should be done to temp? There's no good answer, one possibility is casting the value back to long and assigning it to temp, but that's a narrowing conversion so the results could be unexpected. Another is abandoning the value, but we expect temp to be changed. With no good result, the language is wise to ban it. –  Jon Hanna Oct 6 '10 at 13:22
Hi Jon:your previous explanation applied to the reference-to-non-const case,as for the pointer-to-const case,i still dont get you.Here is my question,assume the argument is pointer-to-const double,i pass temp(of long type) to that function,how come i expect temp to be changed,if i do,why i specify pointer-to-const? –  Tracy Oct 6 '10 at 15:42
In that case there's no natural cast to use –  Jon Hanna Oct 6 '10 at 15:46
Thanks,i guess it is because there is no way to cast a pointer-to-long to a pointer-to-double –  Tracy Oct 6 '10 at 16:34

I don't see anything self-contradictory here. If the argument is not an lvalue, or is of wrong type, the reference cannot be attached directly to the argument for obvious reasons; hence the need for an intermediate temporary of the correct type. The reference is attached to that temporary instead.

The Cube function is indeed broken (ill-formed) since it attempts to modify a const value.

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@Tracy: the truth of Andrey's answer might seem more obvious if you imagine a reference implemented as a pointer then consider cube(const double*) - you couldn't just call cube(4), but would have to create a temporary double tmp = 4; then call cube(&tmp);. Similarly for double a = 1, b = 2; cube(&(tmp = a + b));. For your convenience, this is pretty much what the compiler can be expected to do behind the scenes :-). (True that the Standard doesn't specify how references are implemented, but it's helpful to imagine this most likely/common way.) –  Tony D Oct 5 '10 at 7:03
@Tony:thanks for your method to imagine what the compiler might do,actually,that helps me a lot to understand generating temp variables –  Tracy Oct 6 '10 at 13:04

Looks wrong to me - and gcc generates an error:

const_ref.cpp: In function ‘double cube(const double&)’:
const_ref.cpp:3: error: assignment of read-only reference ‘num’
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The compiler can generate a temporary variable. It doesn't have to.

And yes, Cube should not actually compile.

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Assuming the compiler doesn't inline the functions, what other option does it have than to create a temporary variable somewhere on the stack? –  Oliver Charlesworth Oct 4 '10 at 17:55
@Oli, inlining :) –  MSN Oct 4 '10 at 18:25

Because in both examples, there is no non-temporary object of the correct type.

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thanks,i just focus too much on the power or restrictions of passing argument by reference –  Tracy Oct 6 '10 at 13:07

I believe that you are correct about the function cube failing to compile. Anyway, that should fail, and it does on my compiler (VC++ 2008).

As for creating a temporary:

A temporary value to back the const reference will be created whenever the actual argument:

i) is not of the correct type for the reference and, ii) can be implicitly converted to the correct type.

In example a) from your question, a temporary double is created to hold the value 3.0 + temp. Then Cube() is called with a const reference to the temporary. This is because you can't have a reference to 3.0 + temp because that isn't a variable (it is an rvalue -- the result of an expression) and so it has no memory address, and can't back the reference. Implicitly, the compiler will create a temporary double and then assign it the value of 3.0 + temp.

In your example b), you have a long, but your function requires a double. The compiler will implicitly convert a long to a double. It does this by creating a temporary double, assigning it the converted value of temp, and then creating a const reference to the temporary, and passing that reference to cuberoot

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Gotcha,thank you very much –  Tracy Oct 6 '10 at 16:34

Yes. Cube(), as you've shown it here, should fail to compile.

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