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From my C++ textbook

an important feature of function prototypes is argument coercion - i.e, forcing argument to the appropriate types specified by the parameter declaration. For example, a program can call a function with an integer argument, even though the function prototype specifies a double argument - the function will still work correctly.

So i've tryied

#include <iostream>

// void foo(double);

void foo(double a) {

   std::cout << sizeof(a) << std::endl;

int main (void){

   int a = 1;
   std::cout << sizeof(a) << std::endl;

   return 0;

and with or without prototype it prints correctly first 4 then (inside function) 8.

Is my compiler that checks function definition in absence of prototypes (that may be not strict C++ standard, but useful too) or I have missed something?

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What is the confusion here? You have an int in main, and a double in foo; they are different sizes (on your platform). – Oliver Charlesworth Apr 21 '14 at 0:28
my confusion comes from my textbook statement since I didn't used prototypes – Luca Braglia Apr 21 '14 at 0:30
I think confusion is about the prototype word. You understand prototype as declaration, but prototype is the signature of a function, and here, you have the prototype directly in the definition of your function and the previous declaration is useless. – AntiClimacus Apr 21 '14 at 0:30
@AntiClimacus the code posted was the last test done. Previously i've put function definition below main. However i don't understand one thing: here you say line 5 void foo(double a) { works as prototype? PS. In the end i'm thinking here my book was not as accurate as elsewhere. – Luca Braglia Apr 21 '14 at 0:57
@LucaBraglia: read this post:… and keep in mind that a prototype is included in both declaration and definition. – AntiClimacus Apr 21 '14 at 1:00

3 Answers 3

up vote 1 down vote accepted

Everything is as it should be here. Consider what you are outputting with your sizeof call. You are outputting the size of the variable. Now what you have to understand is when you pass a to your function foo, a is implicitly converted to a double. The double has the same value as the int, but they are different types. The size of the int is 4 bytes and the size of the double is 8 bytes on your architecture.

Basically, what your textbooks means when it says the compiler will force arguments to the appropriate types specified by the parameter declaration is that it will look at your int a and find what it would be as a double (It would be 4 in both cases). The compiler does this because it sees that the function foo requires a double but foo is getting an int. It does not change the type of a in your main function. a in main is always an int and a in your foo function is always a double.

See: for more on implicit conversion.

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What actually happens here is that the compiler realizes that foo takes a double argument, and converts the int argument to double. The output shows that double is 8 bytes in this particular system, and int is 4 bytes - both of which is pretty ordinary. Note that a inside foo isn't THE SAME a as in main. They are different things, even if they are called the same thing.

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The function foo instantiates a new temporary value, also happens to be called a which is of type double using the int you passed to it. Then, you are printing the size of this new temporary double. The size is 8, because on your platform, a double is 8.

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