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#include <cstdlib>
#include <iostream>
#define PI 3.14159

using namespace std;

int main(int argc, char** argv) {    
    cout<<"Address of PI:"<<&PI<<endl;    
    return 0;

Here is the output:

main.cpp: In function int main(int, char**)': main.cpp:20: error: non-lvalue in unary&' make[2]: * [build/Debug/Cygwin-Windows/main.o] Error 1 make[1]: [.build-conf] Error 2 make: ** [.build-impl] Error 2

So why can't I see the memory address of PI here?

Thank you.

share|improve this question
PI won't have a memory address here. – Flexo Nov 23 '12 at 20:55
A constant does not have a memory address. – Hot Licks Nov 23 '12 at 20:55
If it does not have a memory address, where is the value stored? – Koray Tugay Nov 23 '12 at 20:55
@KorayTugay unspecified; usually in a register or in the instruction itself. – Bassie Nov 23 '12 at 20:56
A numeric constant is generally "stored" as an "immediate" value in the code. That is, there are specific "load immediate value" instructions which include the constant value in the instruction itself. And the same immediate value may be loaded 100 different places with 100 different instructions -- no single one is "the constant". Even for longer literal (like strings) the value is stored in program space and you can't take its address. Remember, we're talking about a value here, not a place. – Hot Licks Nov 24 '12 at 0:26
up vote 3 down vote accepted

Macros are never allocated a memory. Before the code is compiled, the compiler does a text search in the file and replace all Macros with their value. Also this is a text search, so the text gets replaced. So PI gets replaced by 3.14 in your code before compiling it. As a result, the memory operator throws an error because it cannot get the value of 3.14 as it is not a variable. Hope it helps :)

share|improve this answer
Thank you for the detailed answer. This means Anton Roth's comment is not correct. Right? – Koray Tugay Nov 23 '12 at 22:37
The macros are processed like text replace command, they dont mean anything in the compiling phase. So 3.14 is just a constant float in the program , not a variable. Also one more thing as it is a text search/replace then this preprocessor "#define PI x" would replace PI with x in the whole code, then &x would print the address of x if x is a variable at that point. "Preprocessor" means something thats done before the compiling process even starts ;) – Jagdeep Sidhu Nov 23 '12 at 22:42
When you have a const static double pi = 3.14; and never in your code call &pi, the compiler might or might not give it an address. If you call &pi at some point, it will be in memory at some point. For #define, it is as stated above, it is just replaced in text. – SinisterMJ Nov 24 '12 at 10:22

In your code, PI does not have a memory address. Since it's a preprocessor macro, its value gets substituted everywhere PI appears in your program.

If you turned it into a variable, you'd be able to take its address:

const double PI = 3.1415926;
share|improve this answer
Thanks. So it is more like a find / replace... I was thinking it like a variable. – Koray Tugay Nov 23 '12 at 20:57
Find/replace is a pretty good analogy. You can turn it into a variable, in which case you'll be able to take its address. – NPE Nov 23 '12 at 20:58
Does Aardvark's comment and this analogy make sense at the same time? If it is substituted everywhere in the code, is it needed to store the value in the register? – Koray Tugay Nov 23 '12 at 21:01
But note that, eg, an enum constant still doesn't have a location, even though, unlike the #define constant, it's not implemented via text substitution. – Hot Licks Nov 24 '12 at 0:28
@KorayTugay Aardvark's comment does not address your question directly. Whether the constant value ends-up optimized into a register (or immediate-style instruction) as-needed is neither here nor there for explaining the compiler's error message about you trying to evaluate the expression, after preprocessor substitution, of &3.14. – Matthew Hall Nov 24 '12 at 0:33

You cannot take the address of a numeric literal. You could for a variable, though:

// #define PI 3.14159
static const double PI = 3.14159;
share|improve this answer
Even like that it would only get an address once it is called somewhere in code. Otherwise the compiler will just replace it everywhere. – SinisterMJ Nov 23 '12 at 21:03
@AntonRoth: You have that backwards. It has an address, but the compiler may or may not, as an implementation detail, use the value of the variable directly in place of loading the variable's value, and additionally may remove the variable from existence altogether as a result. – GManNickG Nov 23 '12 at 21:26
@AntonRoth In the OP's given code (modified to use a const double as in this and other answers), where he explicitly takes the address of the constant, the constant would still be guaranteed to have an address no matter what optimizations the compiler does. – Matthew Hall Nov 24 '12 at 0:37

The preprocessor will replace PI by 3.14159 everywhere in your code. Hence, the number does not reside in memory.

share|improve this answer
The statement "does not reside in memory" isn't very accurate - it may reside in memory, but in C++ there's no guarantees and no way to ask if/where it does. – Flexo Nov 23 '12 at 21:50
Given the code in the question I don't see why the number would ever be in memory - the number isn't actually used. For more complicated code examples, I agree. – Adam27X Nov 23 '12 at 21:54

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