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When one declares

int my_number = 300;

Compiler allocates enough memory to store exactly 1 integer and writes bit representation of 300 in that space.

When one instead

#define MY_NUMBER    300

Whenever MY_NUMBER is mentioned, value is simply replaced with 300.

I understand that symbolic constants are not variables and wonder what happens from the stand point of memory allocation? In event a symbolic constant is used, how much memory is used to keep track of it?

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up vote 3 down vote accepted

Zero. The #define-d constant is not a real constant: it does not have a type, and it does not occupy data memory. Its occurrences in your program are replaced with the literal 300, that's all. The constant value does occupy program memory in the binary code of your program, but it's not the kind of memory to which you could take a pointer without getting into the undefined behavior territory.

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You should be comparing to constants, not 'normal' variables. When using constants, a compiler might choose to produce the exact same binary code as with #defines, or it might choose to emit a variable reference. With non-const varibles, for some scenarios the compiler can produce the same results as #define, but some will require link-time code generation and "whole program" optimization. – snemarch Dec 24 '11 at 1:39
@snemarch I wrote (and subsequently deleted) a comment about compiler's possible optimization of the two into identical code. I deleted my comment because the OP deleted his comment with the question. – dasblinkenlight Dec 24 '11 at 1:41
yeah, the comment I was replying to disappeared as I hit enter. I'll leave the comment, even if it seems strangely out of place :) – snemarch Dec 24 '11 at 1:44
Hey guys, i removed the comment since dasblinkenlight updated the main answer to include the answer. Thank you both – Jam Dec 24 '11 at 1:51
Why, who's to say what is a "real" constant and what isn't? I say that only #defined constants are "real" constants, and all other constants are fakes and wannabes. Furthermore, you cannot say with absolute certainty that the actual coded value will occupy program memory, because there exist architectures that do not have load-immediate instructions, which means that all data, even hard-coded constants, are separate from code. (If I remember well, the IBM 360 was one such architecture.) – Mike Nakis Dec 24 '11 at 2:18

Kinda depends on the machinery, compiler and perhaps optimization. The 300 will probably end up in some read-only section. It may be an immediate operand in the .text, (code) or a value in .rdata, (constant data) sections. On some embedded systems with speed optimization, it may even get copied at startup time from ROM to a RAM section where access is faster.

Usually, it will be a machine-width word value for each time it is used.

Essentially, the memory space is allocated at compile-time and forms part of the executable image.

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