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Why is there a difference in the output produced when the code is compiled using the two compilers gcc and turbo c.

#include <stdio.h>

int main()
    char *p = "I am a string";
    char *q = "I am a string";

        printf("Change your compiler");
    return 0;

I get "Optimized" on gcc and "Change your compiler" on turbo c. Why?

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Take the hint; use gcc ;-) – Amarghosh Jul 20 '10 at 11:21
Seen that the answers of your question are already included in the printf strings (BTW there are \n missing there) I suppose that you did get this code example from somewhere? Is this homework? – Jens Gustedt Jul 20 '10 at 11:23
FWIW, if you are talking about the antique compiler from Borland, I think it has a command line option (-d) to merge string constants. – msandiford Jul 20 '10 at 11:57
Actually, Turbo C is quite a nice little compiler with a productive IDE, a mediocre project management and a usable debugger. It produces nice, clean .COM or real-mode .EXE excecutables, which is nice because embedded 80x86/ISA or PC-104 platforms are still used in industrial applications. It's a terrific choice if you still need to develop for MS-DOS. – Nordic Mainframe Jul 20 '10 at 15:30
@Luther Blissett: I don't think that OP needs to develop for MS-DOS. Question looks like homework/beginner stuff. In this case compiler that produces code for newer platforms will be probably a better choice. – SigTerm Jul 20 '10 at 16:10
up vote 33 down vote accepted

Your questions has been tagged C as well as C++. So I'd answer for both the languages.


From ISO C99 (Section 6.4.5/6)

It is unspecified whether these arrays are distinct provided their elements have the appropriate values.

That means it is unspecified whether p and q are pointing to the same string literal or not. In case of gcc they both are pointing to "I am a string" (gcc optimizes your code) whereas in turbo c they are not.

Unspecified Behavior: Use of an unspecified value, or other behavior where this International Standard provides two or more possibilities and imposes no further requirements on which is chosen in any instance


From ISO C++-98 (Section 2.13.4/2)

Whether all string literals are distinct(that is, are stored in non overlapping objects) is implementation defined.

In C++ your code invokes Implementation defined behaviour.

Implementation-defined Behavior: Unspecified Behavior where each implementation documents how the choice is made

Also see this question.

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+1 for having reported subjective-standard-defined meaning of "unspecified"/"implementation defined" behaviour. – ShinTakezou Jul 20 '10 at 14:05
+1 for very thorough answer! – Amardeep AC9MF Jul 20 '10 at 14:38
Thank you @Shin and @Amardeep :) – Prasoon Saurav Jul 20 '10 at 14:41

Since your string literal is a constant expression, i.e. you should not modify it via a pointer, there is no real purpose in storing it in the memory space twice. Being a newer compiler, gcc merges the literals by default while Turbo C does not. It is a sign of gcc's support for the newer language standard that has the notion of const data.

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You can override this behaviour in gcc by passing the -fno-merge-constants option, though generally there's no good reason to do so. – Hasturkun Jul 20 '10 at 11:33
@Hasturkun: Nice tip :) @Amardeep: Very good answer! – Prasoon Saurav Jul 20 '10 at 11:49
@Amardeep, your answer is not completely correct. A string literal is not a constant expression, otherwise it would not have been possible to assign it to a char*. It is true, that one should not change it then by accessing through the pointer, but it is allowed. The behavior is just undefined... In any case I don't understand people giving out assignments like that showing such bad habits. This should always be a char const* to which such address of a string literal is assigned. – Jens Gustedt Jul 20 '10 at 12:16
@Jens: Since early C compilers did not have the notion of const, char * was all you had to assign it to even though compilers targeting ROM often left the string in Read Only Memory instead of copying it into RAM upon program load. To be portable, it was always safer to treat them as immutable. The newer compilers certainly treat them as immutable otherwise that default merging behavior would be unsafe. – Amardeep AC9MF Jul 20 '10 at 12:29
"Since your string literal is a constant expression, i.e. you are not technically allowed to modify it via a pointer". The term "constant expression" can be confused with the formal concept, though. There are constant expressions that you can modify using a pointer. "Constant expression" in C++ and C means that some of the expression's characteristics can be determined at compile time (its value (example: integral and integral constant expression), its referent address (example: address and reference constant expression) and its member offset (example: pointer to member constant expression)). – Johannes Schaub - litb Jul 20 '10 at 13:14

Please forget the answers in the same line as

"It's because Turbo C is SO TOTALLY OLD and they couldn't do it THEN, because it had to be FAST, but the GCC is totally NEW and RAD and that's why it does that!".

Both compiler support merging string constants as an option. The GCC option (-fmerge-constants) is turned on at optimization levels, while the Turbo C Option (-d) is turned off on default. If you are using the TCC IDE, then go to Options|Compiler...|Code Generation.. and check "Duplicate strings merged".

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I found your answer hard to read and initially completely misunderstood it, because the quote wasn't very clearly recognizable as such. I hope you're OK with my formatting changes. Apart from that, good and useful info for anyone still dealing with TC, so: +1. – Carl Smotricz Jul 22 '10 at 11:24
Oh, that's much better. Thank you! – Nordic Mainframe Jul 22 '10 at 11:28

From the gcc manual page :


Attempt to merge identical constants (string constants and floating point constants) across compilation units.

This option is the default for optimized compilation if the assembler and linker support it. Use -fno-merge-constants to inhibit this behavior.

Enabled at levels -O, -O2, -O3, -Os.

Hence the output.

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Turbo C was optimized for fast compilation, so it doesn't have any features that would slow it down. Recognizing duplicate strings would be a slow-down, even if only minor.

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I think this explanation is wrong. Turbo C's defaults are simply there to allow broken code that modifies string constants to work by default. – R.. Jul 20 '10 at 15:32

The compiler may keep two copies of identical literals if it thinks proper. Finding out if that is the case is presumably the point of this program.

In the good old days, assemblers kept all literals in a literal pool, and patching the literal pool was a recognised (if not approved) technique of modifying 'constants' throughout the program.

If by some chance the compiler allows in this case *p = 'H'; then important differences in behaviour would result.

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It should be said that, in many early (pre ANSI) versions of C, modification of literal strings was allowed. – JeremyP Jul 20 '10 at 12:08
@JeremyP: Define "Allowed". I'm pretty sure it was always undefined behavior (an embedded system could have put that string in ROM) (although technically, pre-ANSI, everytihng was officially "undefined behavior") – James Curran Jul 20 '10 at 14:50
Compilers for embedded systems usually give their users very fine grained control about where goes what. It's unlikely that string literals would go into the ROM and you couldn't do anything about it. – Nordic Mainframe Jul 20 '10 at 14:57
Allowed in the sense that in K & R C, although it wasn't specified as such, implicitly you could alter a literal string. Some compilers went as far as to include code to copy string literals from the text segment to the data segment at start up as part of program initialisation. – JeremyP Jul 20 '10 at 15:23
@Luther: you always can do something about it, the correct and portable way. char mystring[] = "literal goes here"; and then use mystring instead of "literal goes here". – R.. Jul 20 '10 at 15:34

Historical footnote: Since addresses were smaller than floating-point numeric constants, FORTRAN used to handle floating-point constants much like C handles strings. Since memory was precious, identical constants would be allocated the same space. Also, parameter passing was always done by reference. This meant that if one passed a numeric constant to a procedure that modified its argument, other occurrences of that "constant" would change value.

Hence the old saying: "Variables won't; constants aren't."

Incidentally, has anyone noticed the bug in the Turbo C 2.0 printf which would fail when using a format like "%1.1f" to print numbers like 99.99 (outputs 00.0)? Fixed in 2.01, it reminds me of the Windows 3.1 calculator bug.

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