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how to find if stack increases upwards or downwards?

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possible duplicate… – N 1.1 Apr 9 '10 at 16:19

This is very platform-dependent, and even application-dependent.

The code posted by Vino only works in targets where parameters are passed on the stack AND local variables are allocated from the stack, in that order. Many compilers will assign fixed memory addresses to parameters, or pass parameters in registers. While common, passing parameters on the stack is one of the least efficient ways to get data into and out of a function.

Look at the disassembly for your compiled app and see what code the compiler is generating. If your target has native stack manipulation commands (like PUSH and POP) that the compiler is using, then the CPU datasheet/reference manual will tell you which direction the stack is growing. However, the compiler may choose to implement its own stack, in which case you'll have to do some digging.

Or, read the stack pointer, push something on the stack, and read the stack pointer again. Compare the results of the first and second read to determine the direction in which the pointer moves.

For future reference: if you include some details about your target architecture (embedded? PC? Linux, Windows? GCC? VC? Watcom? blah blah blah) you'll get more meaningful answers.

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+1 for the first statement. – Billy ONeal Apr 9 '10 at 16:07

One possible way is...

#include <stdio.h>

void call(int *a) 
    int b;

    if (&b > a) 
        printf("Stack grows up.\n");
        printf("Stack grows down.\n");

int main () 
    int a;
    return 0;
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This assumes that the compiler in question passes parameters on the stack, and that local variables are also allocated from the stack. This is not guaranteed and is, indeed, pretty inefficient. – David Lively Apr 9 '10 at 16:01
This highly depends on how the compiler implements function calls and local variables. – tur1ng Apr 9 '10 at 16:02
I would add \n at the end of the strings. – ndim Apr 9 '10 at 16:03
+1. While this is an implementation dependent hack, the stack itself can sort-of be considered an implementation dependent hack. The OP is inherently asking a platform dependant question and he should be satisfied with a platform dependent answer. – Billy ONeal Apr 9 '10 at 16:07
@David Lively -- I actually considered the 8051 when making my comment, which is why I used "standard C implementation". The C I've used for the 8051 isn't ANSI C because of the requirements that it have 3 different types of pointers because of the 3 different address spaces (Stack, Data, and Code) and it has swappable register banks, IIRC. AVR and MSP430 also have registers in RAM space, but if you pass the address of an auto variable to a function that function can push all registers breaking the pointer reference to a register. – nategoose Apr 12 '10 at 1:35

Brute force approach is to fill your memory with a known value say 0xFF. Push some items on the stack. Do a memory dump. Push some more items on the stack. Do another memory dump.

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Create function with many local variables.
Turn off optimizations. Either print the assembly language.. Or when debugging, display as mixed source and assembly language. Note the stack pointer (or register) before the function is executed. Single-step through the function and watch the stack pointer.

In general, whether a compiler uses incrementing or decrementing stack pointers is a very minor issue as long as the issue is consistent and working. This is one issue that rarely occupies my mind. I tend to concentrate on more important topics, such as quality, correctness and robustness.

I'll trust the compiler to correctly handle stack manipulation. I don't trust recursive functions, especially on embedded or restricted platforms.

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