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I have some C code, and I'm not quite sure what's going on.

#include <stdio.h>
#include <stdlib.h>
#define DIM1 7
#define DIM2 5
#define RES_SIZE 1000

typedef double stackElementT;

typedef struct {
  stackElementT *contents;
  int maxSize;
  int top;
  int min2;
} stackT;

void StackInit(stackT *stackP, int maxSize) {
    stackElementT *newContents;
    newContents = (stackElementT *)malloc(sizeof(stackElementT)*maxSize);
    if (newContents == NULL) {
        fprintf(stderr, "Not enough memory.\n");

    stackP->contents = newContents;
    stackP->maxSize = maxSize;
    stackP->top = -1;

void StackDestroy(stackT *stackP) {
    stackP->contents = NULL;
    stackP->maxSize = 0;
    stackP->top = -1;

int StackIsEmpty(stackT *stackP) { return stackP->top < 0; }

int StackIsFull(stackT *stackP) { return stackP->top >= stackP->maxSize-1; }

void StackPush(stackT *stackP, stackElementT element) {
    if(StackIsFull(stackP)) {
        fprintf(stderr, "Can't push element: stack is full.\n");
    stackP->contents[++stackP->top] = element;

stackElementT StackPop(stackT *stackP) {
    if(StackIsEmpty(stackP)) {
        fprintf(stderr, "Can't pop element: stack is empty.\n");
    return stackP->contents[stackP->top--];
int shell(char* s1, int arg) {
    printf(">   ");
    scanf("%s %d%*c", &s1, &arg);
    return arg;

int main() {
    char cmds[DIM1][DIM2] = {{"push"}, {"pop"}, {"add"}, {"ifeq"}, {"jump"}, {"print"}, {"dup"}};
    char* s1; int arg;
    arg = shell(s1, arg);
    printf("%s\n", &s1);

Input: push 4. It prints J+ instead of "push" but prints 4 normally.

It also gives these warnings on compile:

stack.c: In function ‘shell’:
stack.c:60: warning: format ‘%s’ expects type ‘char *’, but argument 2 has type ‘char **’
stack.c: In function ‘main’:
stack.c:71: warning: format ‘%s’ expects type ‘char *’, but argument 2 has type ‘char **’
stack.c:65: warning: unused variable ‘cmds’
stack.c:69: warning: ‘arg’ is used uninitialized in this function

Can someone please explain?

share|improve this question
No. There's a small stack implementation above it, but I figured no one wanted to look through it. –  tekknolagi Aug 1 '11 at 4:19
thanks, working on it... –  jcomeau_ictx Aug 1 '11 at 4:23
Is there an intent to this code, or are you just asking what is the logic flow upon execution? Because I don't see anything from the stack code being called in main(), just a scan and print... –  donnyton Aug 1 '11 at 4:24
Exactly. It's just that @jcomeau_ictx seemed to want all the code there. The stack implementation is irrelevant. –  tekknolagi Aug 1 '11 at 4:26
@tekknolagi: I'd just like to say that it's nice you tried to do what was requested. Just try to remember for next time, it's better to have your compiler errors and warnings match the code example, so that the entire question is unified. On a side note, I personally like how this question follows up your last one. Hope the rest of the implementation goes well! –  Ken Wayne VanderLinde Aug 1 '11 at 4:45

1 Answer 1

up vote 3 down vote accepted

When you use the %s format specifier, it expect a value which is a pointer to the start of a string. In C, this type is char *.

Taking your main function, your variable s1 is of type char *. Therefore, s1 is a valid parameter to printf, so this line is valid:

printf("%s\n", s1);

Note the absence of an & in front of s1. In your code, you used the &, which takes the address of s1, the result of which will be of type char **. This is the wrong type, so don't use the &.

The thing is, printf can't actually tell what type its arguments are, since it is a variadic function. It simply uses whatever arguments are there, according to the types specified in the format string.

The same thing goes for scanf, but there is a pitfall: you must make sure that enough memory is allocated to account for the user input, else you will experience a buffer overflow with unpredictable results. Aside from this, printf and scanf are perfectly complementary.

Anyhoo, this takes care of the compiler warnings, aside from the unused cmds variable (it's unnecessary in the provided code). Also, there is the part of args - it really should be a variable declared inside of shell, and not passed as a parameter, since its value is not even used inside shell.

Don't know what's up with the rest of the code. It's superfluous considering your main function only calls on shell.

share|improve this answer
Thank you for this tip. However, when I removed the ampersand (&), I get a segfault upon runtime, with the same input. –  tekknolagi Aug 1 '11 at 4:25
Like I mentioned, you must allocate a char * buffer yourself, i.e., declare s1 to be something like char *s1 = (char*)malloc(50);. This gives you space for 50 characters of input. Alternatively, just use an array: char s1[50];. Either way, just remember that whenever you require input, you must make sure there is an adequate buffer for the input to be stored in. –  Ken Wayne VanderLinde Aug 1 '11 at 4:32
That's because you have not initialized the pointer to point at reserved memory to store the text - in fact you have not even reserved such memory. –  Karl Knechtel Aug 1 '11 at 4:33
You can't just removed the &. The problem is that s1 is uninitialized. I think you're trying to make s1 point to the user input obtained from the call to scanf() in shell(). However, you haven't allocated any space to hold the user input. Try making s1 an array instead of a pointer. Also, you'll have to change shell() to accept a pointer to the array which would be a char**, not a char *. The thing to remember is that in C, all parameters are passed by value. When passing a pointer, the pointer value is copied but the value of the pointer in the caller is left unchanged. –  Sean Aug 1 '11 at 4:41
@Sean: Responding to your last statement: yes, the pointer value is copied, but the data pointed to is not copied. The pointer parameter in the shell function and the pointer in the main function will point to the same memory, so any modification inside shell are visible from main. Therefore, changing shell to accept a char ** argument is unnecessary, unless he plans to allocate the memory for the buffer inside of shell. –  Ken Wayne VanderLinde Aug 1 '11 at 4:48

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