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I have a structure (let's call it structure1) which holds a pointer to another structure (structure2), this way.

typedef struct structure{
    structure2 *pointer
}structure;

structure structVariable;
structVariable.pointer = functionThatReturnsAPointerToStructure2Variable();

The thing is, as the program changes context (for example, when calling functions), the return value of the following code changes

structVariable.pointer->someAttribute

Any idea of why this might be happening? If you need more info please ask. Thanks!

MORE INFO

This is the real-deal

structure would be this

typedef struct CPU{
    int variableCounter;
    int instructionPointer;
    char *currentInstruction;
    t_list *dataDictionary_list;
    u_int32_t currentContext;
    PCB *assignedPCB;
    CPU_STATUS status;
}CPU;

And this is how I assign the pointer (PCB *pointer)

PCB *pcb_createFromScript(const char *script){
    t_medatada_program *metadata = metadatada_desde_literal(script);
    PCB *pcb = malloc(sizeof(PCB));

pcb->instructionCount = metadata->instrucciones_size;
pcb->tagCount = metadata->cantidad_de_etiquetas;
pcb->functionCount = metadata->cantidad_de_funciones;

int codeSegmentSize = strlen(script);
int tagIndexSize = 0;

if(metadata->etiquetas != 0){
    tagIndexSize = strlen(metadata->etiquetas);
}

int instructionIndexSize = metadata->instrucciones_size * sizeof(t_intructions);

pcb_getSegments(pcb,1024,codeSegmentSize,tagIndexSize,instructionIndexSize);

pcb->currentContext = pcb->stackSegment;

pcb->variableCounter = 0;

memory_write(pcb->codeSegment,0,codeSegmentSize,script);
memory_write(pcb->tagIndexSegment,0,tagIndexSize,metadata->etiquetas);
memory_write(pcb->instructionIndexSegment,0,instructionIndexSize,(void *)metadata->instrucciones_serializado);

pcb->uniqueId = (int) random();
return pcb;

}

And then I assign it this way (myCPU is global), that's why I call it inside cpu_getPCB without passing it as a parameter

cpu_getPCB(*dummyPCB);

void cpu_getPCB(PCB myPCB){
    myCPU.currentContext = myPCB.currentContext;
    myCPU.assignedPCB = &myPCB;
}
4
  • 3
    Without seeing a complete test-case, we can only speculate. Jun 29, 2014 at 23:18
  • 1
    Sounds like functionThatReturnsAPointer...() is returning a pointer to a local variable (which is no longer valid once the function returns).
    – mah
    Jun 29, 2014 at 23:21
  • Very likely the function that returns a pointer to structure2 is returning an address of a stack variable in the function. Other words, does your function that returns Structure2 return something that's created from malloc()? Jun 29, 2014 at 23:22
  • @ChaoSXDemon yes, it does. It mallocs the structure inside the function, then returns it. Jun 30, 2014 at 0:53

2 Answers 2

2

Here is some speculation.

If you are modifying the object that structVariable.pointer points to in some function, then when you try to read structVariable.pointer->someAttribute, that value will change to reflect to modification to the object.

Another possibility, as the other answer mentioned, is that structVariable.pointer is pointing to local memory (stack memory for a function) which can easily be overwritten on a new function call. That can be corrected by using malloc to do heap allocation instead of stack allocation.


Here is the first and most obvious issue. You are taking the address of a parameter and assigning it to myCPU.assignedPCB.

Since C is pass-by-value, you have copied it instead of capturing the original. Moreover, the parameter has the same lifetime as a local variable, and will go away when the function returns.

void cpu_getPCB(PCB myPCB){
    myCPU.currentContext = myPCB.currentContext;
    myCPU.assignedPCB = &myPCB;
}

You can fix it by passing a pointer instead, since you are in C and do not have access to the reference type.

void cpu_getPCB(PCB* myPCB){
    myCPU.currentContext = myPCB->currentContext;
    myCPU.assignedPCB = myPCB;
}
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  • Thanks for your answer! I think the second possibility might be the case here, since the attributes change randomly, I am not actually changing any of them, and the values they get are completely random. I will edit my post to add how I am creating the pointer. Jun 29, 2014 at 23:26
  • @GuillermoGruschka, Sounds good. If you show the function that creates the pointer, I can show you how to correct it, usually with a one-line change.
    – merlin2011
    Jun 29, 2014 at 23:27
1

The "structure2 *pointer" will be pointing at a piece of memory that will disappear when you change context. Allocate the Structure2 variable and free it when it's no longer needed

2
  • How do you know that? Jun 29, 2014 at 23:25
  • I imagined it would be a problem of that kind, I added some code, could you give me your opinion? Jun 29, 2014 at 23:40

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