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This is my first time posting a question to the forum, by the way. I'm having problems implementing an algorithm, and I've narrowed it down to the following lines of code:

int Jacobi( double** A, double* b, int n, double* x0,
double tol, int maxInt ) {
    int i = 0;
    int j = 0;
    int done = 0;
    int loopCount = 0;

    /*previous x variable*/
    double* xPrev = 0;

    /*update information*/
    double** T = 0;
    double* c = 0;

    /*initialize x previous to a very large value*/
--->xPrev = ( double* )malloc( sizeof( double ) * n );
    for( i = 0; i < n; i++ ) {
            xPrev[ i ] = 5000.0;

By inspection via gdb, I have found that the line with the arrow pointing to it is the one that is causing the trouble. Before that line is executed, x0[ 1 ] = 1. Afterwards, it is somehow changed to x0[ 1 ] = (an extremely small number that I think is the minimum double precision value). I can't figure out why this is happening, or how it is possible. Does anyone have any insight?

Here is the gdb run to prove it:

(gdb) break 88
Breakpoint 1 at 0x804881f: file linsys.c, line 88.
(gdb) run
Starting program: /home/stu1/s11/gaw9451/Courses/AP/hw4/linsys_test

Breakpoint 1, Jacobi (A=0x804b008, b=0x804b048, n=2, x0=0x804b060,
tol=9.9999999999999998e-13, maxInt=8) at linsys.c:88
88              xPrev = ( double* )malloc( sizeof( double ) * n );
(gdb) display x0[ 1 ]
1: x0[ 1 ] = 1
(gdb) next
89              for( i = 0; i < n; i++ ) {
1: x0[ 1 ] = 5.3049894774131808e-313

On a possibly related note, I get an error at run time when I free the variable xPrev at the end of the function. I had to comment it out to see any output from my program.

Summary: Does anyone have any idea how malloc can edit data in a completely different variable field?

Thanks in advance, phoenixheart6

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"I have found that the line with the arrow pointing to it" - make sure the arrow doesn't get you in the knee. Anyway, try run your program through a program like valgrind to see if you're writing past a buffer in a previous part of the code, which belongs to xPrev. –  AusCBloke Dec 21 '11 at 22:27
Would be interesting to see what xPrev gets to point to. Since freeing that at the end leads to a crash, it looks like its malloc-data get clobbered. –  Daniel Fischer Dec 21 '11 at 22:28
Use valgrind to help isolate the trouble if it is available to you. The problem is likely that you are continuing to use memory that was free()d. Or maybe using the pointer to some memory from before it got realloc()d to a new address. –  Jonathan Leffler Dec 21 '11 at 22:37
@AusCBloke awesome Skyrim reference lol. according to gdb, x0 + 1 is 0x804b068 and xPrev is 0x804b070, so 8 bytes beyond x0 + 1. –  Ataraxia Dec 21 '11 at 22:41
@phoenixheart6 But if malloc puts 16 bytes of bookkeeping data before the returned block, a) the malloc data steps on x0[0] and x0[1], b) any write to these two destroys the bookkeeping data, and free(xPrev) crashes. –  Daniel Fischer Dec 21 '11 at 23:36

3 Answers 3

up vote 3 down vote accepted

I am pretty sure you messed up a previous malloc, something like allocating less than needed and now malloc overwrites what never belonged to you.

Picture the malloc memory like this.

  • The X region represents what you asked from malloc
  • The ! region represents what you wrote past the legal size
  • The ? region represents unused memory

Now when you do a second malloc, it will feel perfectly entitled to give away "your" ! part.

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Yes! You were right. I typo-d my allocation of x0: x0 = ( double* )malloc( sizeof( double* ) * n ); Thank you very much. phoenixheart6 –  Ataraxia Dec 21 '11 at 22:49
a way to avoid this kind of typo is to use p = malloc (cnt * sizeof *p); which always has the right type/size. You could also drop the cast, it serves no purpose. –  wildplasser Dec 21 '11 at 23:21

Some trpobles like the one you describe can happen also when you free memory twice or erranously. This can happen as well in another function called before, because the mechanism allocating memory is compromized.

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Another possibility: If you caused the use an implicit prototype for malloc (e.g. by forgetting to #include <stdlib.h> for example), the return value of malloc is essentially scrap, and then attempting to print the contents of that location - even in gdb - can lead to nonsensical results.

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