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BTW: I found the problem: (See my answer below)

When I build my program at home it works fine, but when I use my universities system is crashing on me. When I go at it with GDB I get this:

(gdb) r t.c-
Starting program: /home/shro8822/p5/c- t.c-
*--Code Gen Function: main
*--in function 'main' variable offsets start at 2

Program received signal SIGSEGV, Segmentation fault.
0x08084410 in ObjectCode::ResolveRef (this=0xbfb3dd20) at CodeOutput.cpp:44
44                      p->Resolve(this);
(gdb) list
39      {
40              std::list<Patch*>::iterator pos;
41              for(pos = Patchups.begin(); pos != Patchups.end(); ++pos)
42              {
43                      Patch* p = *pos;
44                      p->Resolve(this);
45                      //delete p;
46              }
48      }
(gdb) p p
$1 = (class ObjectCode::Patch *) 0x2064696c
(gdb) p this
$2 = (ObjectCode * const) 0xbfb3dd20

It crashes from a SEG-V on a line with a virtual function call involving 2 variable and neither is NULL. I don't think there is anywhere else that stuff from this list is deleted.

Tossing it a Valgrind gives one error:

==5714== Invalid read of size 4
==5714==    at 0x8084410: ObjectCode::ResolveRef() (CodeOutput.cpp:44)
==5714==    by 0x8086E00: ObjectCode::Finish() (CodeOutput.cpp:196)
==5714==    by 0x807EC97: WalkGlobal::Finish() (CodeGen_G.cpp:211)
==5714==    by 0x808D53C: Compile::RunV() (cs445.cpp:120)
==5714==    by 0x808D7C2: ProcessFile::Run() (cs445.cpp:49)
==5714==    by 0x808CCD9: main (cs445.cpp:234)
==5714==  Address 0x2064696C is not stack'd, malloc'd or (recently) free'd
Seg fault

Any idea were to start looking?

BTW: I populate the list using only statements like this: Patchups.push_back(new PatchType());

shro8822 p5 $ grep Patchups *.cpp *.h -n
CodeOutput.cpp:41:      for(pos = Patchups.begin(); pos != Patchups.end(); ++pos)
CodeOutput_Slot.cpp:124:        { Stream->Patchups.push_back(new FunctionPatch(it,GetSlotBefor(),at)); }
CodeOutput_Slot.cpp:126:        { Stream->Patchups.push_back(new GotoPatch(target,GetSlotBefor(),at,"goto")); }
CodeOutput_Slot.cpp:128:        { Stream->Patchups.push_back(new GotoPatch(target,GetSlotBefor(),at,c)); }
CodeOutput_Slot.cpp:130:        { Stream->Patchups.push_back(new BranchPatch(target,GetSlotBefor(),type,from,at,c)); }
CodeOutput.h:222:       std::list Patchups;

Yet more: It happens that the home and school systems are both x86 (RHEL 3 and 5 respectively) so I ran the binary I compiled at home on the system at school and it runs fine.

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5 Answers 5

The value of the pointer is probably the victim of a wild write from somewhere else.

The variable p shown in your debugger output is 0x2064696c. That is probably the string "lid ", depending on your byte ordering. You should look for somewhere in your code where that string (or value) was stored.

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Never though of that one. Nice catch. (grep '"[^"]*lid [^"]*' *.cpp *.h -n | wc -l -> 18, Mostly "invalid ...") – BCS Dec 13 '09 at 2:20
Anyway, that's what Valgrind says: not stack'd or malloc'd. Aren't there other Valgrind messages that could help you? – stefaanv Dec 13 '09 at 11:52
Aside from the one error I showed, I get no errors. – BCS Dec 13 '09 at 21:50
It turns out it was a invalid write that was doing it. – BCS Dec 16 '09 at 21:57

One of the pointers in your list is invalid. This could be because it is null (not in your case), uninitialized, initialized via a bad cast or the valid object that it once pointed to has been destroyed.

Because it works in one environment and not in another you are probably seeing the results of some undefined behaviour.

When you push the pointers onto the list, what objects are they pointing to and what happens to those objects at the time you call Finish?

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IIRC: I push freshly allocated object of derived types (Patchups.push_back(new PatchType());) and then never touch them till this function. (I'd better check that, but I think that is the case.) – BCS Dec 13 '09 at 1:37
Without seeing more code it's impossible to tell, but because this wouldn't be derefenced just by passing into a function but p would for a virtual function call I'm betting that it's the value of p that the error is about. – Charles Bailey Dec 13 '09 at 1:41
Good point Re: this. I guess I'll start looking for way to trap this earlier (like call a virtual function on the object as a add them). – BCS Dec 13 '09 at 1:43
Do you ever delete objects pointed to on the list? Otherwise one of the "unexpected" ways that you can destroy the object is by overwriting its memory location with (e.g.) an out of bounds array write on a different object. – Charles Bailey Dec 13 '09 at 1:46
I don't think I delete anything and aside from char[]'s I can't remember a single array in the whole program that I handle directly (and I don't even write to the char[]s directly either). Maybe Valgrind on the system that works will tell me something. – BCS Dec 13 '09 at 1:54

You're dereferencing p on line 44 to an object that doesn't exist.

Either p was never initialized, or *p has already been deleted.

Edit: I'd recommend to start looking where this list is populated, and verify that your list items are initialized to 0, and that you actually assign pointers to your Patch instances to the list. Also you might look for other errors or exceptions that you're ignoring or catching during the initialization process that are allowing pointers to invalid memory like this to make it into the list.

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Aside from what line it happened on, I knew that much before I started GDB. – BCS Dec 13 '09 at 1:42
I don't have a single try statement in the program so that's out. Am I miss-remembering that new always returns valid or NULL? (See edit) – BCS Dec 13 '09 at 2:01
with teh extra code you've added, the only thing left i can think of is an unexpected delete elsewhere in the codeor a heap corruption – Matt Joiner Dec 13 '09 at 8:54

How I found the problem.

First a tip of the hat to janm for identifying what was going wrong even if it didn't help much in finding where.

I added a Test function that is effectively a copy of the function that fails, but with all the side effects stripped out. With it running all over the place I was able to isolate where things break down into a small windows. Under the debugger, I single stepped from that last valid pass to the first invalid pass and got this:

CodeOutput.cpp:224  |  ObjectCode::Test();
CodeOutput.cpp:225  |  continue;
CodeOutput.cpp:111  |  while(at != ops.end())
stl_list.h:598  	|  { return iterator(&this->_M_impl._M_node); }
stl_list.h:127  	|  : _M_node(__x) { }
stl_list.h:174  	|  { return _M_node != __x._M_node; }
CodeOutput.cpp:113  |  printf("%s\n", (*at).TypeStr());
stl_list.h:132  	|  { return static_cast(_M_node)->_M_data; }
CodeOutput_asm.cpp:33   |  switch(Type)
CodeOutput_asm.cpp:36   |  Case(OpPlaceholder);
CodeOutput.cpp:115  |  switch((*at).Type)
stl_list.h:132  	|  { return static_cast(_M_node)->_M_data; }
CodeOutput.cpp:216  |  char* c = (*at).comment;
stl_list.h:132  	|  { return static_cast(_M_node)->_M_data; }
CodeOutput.cpp:217  |  if((*at).head != NULL && (*at).head[0] != '\0')
stl_list.h:132  	|  { return static_cast(_M_node)->_M_data; }
stl_list.h:132  	|  { return static_cast(_M_node)->_M_data; }
CodeOutput.cpp:222  |  ++at;// = ops.erase(at);
stl_list.h:141  	|  _M_node = _M_node->_M_next;
stl_list.h:142  	|  return *this;
CodeOutput.cpp:223  |  (*at).head = c;
stl_list.h:132  	|  { return static_cast(_M_node)->_M_data; }
CodeOutput.cpp:224  |  ObjectCode::Test();

Formatted for clarity, the memory corruption must be caused by one of these lines:

-- last valid test
CodeOutput.cpp:224  |  ObjectCode::Test();

CodeOutput.cpp:225  |  continue;

-- falls into loop ('at' is list::iterator)
CodeOutput.cpp:111  |  while(at != ops.end()) 
CodeOutput.cpp:113  |  printf("%s\n", (*at).TypeStr());
CodeOutput.cpp:115  |  switch((*at).Type)

-- OpPlaceholder case
CodeOutput.cpp:216  |  char* c = (*at).comment;

-- if gets false ('head' is char*)
CodeOutput.cpp:217  |  if((*at).head != NULL && (*at).head[0] != '\0')
CodeOutput.cpp:222  |  ++at;
CodeOutput.cpp:223  |  (*at).head = c;

-- first invalid test
CodeOutput.cpp:224  |  ObjectCode::Test();

-- called from CodeOutput.cpp:113
CodeOutput_asm.cpp:33   |  switch(Type)
CodeOutput_asm.cpp:36   |  case  OpPlaceholder; return "OpPlaceholder";

Because that not to long a list, I just added even more logging till I found that these line causes the problem:

(*at).head = c;

Now that I know exactl where to look it easy to see the problem, and by switching to:

if(at != ops.end()) (*at).head = c;

the problem goes away.

The only questions I still have are 1) why did it work at all on my old system? and 2) why didn't that manifest as a seg-v right on the second line? I would think that having *(list.end()) result in a reference to NULL would be a good thing.

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The answer to #1 is that on your old system you lucked out. Seriously, this is what makes memory problems like this so darned hard to figure out. They tend to happen randomly and manifest in different ways on different runs. – wheaties Dec 16 '09 at 21:55
Ironically, I got exactly the same failure for every single test case, regardless of what input I fed it. Right down to the bit pattern of the invalid pointer. My current suspicion is that the other version WAS stomping on something, just something that didn't matter any more. – BCS Dec 16 '09 at 22:01

You should use < in your conditional statement.

When you increment a pointer using ++, it increases it by the size of whatever it points to. Since you're using !=, it's possible that you're not hitting Patchups.end() exactly, and so you're walking off then end into invalid memory.

Or it might be something else. There might be invalid memory somewhere between begin() and end(), for example.

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std::list iterators are not random access iterators so they can't be compared with <. – Charles Bailey Dec 13 '09 at 1:35
yeah i'm afraid this is incorrect Anon. – Matt Joiner Dec 13 '09 at 1:38

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