Short answer: Use
watch -location pObject->dPrice, or the short form
Long answer: Quoting the GDB manual:
Watching complex expressions that reference many variables can also exhaust the resources available for hardware-assisted watchpoints. That's because GDB needs to watch every variable in the expression with separately allocated resources.
GDB quite literally watches the expression itself, not whatever address it points to. In this case, it means that the breakpoint will hit if
pObject itself is changed to point to a new
dPrice; there's not just a watchpoint for
pObject->dPrice, but also one for
pObject itself. This may be more than what's available.
A more comprehensive example:
// Set a watchpoint on '*p' before running
int a = 0;
int b = 0;
int c = 0;
int* p = &a;
puts("Hi"); // Dummy lines to make the results clearer, watchpoints stop at the line after the change
*p = 1; // Breaks: *p was changed from 0 to 1
a = 2; // Breaks: a is *p, which changed from 1 to 2
p = &b; // Breaks: p is now b, changing *p from 2 to 0
p = &c; // Doesn't break: while p changed, *p is still 0
p = NULL; // Breaks: *p is now unreadable
In theory, this is a useful feature; you can watch a complex expression, breaking as soon as it's false, somewhat like a constantly-tested assertion. For example, you can
watch a==b in the above program.
In practice, it's unexpected, often triggers this issue, and usually isn't what you want.
To watch only the target address, use
watch -location pObject->dPrice. (This is available as of GDB 7.3, released in July 2011; if you're using anything older, use
print &pObject->dPrice and
watch *(double*)0x12345678, or whichever address it prints.)