It's much easier to use the Leaks instrument (in the Instruments app) to look at stack traces in its Extended Detail pane.
But here's how to analyze your stack trace. First, replace every instance of
| with a newline:
Call stack: [thread 0xb0468000]:
-[JavaUtilTreeMap putWithId:withId:] TreeMap.m:371
-[JavaUtilTreeMap createNodeWithId:withId:] TreeMap.m:634
-[JavaUtilTreeMap_Node init] TreeMap.m:1463
-[IOSObjectArray initWithLength:type:] IOSObjectArray.m:42
Question 1: The oldest stack frame is on top and the youngest is on the bottom. So
_pthread_start, which called
__NSThread__main__, which called
-[NSThread main], and so on.
Question 2: The function named
-[NSThread main] is the function that implements the instance method
main of the
NSThread class. The Objective-C compiler can generate functions with names (like
-[NSThread main]) that you can't write out literally in your source code.
For a class method, the function name starts with a
+ instead of a
-. So the class method
alloc on the
NSObject is implemented by a function named
Question 3: The stack trace you posted shows the stack trace at the moment the leaked object was allocated. No part of that stack trace is necessarily “actually the one which leaked”.
You need to understand what it means for an object to be leaked. It means there are no global variables or local variables (on the stack) that point to the leaked object, or point to an object that points to the leaked object, or point to an object that points to an object that points to the leaked object, etc. etc. etc. Since there is no chain of pointers that start from a global or local variable (a “root pointer” as we say in the biz) and lead to the leaked object, your program has no way of accessing the object, even though it's still allocated.
So why did it become leaked? Because it wasn't released before the last of those chains from a root pointer to your object was broken. It became leaked because a function that should have been called - the release function - was not called. It should have been called some time after the object was allocated. Since the leaks tool only shows you the stack trace when the object was allocated, it may not give you enough information to figure out where that missing release should go.
Which brings us back to the Leaks instrument in the Instruments app. The Leaks instrument also can't show you the exact spot where you should have released, but it can show you the stack trace of every time the object was retained, released, and autoreleased. These additional stack traces may help you figured out why the object was leaked. Instruments also formats the stack trace more nicely than the leaks command-line tool. And if you have a network of leaked objects, Instruments can show you that network graphically, which may make it easier for you to understand why your app is leaking objects.
Apple has posted a bunch of developer videos, some of which introduce you to Instruments. I don't recall exactly which video or videos talk about leak detection, but I know at least one of them does. Start with the WWDC 2012 videos and work your way back.
The WWDC 2012 video “Session 409 - Learning Instruments” talks about using the Leaks instrument starting around 35 minutes in.
The WWDC 2011 video “Session 310 - What's New In Instruments” talks about using the Leaks instrument starting around 39 minutes in.
It's definitely mentioned in some of the others too.