Sunday, January 29, 2017
18. what happens when you type 'ls *.c' in Bash? do the expansion first, then check ls for alias, built in, executable
then return the prompt back to command line for further input
17 what is a traceback? run time environment: it could be the client side
I am posting this answer so the topmost answer (when sorted by activity) is not one that is just plain wrong.
http://stackoverflow.com/questions/3988788/what-is-a-stack-trace-and-how-can-i-use-it-to-debug-my-application-errors
What is a Stacktrace?
A stacktrace is a very helpful debugging tool. It shows the call stack (meaning, the stack of functions that were called up to that point) at the time an uncaught exception was thrown (or the time the stacktrace was generated manually). This is very useful because it doesn't only show you where the error happened, but also how the program ended up in that place of the code. This leads over to the next question:
What is an Exception?
An Exception is what the runtime environment uses to tell you that an error occurred. Popular examples are NullPointerException, IndexOutOfBoundsException or ArithmeticException. Each of these are caused when you try to do something that is not possible. For example, a NullPointerException will be thrown when you try to dereference a Null-object:
How should I deal with Stacktraces/Exceptions?
At first, find out what is causing the Exception. Try googleing the name of the exception to find out, what is the cause of that exception. Most of the time it will be caused by incorrect code. In the given examples above, all of the exceptions are caused by incorrect code. So for the NullPointerException example you could make sure that
a is never null at that time. You could, for example, initialise a or include a check like this one:
This way, the offending line is not executed if
a==null . Same goes for the other examples.
Sometimes you can't make sure that you don't get an exception. For example, if you are using a network connection in your program, you cannot stop the computer from loosing it's internet connection (e.g. you can't stop the user from disconnecting the computer's network connection). In this case the network library will probably throw an exception. Now you should catch the exception and handle it. This means, in the example with the network connection, you should try to reopen the connection or notify the user or something like that. Also, whenever you use catch, always catch only the exception you want to catch, do not use broad catch statements like
catch (Exception e) that would catch all exceptions. This is very important, because otherwise you might accidentally catch the wrong exception and react in the wrong way.
Why should I not use
catch (Exception e) ?
Let's use a small example to show why you should not just catch all exceptions:
What this code is trying to do is to catch the
ArithmeticException caused by a possible division by 0. But it also catches a possible NullPointerException that is thrown if a or b are null . This means, you might get a NullPointerException but you'll treat it as an ArithmeticException and probably do the wrong thing. In the best case you still miss that there was a NullPointerException. Stuff like that makes debugging much harder, so don't do that.
TLDR
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To add on to what Rob has mentioned. Setting break points in your application allows for the step-by-step processing of the stack. This enables the developer to use the debugger to see at what exact point the method is doing something that was unanticipated.
Since Rob has used the NullPointerException (NPE) to illustrate something common, we can help to remove this issue in the following manner:
if we have a method that takes parameters such as:
void (String firstName)
In our code we would want to evaluate that firstName contains a value, we would do this like so:
if(firstName == null || firstName.equals("")) return;
The above prevents us from using firstName as an unsafe parameter. Therefore by doing null checks before processing we can help to ensure that our code will run properly. To expand on an example that utilizes an object with methods we can look here:
if(dog == null || dog.firstName == null) return;
The above is the proper order to check for nulls, we start with the base object, dog in this case, and then begin walking down the tree of possibilities to make sure everything is valid before processing. If the order were reversed a NPE could potentially be thrown and our program would crash.
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I maintain an old application written in VB6. In client's environment it raises runtime errors which I can't reproduce under debugger. Is there any way to get the stacktrace or location of error?
I mean, without putting trace statements all over the code like here or adding error handlers for logging to every procedure like here.
It seems to be a simple question. Sorry. I just don't know VB6 very well. And it is surprisingly hard to google out any information, considering how widely it is (or used to be) used.
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Try compiling to pcode and see if you still get the error. This is one common difference between the debug mode of VB6 and runtime. I used to compile to native and ran into errors that only occurred in runtime. When I switched to pcode I found either the error went away or more likely a new error that reflected the real problem cropped up and was more easily reproduced in debug mode.
If despite that you still getting the error then I really recommend starting at the top of your procedure stack and working you way down using Maero's suggestion of
It is a pain but there is no real way around it.
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The VB6 debugger is flaky sometimes. There are alternatives.
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If you check the "Create Symbolic Debug Info" checkbox on the Project Properties/Compile tab, then you can debug in Visual Studio just like you would a native C++ application.
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It's been a while, but I don't think there is a way to get a stack trace in a VB6 application without adding an error handler and outputting the appropriate message. There were some third party tools that would add error handling to an entire application but I believe it just added "On Error Goto" error handlers throughout the code.
Just as an aside, one of the more insidious runtime errors I ever encountered in a VB6 app was when I used a font that didn't exist on the client's PC in the property of a control. This generates a runtime error that cannot be trapped in code, so no amount of error handling that I added ever uncovered the error. I finally came across it by chance. Hope this helps.
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