Simple answer: You work out the absolute path based on the environment.
What you really need is a few pointers. There are various bits of runtime and environment information that you can glean from various places in the standard library (and they certainly help me when I want to deploy an application on windows).
So, first some general things:
os.path - standard library module with lots of cross-platform path manipulation. Your best friend. "Follow the os.path" I once read in a book.
__file__ - The location of the current module.
sys.executable - The location of the running Python.
Now you can fairly much glean anything you want from these three sources. The functions from os.path will help you get around the tree:
os.path.join('path1', 'path2') - join path segments in a cross-platform way
os.path.expanduser('a_path') - find the path
a_path in the user's home directory
os.path.abspath('a_path') - convert a relative path to an absolute path
os.path.dirname('a_path') - get the directory that a path is in
- many many more...
So combining this, for example:
# Get the path to the script2.py in the same directory
this_script_path = os.path.abspath(__file__)
this_dir_path = os.path.dirname(this_script_path)
script2_path = os.path.join(this_dir_path, 'script2.py')
And running it:
ali@work:~/tmp$ python script1.py
Now for your specific case, it seems you are slightly confused between the concept of a "working directory" and the "directory that a script is in". These can be the same, but they can also be different. For example the "working directory" can be changed, and so functions that use it might be able to find what they are looking for sometimes but not others.
subprocess.Popen is an example of this.
If you always pass paths absolutely, you will never get into working directory issues.