| 1 | \chapter{MacPython OSA Modules \label{scripting}}
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| 2 |
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| 3 | This chapter describes the current implementation of the Open Scripting
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| 4 | Architecure (OSA, also commonly referred to as AppleScript) for Python, allowing
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| 5 | you to control scriptable applications from your Python program,
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| 6 | and with a fairly pythonic interface. Development on this set of modules
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| 7 | has stopped, and a replacement is expected for Python 2.5.
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| 8 |
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| 9 | For a description of the various components of AppleScript and OSA, and
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| 10 | to get an understanding of the architecture and terminology, you should
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| 11 | read Apple's documentation. The "Applescript Language Guide" explains
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| 12 | the conceptual model and the terminology, and documents the standard
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| 13 | suite. The "Open Scripting Architecture" document explains how to use
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| 14 | OSA from an application programmers point of view. In the Apple Help
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| 15 | Viewer these books are located in the Developer Documentation, Core
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| 16 | Technologies section.
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| 17 |
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| 18 |
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| 19 | As an example of scripting an application, the following piece of
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| 20 | AppleScript will get the name of the frontmost \program{Finder} window
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| 21 | and print it:
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| 22 |
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| 23 | \begin{verbatim}
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| 24 | tell application "Finder"
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| 25 | get name of window 1
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| 26 | end tell
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| 27 | \end{verbatim}
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| 28 |
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| 29 | In Python, the following code fragment will do the same:
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| 30 |
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| 31 | \begin{verbatim}
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| 32 | import Finder
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| 33 |
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| 34 | f = Finder.Finder()
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| 35 | print f.get(f.window(1).name)
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| 36 | \end{verbatim}
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| 37 |
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| 38 | As distributed the Python library includes packages that implement the
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| 39 | standard suites, plus packages that interface to a small number of
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| 40 | common applications.
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| 41 |
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| 42 | To send AppleEvents to an application you must first create the Python
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| 43 | package interfacing to the terminology of the application (what
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| 44 | \program{Script Editor} calls the "Dictionary"). This can be done from
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| 45 | within the \program{PythonIDE} or by running the
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| 46 | \file{gensuitemodule.py} module as a standalone program from the command
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| 47 | line.
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| 48 |
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| 49 | The generated output is a package with a number of modules, one for
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| 50 | every suite used in the program plus an \module{__init__} module to glue
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| 51 | it all together. The Python inheritance graph follows the AppleScript
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| 52 | inheritance graph, so if a program's dictionary specifies that it
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| 53 | includes support for the Standard Suite, but extends one or two verbs
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| 54 | with extra arguments then the output suite will contain a module
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| 55 | \module{Standard_Suite} that imports and re-exports everything from
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| 56 | \module{StdSuites.Standard_Suite} but overrides the methods that have
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| 57 | extra functionality. The output of \module{gensuitemodule} is pretty
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| 58 | readable, and contains the documentation that was in the original
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| 59 | AppleScript dictionary in Python docstrings, so reading it is a good
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| 60 | source of documentation.
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| 61 |
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| 62 | The output package implements a main class with the same name as the
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| 63 | package which contains all the AppleScript verbs as methods, with the
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| 64 | direct object as the first argument and all optional parameters as
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| 65 | keyword arguments. AppleScript classes are also implemented as Python
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| 66 | classes, as are comparisons and all the other thingies.
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| 67 |
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| 68 | The main
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| 69 | Python class implementing the verbs also allows access to the properties
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| 70 | and elements declared in the AppleScript class "application". In the
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| 71 | current release that is as far as the object orientation goes, so
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| 72 | in the example above we need to use
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| 73 | \code{f.get(f.window(1).name)} instead of the more Pythonic
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| 74 | \code{f.window(1).name.get()}.
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| 75 |
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| 76 |
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| 77 | If an AppleScript identifier is not a Python identifier the name is
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| 78 | mangled according to a small number of rules:
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| 79 | \begin{itemize}
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| 80 | \item spaces are replaced with underscores
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| 81 | \item other non-alphanumeric characters are replaced with
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| 82 | \code{_xx_} where \code{xx} is the hexadecimal character value
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| 83 | \item any Python reserved word gets an underscore appended
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| 84 | \end{itemize}
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| 85 |
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| 86 | Python also has support for creating scriptable applications
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| 87 | in Python, but
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| 88 | The following modules are relevant to MacPython AppleScript support:
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| 89 |
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| 90 | \localmoduletable
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| 91 |
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| 92 | In addition, support modules have been pre-generated for
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| 93 | \module{Finder}, \module{Terminal}, \module{Explorer},
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| 94 | \module{Netscape}, \module{CodeWarrior}, \module{SystemEvents} and
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| 95 | \module{StdSuites}.
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| 96 |
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| 97 | \input{libgensuitemodule}
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| 98 | \input{libaetools}
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| 99 | \input{libaepack}
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| 100 | \input{libaetypes}
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| 101 | \input{libminiae}
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