Mac/Demo/applescript.html - platform/external/python/cpython3 - Gitiles

 <HTML><HEAD><TITLE>Using Open Scripting Extension from Python</TITLE></HEAD>
 <BODY>
 <H1>Using Open Scripting Extension from Python</H1>
 <HR>

 OSA support in Python is still far from complete, and what
 support there is is likely to change in the forseeable future. Still,
 there is already enough in place to allow you to do some nifty things
 to other programs from your python program.  <P>

 <CITE>
 Actually, when we say "AppleScript" in this document we actually mean
 "the Open Scripting Architecture", there is nothing
 AppleScript-specific in the Python implementation. <p>
 </CITE>

 In this example, we will look at a scriptable application, extract its
 "AppleScript Dictionary" and generate a Python interface module from
 that and use that module to control the application. Because we want
 to concentrate on the OSA details we don't bother with a real
 user-interface for our application. <p>

 The application we are going to script is Eudora Light, a free mail
 program from <A HREF="http://www.qualcomm.com">QualComm</A>. This is a
 very versatile mail-reader, and QualComm has an accompanying
 commercial version once your needs outgrow Eudora Light. Our program
 will tell Eudora to send queued mail, retrieve mail or quit. <p>

 <H2>Creating the Python interface module</H2>

 There is a tool in the standard distribution that looks through a file
 for an 'AETE' or 'AEUT' resource, the internal representation of the
 AppleScript dictionary. This tool is called
 <CODE>gensuitemodule.py</CODE>, and lives in
 <CODE>Mac:scripts</CODE>. When we start it, it asks us for an input
 file and we point it to the Eudora Light executable. It starts parsing
 the AETE resource, and for each AppleEvent suite it finds it prompts
 us for the filename of the resulting python module. Remember to change
 folders for the first module, you don't want to clutter up the Eudora
 folder with your python interfaces. If you want to skip a suite you
 press cancel and the process continues with the next suite. In the
 case of Eudora, you do <EM>not</EM> want to generate the Required
 suite, because it will be empty. AppleScript understands that an empty
 suite means "incorporate the whole standard suite by this name",
 gensuitemodule does not currently understand this. Creating the empty
 <CODE>Required_Suite.py</CODE> would hide the correct module of that
 name from our application. <p>

 <BLOCKQUOTE>
 Time for a sidebar. If you want to re-create
 <CODE>Required_Suite.py</CODE> or one of the other standard modules
 you should look in <CODE>System Folder:Extensions:Scripting
 Additions:Dialects:English Dialect</CODE>, that is where the core
 AppleEvent dictionaries live. Also, if you are looking for the
 <CODE>Finder_Suite</CODE> interface: don't look in the finder (it has
 an old System 7.0 scripting suite), look at the extension <CODE>Finder
 Scripting Extension</CODE>. <p>
 </BLOCKQUOTE>

 Let's glance at the <A
 HREF="scripting/Eudora_Suite.py">Eudora_Suite.py</A> just created. You
 may want to open Script Editor alongside, and have a look at how it
 interprets the dictionary. EudoraSuite.py starts with some
 boilerplate, then come some dictionaries implementing the OSA
 Enumerations, then a big class definition with methods for each
 AppleScript Verb and finally some comments. The Enumerations we will
 skip, it suffices to know that whenever you have to pass an enumerator
 to a method you can pass the english name and don't have to bother
 with the 4-letter type code. So, you can say
 <CODE><PRE>
 	eudora.notice(occurrence="mail_arrives")
 </PRE></CODE>
 instead of the rather more cryptic
 <CODE><PRE>
 	eudora.notice(occurrence="wArv")
 </PRE></CODE>

 The <CODE>Eudora_Suite</CODE> class is the bulk of the code
 generated. For each verb it contains a method. Each method knows what
 arguments the verb expects, and it makes handy use of the keyword
 argument scheme introduced in Python 1.3 to present a palatable
 interface to the python programmer. You will see that each method
 calls some routines from <CODE>aetools</CODE>, an auxiliary module
 living in <CODE>Lib:toolbox</CODE> which contains some other nifty
 AppleEvent tools as well. Have a look at it sometime, there is (of
 course) no documentation yet. <p>

 The other thing you notice is that each method calls
 <CODE>self.send</CODE>, but no such method is defined. You will have
 to provide it by subclassing or multiple inheritance, as we shall see
 later. <p>

 The module ends with some comments. Sadly, gensuitemodule is not yet
 able to turn the Object Specifiers into reasonable Python code. For
 now, if you need object specifiers, you will have to use the routines
 defined in <CODE>aetools.py</CODE> (and <CODE>aetypes.py</CODE>, which
 it incorporates). You use these in the form <CODE>aetools.Word(10,
 aetools.Document(1))</CODE> where the corresponding AppleScript
 terminology would be <CODE>word 10 of the first
 document</CODE>. Examine the two modules mentioned above along with
 the comments at the end of your suite module if you need to create
 more than the standard object specifiers. <p>

 <H2>Using a Python suite module</H2>

 Now that we have created the suite module we can use it in an
 application. We do this by creating a class that inherits
 <CODE>Eudora_Suite</CODE> and the <CODE>TalkTo</CODE> class from
 <CODE>aetools</CODE>. The <CODE>TalkTo</CODE> class is basically a
 container for the <CODE>send</CODE> method used by the methods from
 the suite classes. <p>

 Actually, our class will also inherit <CODE>Required_Suite</CODE>,
 because we also need functionality from that suite: the quit
 command. Gensuitemodule could have created this completely derived
 class for us, since it has access to all information needed to build
 the class but unfortunately it does not do so at the moment. All in
 all, the heart of our program looks like this:
 <CODE><PRE>
 	import Eudora_Suite, Required_Suite, aetools

 	class Eudora(aetools.TalkTo, Required_Suite.Required_Suite, \
 				Eudora_Suite.Eudora_Suite):
 		pass
 </PRE></CODE>

 Yes, our class body is <CODE>pass</CODE>, all functionality is already
 provided by the base classes, the only thing we have to do is glue it
 together in the right way. <p>

 Looking at the sourcefile <A
 HREF="scripting/testeudora.py">testeudora.py</A> we see that it starts
 with some imports. Then we get the class definition
 for our main object and a constant giving the signature of Eudora. <p>

 This, again, needs a little explanation. There are various ways to
 describe to AppleScript which program we want to talk to, but the
 easiest one to use (from Python, at least) is creator
 signature. Application name would be much nicer, but Python currently
 does not have a module that interfaces to the Finder database (which
 would allow us to map names to signatures). The other alternative,
 <CODE>ChooseApplication</CODE> from the program-to-program toolbox, is
 also not available from Python at the moment. <p>

 The main program itself is a wonder of simplicity. We create the
 object that talks to Eudora (passing the signature as argument), ask
 the user what she wants and call the appropriate method of the talker
 object. The use of keyword arguments with the same names as used by
 AppleScript make passing the parameters a breeze. <p>

 The exception handling does need a few comments, though. Since
 AppleScript is basically a connectionless RPC protocol nothing happens
 when we create to talker object. Hence, if the destination application
 is not running we will not notice until we send our first
 command. There is another thing to note about errors returned by
 AppleScript calls: even though <CODE>MacOS.Error</CODE> is raised not
 all of the errors are actually <CODE>OSErr</CODE>-type errors, some
 are error codes returned by the server application. In that case, the
 error message will be incorrect. <p>

 That concludes our simple example. Again, let me emphasize that
 scripting support in Python is not very complete at the moment, and
 the details of how to use AppleEvents will definitely change in the
 near future. This will not only fix all the ideosyncracies noted in
 this document but also break existing programs, since the current
 suite organization will have to change to fix some of the problems.
 Still, if you want to experiment with AppleEvents right now: go ahead!
 <p>
	<HTML><HEAD><TITLE>Using Open Scripting Extension from Python</TITLE></HEAD>
	<BODY>
	<H1>Using Open Scripting Extension from Python</H1>
	<HR>

	OSA support in Python is still far from complete, and what
	support there is is likely to change in the forseeable future. Still,
	there is already enough in place to allow you to do some nifty things
	to other programs from your python program. <P>

	<CITE>
	Actually, when we say "AppleScript" in this document we actually mean
	"the Open Scripting Architecture", there is nothing
	AppleScript-specific in the Python implementation. <p>
	</CITE>

	In this example, we will look at a scriptable application, extract its
	"AppleScript Dictionary" and generate a Python interface module from
	that and use that module to control the application. Because we want
	to concentrate on the OSA details we don't bother with a real
	user-interface for our application. <p>

	The application we are going to script is Eudora Light, a free mail
	program from <A HREF="http://www.qualcomm.com">QualComm</A>. This is a
	very versatile mail-reader, and QualComm has an accompanying
	commercial version once your needs outgrow Eudora Light. Our program
	will tell Eudora to send queued mail, retrieve mail or quit. <p>

	<H2>Creating the Python interface module</H2>

	There is a tool in the standard distribution that looks through a file
	for an 'AETE' or 'AEUT' resource, the internal representation of the
	AppleScript dictionary. This tool is called
	<CODE>gensuitemodule.py</CODE>, and lives in
	<CODE>Mac:scripts</CODE>. When we start it, it asks us for an input
	file and we point it to the Eudora Light executable. It starts parsing
	the AETE resource, and for each AppleEvent suite it finds it prompts
	us for the filename of the resulting python module. Remember to change
	folders for the first module, you don't want to clutter up the Eudora
	folder with your python interfaces. If you want to skip a suite you
	press cancel and the process continues with the next suite. In the
	case of Eudora, you do <EM>not</EM> want to generate the Required
	suite, because it will be empty. AppleScript understands that an empty
	suite means "incorporate the whole standard suite by this name",
	gensuitemodule does not currently understand this. Creating the empty
	<CODE>Required_Suite.py</CODE> would hide the correct module of that
	name from our application. <p>

	<BLOCKQUOTE>
	Time for a sidebar. If you want to re-create
	<CODE>Required_Suite.py</CODE> or one of the other standard modules
	you should look in <CODE>System Folder:Extensions:Scripting
	Additions:Dialects:English Dialect</CODE>, that is where the core
	AppleEvent dictionaries live. Also, if you are looking for the
	<CODE>Finder_Suite</CODE> interface: don't look in the finder (it has
	an old System 7.0 scripting suite), look at the extension <CODE>Finder
	Scripting Extension</CODE>. <p>
	</BLOCKQUOTE>

	Let's glance at the <A
	HREF="scripting/Eudora_Suite.py">Eudora_Suite.py</A> just created. You
	may want to open Script Editor alongside, and have a look at how it
	interprets the dictionary. EudoraSuite.py starts with some
	boilerplate, then come some dictionaries implementing the OSA
	Enumerations, then a big class definition with methods for each
	AppleScript Verb and finally some comments. The Enumerations we will
	skip, it suffices to know that whenever you have to pass an enumerator
	to a method you can pass the english name and don't have to bother
	with the 4-letter type code. So, you can say
	<CODE><PRE>
	eudora.notice(occurrence="mail_arrives")
	</PRE></CODE>
	instead of the rather more cryptic
	<CODE><PRE>
	eudora.notice(occurrence="wArv")
	</PRE></CODE>

	The <CODE>Eudora_Suite</CODE> class is the bulk of the code
	generated. For each verb it contains a method. Each method knows what
	arguments the verb expects, and it makes handy use of the keyword
	argument scheme introduced in Python 1.3 to present a palatable
	interface to the python programmer. You will see that each method
	calls some routines from <CODE>aetools</CODE>, an auxiliary module
	living in <CODE>Lib:toolbox</CODE> which contains some other nifty
	AppleEvent tools as well. Have a look at it sometime, there is (of
	course) no documentation yet. <p>

	The other thing you notice is that each method calls
	<CODE>self.send</CODE>, but no such method is defined. You will have
	to provide it by subclassing or multiple inheritance, as we shall see
	later. <p>

	The module ends with some comments. Sadly, gensuitemodule is not yet
	able to turn the Object Specifiers into reasonable Python code. For
	now, if you need object specifiers, you will have to use the routines
	defined in <CODE>aetools.py</CODE> (and <CODE>aetypes.py</CODE>, which
	it incorporates). You use these in the form <CODE>aetools.Word(10,
	aetools.Document(1))</CODE> where the corresponding AppleScript
	terminology would be <CODE>word 10 of the first
	document</CODE>. Examine the two modules mentioned above along with
	the comments at the end of your suite module if you need to create
	more than the standard object specifiers. <p>

	<H2>Using a Python suite module</H2>

	Now that we have created the suite module we can use it in an
	application. We do this by creating a class that inherits
	<CODE>Eudora_Suite</CODE> and the <CODE>TalkTo</CODE> class from
	<CODE>aetools</CODE>. The <CODE>TalkTo</CODE> class is basically a
	container for the <CODE>send</CODE> method used by the methods from
	the suite classes. <p>

	Actually, our class will also inherit <CODE>Required_Suite</CODE>,
	because we also need functionality from that suite: the quit
	command. Gensuitemodule could have created this completely derived
	class for us, since it has access to all information needed to build
	the class but unfortunately it does not do so at the moment. All in
	all, the heart of our program looks like this:
	<CODE><PRE>
	import Eudora_Suite, Required_Suite, aetools

	class Eudora(aetools.TalkTo, Required_Suite.Required_Suite, \
	Eudora_Suite.Eudora_Suite):
	pass
	</PRE></CODE>

	Yes, our class body is <CODE>pass</CODE>, all functionality is already
	provided by the base classes, the only thing we have to do is glue it
	together in the right way. <p>

	Looking at the sourcefile <A
	HREF="scripting/testeudora.py">testeudora.py</A> we see that it starts
	with some imports. Then we get the class definition
	for our main object and a constant giving the signature of Eudora. <p>

	This, again, needs a little explanation. There are various ways to
	describe to AppleScript which program we want to talk to, but the
	easiest one to use (from Python, at least) is creator
	signature. Application name would be much nicer, but Python currently
	does not have a module that interfaces to the Finder database (which
	would allow us to map names to signatures). The other alternative,
	<CODE>ChooseApplication</CODE> from the program-to-program toolbox, is
	also not available from Python at the moment. <p>

	The main program itself is a wonder of simplicity. We create the
	object that talks to Eudora (passing the signature as argument), ask
	the user what she wants and call the appropriate method of the talker
	object. The use of keyword arguments with the same names as used by
	AppleScript make passing the parameters a breeze. <p>

	The exception handling does need a few comments, though. Since
	AppleScript is basically a connectionless RPC protocol nothing happens
	when we create to talker object. Hence, if the destination application
	is not running we will not notice until we send our first
	command. There is another thing to note about errors returned by
	AppleScript calls: even though <CODE>MacOS.Error</CODE> is raised not
	all of the errors are actually <CODE>OSErr</CODE>-type errors, some
	are error codes returned by the server application. In that case, the
	error message will be incorrect. <p>

	That concludes our simple example. Again, let me emphasize that
	scripting support in Python is not very complete at the moment, and
	the details of how to use AppleEvents will definitely change in the
	near future. This will not only fix all the ideosyncracies noted in
	this document but also break existing programs, since the current
	suite organization will have to change to fix some of the problems.
	Still, if you want to experiment with AppleEvents right now: go ahead!
	<p>