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PerlObjCBridge(3)                    User Contributed Perl Documentation                   PerlObjCBridge(3)



NAME
       PerlObjCBridge.pm - Bridges Perl and Objective-C runtimes

SYNOPSIS
           use Foundation;

           $s1 = NSString->stringWithCString_("Hello ");
           $s2 = NSString->alloc()->initWithCString_("World");
           $s3 = $s1->stringByAppendingString_($s2);
           printf "%s\n", $s3->cString();

SUMMARY
       The PerlObjCBridge module supports creating and messaging Objective-C objects from Perl programs,
       allowing Cocoa objects in Apple Computer's Mac OS X to be directly manipulated from Perl. In
       addition, Perl objects can be messaged from Objective-C, making it possible for Perl objects to
       function as Cocoa delegates and as targets of notifications and other Cocoa call-back messages. Perl
       programs can take advantage of Cocoa's Distributed Objects mechanism to support messaging between
       Perl objects and Objective-C objects (or other Perl objects) in different address spaces, possibly on
       different machines.

LIMITATION
       This version of PerlObjCBridge does not directly support writing GUI Cocoa applications in Perl.
       Consult http://www.sourceforge.net/projects/camelbones for a freeware package that supports GUI
       Perl/Cocoa apps.

DESCRIPTION
       Using PerlObjCBridge, Perl programs can reference Objective-C objects in a manner similar to
       references to native Perl objects. The Objective-C objects must inherit from the NSObject root class
       in the Mac OS X Foundation framework (which is true for Cocoa objects). In Objective-C an object is
       accessed via an object identifier that is implemented as a pointer to a structure containing the
       object's instance data. PerlObjCBridge represents an Objective-C object as a Perl reference to a
       scalar value that contains the Objective-C ID. For example, if an Objective-C object has an ID with
       value 0x12345678, then PerlObjCBridge represents that object as a reference to a scalar with value
       0x12345678. The Perl reference is "blessed" into a Perl class that has the same name as the
       Objective-C class. The Perl inheritance mechanism is then used to route any messages sent to the
       object from Perl through the PerlObjCBridge extension module and ultimately to the Objective-C
       object. The return values of the Objective-C messages are similarly routed back through the bridge
       where they are converted into Perl return values.

       It is also possible to use Perl objects in places where Cocoa methods normally take Objective-C
       arguments. For example, one can register Perl objects to receive NSNotifications, in which case the
       perl objects provide the notification handling methods that are asynchronously messaged by
       NSNotificationCenter when interesting events occur. As another example, a Perl object can be
       registered as a server object via NSConnection, after which Objective-C or Perl objects in other
       address spaces can send messages to the server object via the Distributed Objects mechanism. In these
       examples an Objective-C proxy object is created by PerlObjCBridge that gets passed to Objective-C
       methods, and that forwards messages from Objective-C to the Perl object.

MESSAGING
       Ordinary Perl "object->method(argument-list)" syntax is used to send messages to Objective-C objects.
       The ':' character that delimits arguments in Objective-C is illegal in Perl method names, so
       underscores are used instead. An method that is invoked in Objective-C as:

           [anObject arg1:x arg2:y];

       can be invoked from Perl using something like:

           $anObject->arg1_arg2_($x, $y);

       Contrast the following Objective-C code fragment with its Perl analogue in the synopsis at the top of
       this man page:

           #import <Foundation/Foundation.h>

           NSString *s1 = [NSString stringWithCString:"Hello "];
           NSString *s2 = [[NSString alloc] initWithCString:"World"];
           NSString *s3 = [s1 stringByAppendingString:s2];
           printf("%s\n", [s3 cString]);

       To send a message to an Objective-C class, one uses the syntactic form ClassName->method(...args...).
       For example, one can send the "defaultManager" message to the NSFileManager class as follows:

           $defMgr = NSFileManager->defaultManager();

       An important special case of a class method is a "factory" method that constructs a new instance of a
       class:

           $array = NSMutableArray->array();

           $string = NSString->stringWithCString_("Hi there");

       The NSString factory method illustrates how PerlObjCBridge passes Perl strings to Objective-C as char
       *'s.

       To send a message to an Objective-C object, one uses the syntactic form $object->method(...args...).
       If $array is a reference to an NSMutableArray then one can add the NSString referenced by $string by
       sending $array the "addObject:" message:

           $array->addObject_($string);

       Message sends can be chained from left to right:

           $hostName = NSProcessInfo->processInfo()->hostName();

       In the above example, the object returned by NSProcessInfo->processInfo() is in turn sent the
       hostName message.

USING COCOA FRAMEWORKS
       PerlObjCBridge automatically generates a bridge module for the Foundation framework that is included
       with the Cocoa environment in Mac OS X. This bridge module is created when PerlObjCBridge is built.
       The bridge module for a framework causes that framework to be dynamically loaded into the Perl
       program's address space. In addition Perl packages are created for each of the Objective-C classes in
       the framework so that the Objective-C classes exist in the Perl name space.

       To access a framework from Perl "use" its bridge module. For example, to access Foundation objects
       do:

           use Foundation;

DISTRIBUTED MESSAGING
       Perl objects can send messages to other objects (Perl or Cocoa) in different address spaces by using
       Cocoa's Distributed Objects (DO) mechanism. This makes it easy to create distributed systems (such as
       client/server systems) that mix Perl and Cocoa programs. It also makes it easy to create a pure Perl
       distributed system, where Perl objects in different address spaces communicate via Cocoa DO.

       Here is a complete example of a distributed client/server system, where the client and server objects
       are written in Perl but communicate by means of DO. The system consists of a Perl client program, a
       Perl server program, and a Perl XSUB module that provides the glue between the Perl programs and DO.
       The XSUB module is initially created by running the following  command:

           h2xs -A -n AddSystem

       An AddSystem directory is created with these files:

           ppport.h
           lib/AddSystem.pm
           AddSystem.xs
           Makefile.PL
           README
           t/AddSystem.t
           Changes
           MANIFEST

       Edit the Makefile.PL DEFINE entry to add the -ObjC flag:

           'DEFINE'            => '-ObjC', # e.g., '-DHAVE_SOMETHING'

       Modify the contents of AddSystem.pm to contain:

           package AddSystem;

           @ISA = qw(Exporter DynaLoader);
           @EXPORT = qw( );
           $VERSION = '1.0';
           bootstrap AddSystem $VERSION;

           use Foundation;

           1;

       and modify AddSystem.xs to have the contents:

           #include <mach-o/dyld.h>
           #include "EXTERN.h"
           #include "perl.h"
           #include "XSUB.h"
           #ifdef Move
           #undef Move
           #endif Move
           #ifdef DEBUG
           #undef DEBUG
           #endif DEBUG
           #ifdef I_POLL
           #undef I_POLL
           #endif I_POLL
           #import <Foundation/Foundation.h>

           @interface AddClient : NSObject
           @end

           @implementation AddClient
           - (int)firstNumber { return 0; }
           - (int)secondNumber { return 0; }
           @end

           @interface AddServer: NSObject
           @end

           @implementation AddServer
           - (int)addNumbersForClient:(NSObject *)client { return 0; }
           @end

           MODULE = AddSystem          PACKAGE = AddSystem

       AddSystem.xs defines "dummy" AddClient and AddServer Objective-C classes that implement the methods
       that the Perl client and server will provide. These dummy Objective-C classes are needed in this case
       because there would otherwise not be enough information for the DO runtime system to determine the
       numbers, types, and sizes of the method arguments and return values. These dummy Objective-C
       implementations are usually only needed when DO is being used and the Perl program does not link
       against any libraries that contain objects that already implement the methods. The actual method
       bodies are irrelevant and can be trivially defined to return 0 or NULL. In the case of methods that
       return void, the dummy methods can have empty bodies.

       After modifying Makefile.PL, AddSystem.pm, and AddSystem.xs, execute the following commands (as root
       or as an admin user):

           perl Makefile.PL
           make install

       Now add two Perl programs to the AddSystem directory. The first program is addServer:

           #!/usr/bin/perl

           use AddSystem;

           package AddServer;
           @ISA = qw(PerlObjCBridge);
           @EXPORT = qw( );

           PerlObjCBridge::preloadSelectors('AddClient');

           sub new
           {
               my $class = shift;
               my $self = {};
               bless $self, $class;
               return $self;
           }

           sub addNumbersForClient_
           {
               my($self, $client) = @_;
               my $first = $client->firstNumber();
               my $second = $client->secondNumber();
               return int($first + $second);
           }

           $server = new AddServer;
           $connection = NSConnection->defaultConnection();
           $connection->setRootObject_($server);
           $connection->registerName_(NSString->stringWithCString_("AddServer"));

           NSRunLoop->currentRunLoop()->run();

       Make sure that the line "#!/usr/bin/perl" does not contain leading whitespace.

       The line:

           use AddSystem;

       causes addServer to load the AddSystem XSUB module, which in turn loads the dummy AddClient and
       AddServer Objective-C classes, thus making them available to the DO runtime system. The lines:

           package AddServer;
           @ISA = qw(PerlObjCBridge);
           @EXPORT = qw( );

       cause the AddServer package to inherit from PerlObjCBridge. As a consequence, messages to and from
       AddServer objects will be routed through PerlObjCBridge.

       The line:

           PerlObjCBridge::preloadSelectors('AddClient');

       instructs PerlObjCBridge to pre-cache all method selectors for the Objective-C class AddClient. By
       doing this, PerlObjCBridge is "primed" with the information needed to send messages to objects of
       class AddClient.

       After a standard "new" constructor method, there is a addNumbersForClient_ method that provides the
       service vended by the AddServer class. The method name "addNumbersForClient_" corresponds to the
       Objective-C selector "addNumbersForClient:", which has a dummy implementation in AddSystem.xs. In
       addition to the standard $self argument, addNumbersForClient_ takes a second argument $client which
       is a reference to the invoking client object. The client object is then sent the messages
       "firstNumber" and "secondNumber", each of which returns an integer. The server adds the two numbers
       and returns the result.

       The lines:

           $server = new AddServer;
           $connection = NSConnection->defaultConnection();
           $connection->setRootObject_($server);
           $connection->registerName_(NSString->stringWithCString_("AddServer"));

       create a new AddServer object and set it as the root object of a DO connection, registered with the
       name "AddServer". Clients can then look up the name "AddServer" to connect to this object.

       The final line:

           NSRunLoop->currentRunLoop()->run();

       puts addServer into a event loop, waiting for incoming connections from clients.

       The second program, addClient, consists of:

           #!/usr/bin/perl

           use AddSystem;

           package AddClient;
           @ISA = qw(PerlObjCBridge);
           @EXPORT = qw( );

           PerlObjCBridge::preloadSelectors('AddServer');

           sub new
           {
               my $class = shift;
               my $self = {};
               bless $self, $class;
               $self{'firstNumber'} = shift;
               $self{'secondNumber'} = shift;
               return $self;
           }

           sub firstNumber
           {
               my($self) = @_;
               return $self{'firstNumber'};
           }

           sub secondNumber
           {
               my($self) = @_;
               return $self{'secondNumber'};
           }

           die "usage: perlClient <firstNumber> <secondNumber>\n" unless @ARGV == 2;

           # create client
           $client = new AddClient (@ARGV);

           # create connection to server
           $name = NSString->stringWithCString_("AddServer");
           $server = NSConnection->rootProxyForConnectionWithRegisteredName_host_($name, 0);
           if (!$server or !$$server) {
               print "Can't get server\n";
               exit(1);
           }
           $server->retain();

           printf "%d\n", $server->addNumbersForClient_($client);

       Make sure that the line "#!/usr/bin/perl" does not contain leading whitespace.

       The AddClient methods "firstNumber" and "secondNumber" implement the call-back methods invoked by the
       AddServer. The lines:

           $name = NSString->stringWithCString_("AddServer");
           $server = NSConnection->rootProxyForConnectionWithRegisteredName_host_($name, 0);
           if (!$server or !$$server) {
               print "Can't get server\n";
               exit(1);
           }
           $server->retain();

       results in $server being assigned a DO "proxy" object for the AddServer object in the addServer
       program. Any messages sent by the client will by forwarded by the DO proxy to the actual AddServer
       object in the addServer address space.

       The final line:

           printf "%d\n", $server->addNumbersForClient_($client);

       invokes the AddServer object with a reference to the client object. The control flow that results is:

           addClient sends "addNumbersForClient:" to addServer
           addServer sends "firstNumber" to addClient
           addClient returns first number
           addServer sends "secondNumber" to addClient
           addClient returns second number
           addServer returns sum of first and second number

       To execute these programs, first make sure addServer and addClient are executable:

           chmod +x addServer addClient

       Next run the server in one shell:

           addServer

       then the client in another shell:

           addClient 1 2
           3

AUTOMATIC STRING CONVERSION
       For convenience, PerlObjCBridge automatically converts Perl strings into NSString Objective-C objects
       when an NSObject is expected as the argument to an Objective-C method. For example, suppose an
       Objective-C dictionary is created:

           $dict = NSMutableDictionary->dictionary();

       The dictionary method "setObject:forKey:" expects the key argument to be an NSString and the value
       argument to be any NSObject. The following automatically converts both "aKey" and "aValue" to
       NSStrings and then inserts the pair into the dictionary:

           $dict->setObject_forKey_("aValue", "aKey");

       The value can be retrieved as follows, where "aKey" is again automatically converted to an NSString:

           $value = $dict->objectForKey_("aKey");
           printf "value is %s\n", $value->cString();

       Note that the return value assigned to $value is a reference to an NSString and is not automatically
       converted to a Perl string. The automatic conversions occur only from Perl strings to NSStrings for
       Objective-C method arguments. NSStrings return values are not automatically converted to Perl
       strings.

       Automatic conversion also occurs when a Perl string is passed as an argument to a method that expects
       an Objective-C selector. For example, the "performSelector:" message can be sent to any NSObject. The
       argument to the "performSelector:" message must be an Objective-C selector. In Objective-C, one can
       copy an existing NSString "origString" by asking it to perform the "copy" selector:

           copy = [origString performSelector:@selector(copy)];

       This is equivalent to:

           copy = [origString copy];

       In Perl the selector form can be executed as:

           $copy = $origString->performSelector_("copy");

       In this case the Perl string "copy" is automatically converted to an Objective-C selector.

NIL ARGUMENTS AND RETURN VALUES
       It is sometimes necessary to pass the Objective-C object ID "nil" (a null pointer) as an argument to
       an Objective-C method. Since PerlObjCBridge represents Objective-C ID's as Perl references, strictly
       speaking the Perl value 0 is not a legal representation for Objective-C's nil because it is a simple
       scalar, not a reference. However, for convenience, when an argument to an Objective-C method is
       expected to be an object ID and the value 0 is passed from Perl, PerlObjCBridge coerces the 0 value
       to a reference to a zero-valued scalar and the Objective-C method receives nil for that argument. In
       the following example, the Objective-c method "arg1:optionalArg:" would receive nil as its second
       argument.

           MyClass->arg1_optionalArg_($obj, 0);

       The special value "undef" can also be used:

           MyClass->arg1_optionalArg_($obj, undef);

       When an Objective-C method returns nil, the corresponding Perl return value is a reference to a zero-
       valued scalar. This return value can subsequently be passed as an argument to an Objective-C method.
       In the following example, if "aMethod" returns nil then "arg1:optionalArg:" would receive nil as its
       second argument:

           MyClass->arg1_optionalArg_($obj, YourClass->aMethod());

       To determine whether an Objective-C method returned nil one should test both the Perl reference and
       its referent. The referent will be zero-valued when the Objective-C method returned nil, but it is
       also possible for the reference itself to be undefined (for example, when the method raised an
       NSException, as discussed below). The following example illustrates the use of an Objective-C
       NSEnumerator object to print the elements of an NSArray. In Objective-C, the enumerator returns nil
       after the last object in the array has been enumerated. In the Perl loop, both the reference $obj and
       the referent $$obj are tested in the loop condition. Under normal circumstances looping ends when
       $$obj becomes zero-valued, indicating the enumerator returned nil.

           $enumerator = $array->objectEnumerator();
           while ($obj = $enumerator->nextObject() and $$obj) {
               printf "%s\n", $obj->description()->cString();
           }

EXCEPTION HANDLING
       NSExceptions that are raised as a result of messages sent by Perl programs to Objective-C objects are
       dealt with as follows. PerlObjCBridge has a built-in NSException handler that writes the message
       selector, the class of the target object, and the NSException name, reason, and userInfo to standard
       error. By default, the built-in NSException handler then dies with a message. The function
       PerlObjCBridge::setDieOnExceptions() can be used to control the latter behavior. Invoking
       setDieOnExceptions() with an argument of 0 will cause the built-in exception handler to issue a
       warning and return without dying, whereas a non-zero argument (or no argument) will cause the built-
       in exception handler to die. In the case where the built-in exception handler returns with a warning,
       the original message that caused the exception returns undef.

       Alternatively, the Perl program can set its own exception handler by calling
       PerlObjCBridge::setNSExceptionHandler() with a single argument that must be a reference to a Perl
       function that acts as the exception handler. The Perl program can get a reference to the current
       exception handler by calling PerlObjCBridge::getNSExceptionHandler(). If a user-defined exception
       handler is set and an NSException is raised then the user-defined handler will be called with five
       string arguments: (1) the Objective-C selector for the message that induced the NSException, (2) the
       class name of the object to which the message was sent, and (3,4,5) the NSException name, reason, and
       userInfo (the latter represented as the string [userInfo description]). If the user-defined exception
       handler returns, then the original message returns undef. When a user-defined exception handler is
       set, it is up to the handler to decide whether the program exits or continues when NSExceptions are
       raised (i.e., when a user-defined exception handler is set the function setDieOnExceptions() has no
       effect).

       The example below stores the original exception handler, sets a new exception handler, provokes an
       NSException by attempting to set a dictionary entry with a nil key and a nil value, and then restores
       the original exception handler.

          sub myHandler
          {
              my($sel, $pkg, $name, $reason, $userInfo) = @_;
              print "NSException raised!\n";
              print "selector:  $selector\n";
              print "package:   $package\n";
              print "name:      $name\n";
              print "reason:    $reason\n";
              print "userInfo:  $userInfo\n";
          }

          $oldHandler = PerlObjCBridge::getNSExceptionHandler();
          PerlObjCBridge::setNSExceptionHandler(\&myHandler);
          $dict = NSMutableDictionary->dictionary();
          $dict->setObject_forKey_(0, 0);
          PerlObjCBridge::setNSExceptionHandler($oldHandler);

       This results in myHandler printing the output:

          NSException raised!
          selector:     setObject:forKey:
          target class: NSCFDictionary
          name:         NSInvalidArgumentException
          reason:       *** -[NSCFDictionary setObject:forKey:]: attempt to insert nil key
          userInfo:

LARGE NUMERIC VALUES
       PerlObjCBridge assumes no Perl support for 64-bit integers. When an Objective-C method has a 64-bit
       integer return type (i.e., long long or unsigned long long) and the result of invoking that method is
       a return value that is too large (i.e., >= 2^^31) or too small (<= -(2^^31)) to be represented in
       Perl as a signed integer then the value is returned as a Perl double. Similarly, when a parameter to
       an Objective-C method is a long long or unsigned long long then the type of the Perl argument value
       is examined. If the argument value is a Perl integer then its value is passed directly to the
       Objective-C method in long long or unsigned long long form (coercing in the unsigned case). Otherwise
       if the argument value is a Perl double then it is coerced to the appropriate long long or unsigned
       long long form before it is passed to the method.

       Similar considerations apply to 32-bit unsigned longs and unsigned ints. When an Objective-C method
       has a 32-bit unsigned long or unsigned int return type and the result of invoking that method is a
       return value that is too large (>= 2^^31) to be represented in Perl as a signed integer then the
       value is returned as a Perl double. When a parameter to an Objective-C method is a 32-bit unsigned
       long or unsigned int then the Perl int or float argument is simply coerced to the unsigned long or
       int. This can of course have unpleasant consequences if the Perl argument is negative or larger than
       2^^32.

CONTROL FUNCTIONS
       Calling PerlObjCBridge::setTracing() with a non-zero argument (or no argument) will cause
       PerlObjCBridge to log diagnostic messages as it executes. Calling setTracing() with an argument of
       zero turns the diagnostics off.

       Calling PerlObjCBridge::setDieOnErrors() with a non-zero argument (or no argument) will cause
       PerlObjCBridge to die with a warning message whenever there is an error during the sending of an
       Objective-C message (this is the default behavior). Calling setDieOnErrors() with an argument of zero
       allows the program to print a warning message but not die after such an error.

BUGS AND LIMITATIONS
       PerlObjCBridge should take advantage of Perl support for 64-bit integers if available. Feel free to
       fix this.

       When structs are passed by value, sometimes pointers embedded in the structs get mangled. It is
       better to pass structs by reference if they contain embedded pointers.

       Varargs-style messaging is not supported. This is unfortunate, but it's due to the lack of varargs
       support in NSInvocation and NSMethodSignature. Fix that and it should be easy to support varargs
       messaging in PerlObjCBridge.

       Access to functions, variables, and other non-object-oriented constructs exported by libraries
       containing Objective-C is not currently supported. It seems dubious that those things are exported as
       C-level constructs to begin with, when they could/should be Objective-C class methods. One possible
       workaround is to create an XSUB that provides Objective-C "covers" for these items. For example, if a
       library exports a variable:

           extern int GreatBigFoo;

       then an XSUB with a cover might define:

           @interface Covers: NSObject
           + (int)GreatBigFoo;
           @end

           @implementation Covers
           + (int)GreatBigFoo
           {
               return GreatBigFoo;
           }
           @end

       Then the value of the variable could be accessed in Perl:

           $gbf = Covers::GreatBigFoo();

SEE ALSO
       perl(1).  Mac OS X: /Developer/Documentation/Cocoa/ObjectiveC Mac OS X:
       /Developer/Documentation/Cocoa/Reference/Foundation



perl v5.8.8                                      2007-02-09                                PerlObjCBridge(3)

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