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<?php
# This file illustrates the cross language polymorphism using directors.
require("example.php");
# CEO class, which overrides Employee::getPosition().
class CEO extends Manager {
function getPosition() {
return "CEO";
}
}
# Create an instance of our employee extension class, CEO. The calls to
# getName() and getPosition() are standard, the call to getTitle() uses
# the director wrappers to call CEO.getPosition.
$e = new CEO("Alice");
print $e->getName() . " is a " . $e->getPosition() . "\n";
printf("Just call her \"%s\"\n", $e->getTitle());
print "----------------------\n";
# Create a new EmployeeList instance. This class does not have a C++
# director wrapper, but can be used freely with other classes that do.
$list = new EmployeeList();
# EmployeeList owns its items, so we must surrender ownership of objects
# we add. This involves first clearing the ->disown member to tell the
# C++ director to start reference counting.
$e->thisown = 0;
$list->addEmployee($e);
print "----------------------\n";
# Now we access the first four items in list (three are C++ objects that
# EmployeeList's constructor adds, the last is our CEO). The virtual
# methods of all these instances are treated the same. For items 0, 1, and
# 2, both all methods resolve in C++. For item 3, our CEO, getTitle calls
# getPosition which resolves in PHP. The call to getPosition is
# slightly different, however, from the e.getPosition() call above, since
# now the object reference has been "laundered" by passing through
# EmployeeList as an Employee*. Previously, PHP resolved the call
# immediately in CEO, but now PHP thinks the object is an instance of
# class Employee (actually EmployeePtr). So the call passes through the
# Employee proxy class and on to the C wrappers and C++ director,
# eventually ending up back at the CEO implementation of getPosition().
# The call to getTitle() for item 3 runs the C++ Employee::getTitle()
# method, which in turn calls getPosition(). This virtual method call
# passes down through the C++ director class to the PHP implementation
# in CEO. All this routing takes place transparently.
print "(position, title) for items 0-3:\n";
printf(" %s, \"%s\"\n", $list->get_item(0)->getPosition(), $list->get_item(0)->getTitle());
printf(" %s, \"%s\"\n", $list->get_item(1)->getPosition(), $list->get_item(1)->getTitle());
printf(" %s, \"%s\"\n", $list->get_item(2)->getPosition(), $list->get_item(2)->getTitle());
printf(" %s, \"%s\"\n", $list->get_item(3)->getPosition(), $list->get_item(3)->getTitle());
print "----------------------\n";
# Time to delete the EmployeeList, which will delete all the Employee*
# items it contains. The last item is our CEO, which gets destroyed as its
# reference count goes to zero. The PHP destructor runs, and is still
# able to call the getName() method since the underlying C++ object still
# exists. After this destructor runs the remaining C++ destructors run as
# usual to destroy the object.
unset($list);
print "----------------------\n";
# All done.
print "php exit\n";
?>
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