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Automated System
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12 years ago | |
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bin | 12 years ago | |
rubylib | 12 years ago | |
AUTHORS | 15 years ago | |
ChangeLog | 15 years ago | |
Makefile.am | 15 years ago | |
README | 15 years ago | |
TODO | 15 years ago |
README
Please see kdebindings/qtruby/README KDE Specific Infomation: - Instead of require 'Qt', use require 'Korundum' for KDE programs. - The KDE K* classes such as KApplication are renamed as KDE::Application. The other KDE classes are in the KParts::, KIO:: or DOM:: namespaces, with the same names as their C++ counterparts. - Use the 'rbkdeapi' script to introspect the Korundum api from the command line. For example: $ rbkdeapi KDE::Action Will list all the methods in the KDE::Action class. There are currently (as at KDE 3.3 beta 2) 977 classes/30841 methods in the Smoke library runtime, so the coverage of the Qt/KDE api is pretty complete. - DCOP Support. Here is a minimal ruby dcop slot implementation: require 'Korundum' class MyWidget < KDE::PushButton k_dcop 'QPoint mySlot(int,QString)' def initialize(parent, name) super end def mySlot(counter,greeting) return Qt::Point.new(50, 100) end end This slot is passed an integer and a string, and returns a Qt::Point. Note that the class doesn't have to inherit from DCOPObject. If you include a 'k_dcop' slots declaration a 'listener' dcop object instance is created automatically, and these four methods are added to your class: interfaces() functions() connectDCOPSignal() disconnectDCOPSignal() The name of the object is always the ruby classname, and you can only instantiate one instance for each ruby class that has 'k_dcop' declarations. See examples/dcop/dcopslot.rb and dcopsignal.rb for an example of the simplest approach. If you wish to use the full functionality of a DCOPObject, you can subclass it and call all the methods, not just the four above. Additionally, you can instantiate more than one instance per class and rename the dcop object with the setObjId() method or by passing the name to the constructor. See the examples/dcop/petshop.rb code for an example of a more complex dcop object. - Define a dcop slot like this in one ruby program: k_dcop 'QPoint getPoint(QString)' def getPoint(msg) puts "message: #{msg}" return Qt::Point.new(50, 100) end - Call it from another program and print the reply, like this: dcopRef = KDE::DCOPRef.new("dcopslot", "MyWidget") There are three different ways to specify a DCOP call: 1) res = dcopRef.call("getPoint(QString)", "Hello from dcopsend") 2) res = dcopRef.call("getPoint", "Hello from dcopsend") 3) res = dcopRef.getPoint("Hello from dcopsend") puts "result class: #{res.class.name} x: #{res.x} y: #{res.y}" If the dcop slot has a 'void' or 'ASYNC' type, the result will be true if the call succeeds or nil if it fails - DCOP Attributes You can set a dcop attribute like this, instead of calling 'klipper.setClipboardContents("Hello there klipper")': klipper = DCOPRef.new("klipper", "klipper") klipper.clipboardContents = "Hello there klipper" Amaze your friends! Do the programming equivalent of leaping over tall buildings in one bound! Here with one line of quite clear code, we read a file from disc and assign it the 'clipboardContents' klipper attribute via dcop: klipper.clipboardContents = IO.readlines("myfile").to_s - DCOP Predicates Instead of: result = dcopRef.isFoo() You can use this more rubyish form: if dcopRef.foo? puts "foo is true" else puts "foo? is false" end Similarly you can use foo? as an alias for methods of the form hasFoo(). See examples/dcop/dcoppredicate.rb and dcopslot.rb - Underscore to camel case DCOP method name conversion Any underscores in a method name are removed, and the following character is capitalised. For example: res = dcopRef.get_point("Hello from dcopsend") Is a synonym for: res = dcopRef.getPoint("Hello from dcopsend") - Send to a DCOPRef: There are two different ways to specify a DCOP send: 1) res = dcopRef.send("mySlot(QString)", "Hello from dcopsend") 2) res = dcopRef.send("mySlot", "Hello from dcopsend") The result will either be true or false (but not nil for fail like the DCOPRef.call() method described above). - When a call of the form 'dcopRef.getPoint(5, "foobar")' is made, the C++ type signature is obtained from the list of those returned by DCOPRef.functions(). However, if a method name is overloaded the ruby argument types are used to derive a type signature, in order to resolve the call like this: String => QString Float => double Integer => int TrueClass|FalseClass (ie 'true' or 'false') => bool Qt::Widget etc => QWidget KDE::URL etc => KURL Array => QStringList Specify the full C++ type signature using the form 'dcopRef.call("getPoint(int,QString)", 5, "foobar")' if these rules fail to pick the right method. - DCOP Signals are defined like this: k_dcop_signals 'void testEmitSignal(QString)' def doit() emit testEmitSignal("Hello DCOP Slot") end - Connect slot 'mySlot' to a DCOP signal like this: res = slottest.connectDCOPSignal("dcopsignal", "SenderWidget", "testEmitSignal(QString)", "mySlot(QString)", true) - Use the '-kde' option with the rbuic tool to require the 'Korundum' extension rather than the 'Qt' one. If the '-x' option is used in conjunction, it generates a KDE top level. For example: $ rbuic -x -kde knotifywidgetbase.ui -o knotifywidgetbase.rb Will generate this top level code: if $0 == __FILE__ about = KDE::AboutData.new("knotifywidgetbase", "KNotifyWidgetBase", "0.1") KDE::CmdLineArgs.init(ARGV, about) a = KDE::Application.new() w = KNotifyWidgetBase.new a.setMainWidget(w) w.show a.exec end