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=head1 OVERVIEW
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This document describes how to write puke addons and additional
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widgets. It assumes a good knowledge of C++, perl and X/Qt workings
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under Linux.
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=head1 1. Description and Background
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=over 6
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Puke's a generic protocol allowing dsirc to communicate with ksirc.
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Communications works over a unix domain socket between multiple
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client dsirc process's to a single ksirc process. All communications
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is done via a variable length message with the following tqlayout:
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=begin text
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struct PukeMessage {
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unsigned int iHeader;
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int iCommand;
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int iWinId;
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int iArg;
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int iTextSize;
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char *cArg;
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}
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=end text
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None of the fields except for iCommand, iWinId and iHeader have any restrictions
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on their content and may contain arbitrary values. iCommand and iWinId must
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contain an int and it used by ksirc to determine the destination and
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handler of the actual command. (and of course it's meaning). iHeader is a
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fixed pattern used to identify the start of a header message should it loose
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syncronization. The current pattern used it 2863311530, which is:
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10101010101010101010101010101010.
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=item Internal handling by kSirc:
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Messages are received by a generic handler, PukeController where the message
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is passed to the iWinId's messageDipatcher for final processing. The
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iWinId of 1 through 10 are reserved for internal use, and 1 is
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currently set at the window ID for the PukeController itself.
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Connect a signal to PukeControllers writeBuffer (signal's generally
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called outputMessage) and pass the fd and PukeMessage to be sent to
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the client. No parsing of the output message is done.
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=item Internal handling by dsirc:
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All received messages are handled by an internal callback methods. 3
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sets of callbacks are checked for handlers in the following order:
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$PUKE_HANDLER{$cmd}{$winid}
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$PUKE_HANDLER{-$cmd}{$winid}
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$PUKE_DEF_HANDLER{$cmd}
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If no handler is found an error is printed.
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Output is handled by the PukeSendMessage function. PBase defines an
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alternate routine sendMessage which should be a lot friendlier.
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=head1 2. How to create a new widget
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There are 2 parts to creating a widget, the C++ code and the
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supporting perl5-oop object.
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=head2 2.1 C++ Widget code
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The C++ code must be able to hand all required settings and messages
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for the widget. Each new widget iherites it's parent and so forth
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allowing for a nice oop tqlayout. The widget structure the author is
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following is the same as Qt's. Their seems to work well, why
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re-invent the wheel?
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=item 2.1.1 General Layout, etc
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Figure where your new widget goes in the heirachy. If it's a simple
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Qt widget, I recommend using their existing tqlayout. Man pages list
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what widgets inherit what.
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The general idea behind the widget tqlayout should be to be to provide
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all the functionality of the widget to dsirc perl script. Incoming
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messages are handled via the messageHandler and ALL messages should
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return an ACK with current state info.
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New widgets are created as shared objects and loaded on the fly. This
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means you don't need to recompile ksirc to use new widgets etc.
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Generally you'll have to inherit PWidget at a minimum.
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Functions you HAVE TO overrite:
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B<1. createWidget>
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This function creates a new widget of your type and returns a
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*PWidget.
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B<2. messageHandler>
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This function receives ALL your commands.
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B<3. widget() and setWidget(YourWidget *)>
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These set and return your widget.
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If you care about inheritance, which you should, all these functions
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should be virtual. (Since we are using pointers to PWidget's
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everywhere, it's a good bet you want your tqchildren's overriden
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functions called, not yours)
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The structure internally will have to hold a local copy of the widget,
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and connect to it's destroy signal so you can know when it has been
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destroyed.
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=item 2.1.2 createWidget
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createWidget is defined as:
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PWidget *createWidget(widgetId *pwi, PWidget *parent);
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It is called everytime a new widget of yours is required. The
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widgetId will be the identifier for your widget and must be kept for
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all future commands. PWidget::setWidgetId(pwi) should be called to
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set the widget id. The *parent is the parent of the current widget.
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Generally PWidget->widget() is passed to the contructor of your
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widget. If it's 0, there is no parent. Simeplfied code for a the
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PFrame is:
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=begin text
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extern "C" {
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PWidget *createWidget(widgetId *pwi, PWIdget *parent);
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}
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PWidget *createWidget(widgetId *pwi, PWIdget *parent){
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QFrame *f;
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PFrame *pf = new PFrame(parent);
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if(parent != 0){
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f = new QFrame(parent->widget());
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}
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else{
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f = new QPFrame();
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}
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pf->setWidget(f);
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pf->setWidgetId(pwi);
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return pf;
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}
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=end text
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Note: you have to check parent for null since calling NULL->widget()
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results in Bad Things (tm).
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=item 2.1.3 messageHandler
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This receives all commands, etc. It should process required commands,
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if a command is unkown pass it to the parent. PFrame example:
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=begin text
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class PFrame : public PWidget
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...
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void messageHandler(int fd, PukeMessage *pm);
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...
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void PFrame::messageHandler(int fd, PukeMessage *pm) {
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PukeMessage pmRet;
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switch(pm->iCommand){
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case PUKE_QFRAME_SET_FRAME:
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widget()->setFrameStyle(pm->iArg);
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pmRet.iCommand = PUKE_QFRAME_SET_FRAME_ACK;
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pmRet.iWinId = pm->iWinId;
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pmRet.iArg = widget()->frameStyle();
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pmRet.cArg[0] = 0;
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emit outputMessage(fd, &pmRet);
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break;
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default:
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PWidget::messageHandler(fd, pm);
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}
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}
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=end text
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=item 2.1.4 widget and setWidget
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Both these functions should be overriden and return your widget type,
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and set your widget. For setWidget you should connect required
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Q_SIGNALS and eventFilters you are using.
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Make sure to call the parents setWidget in setWidget so it can connect
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filters etc.
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BEWARE: You might get the widget into setWidget being null (from the
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destructor).
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Another PFrame example (APE ;) ):
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=begin text
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void PFrame::setWidget(QFrame *_f)
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{
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frame = _f;
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PWidget::setWidget(_f);
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}
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QFrame *PFrame::widget()
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{
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return frame;
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}
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=end text
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=item 2.1.5 Destructor
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Ok, unfortunaly since we have this internal widget floating arround
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the destructor has to a little maigc.
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Call the destructor as such:
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delete widget();
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setWidget(0);
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This will clear the widget from now and all parents and delete it.
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you never want it deleted twice. (deleting 0 won't hurt)
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=head2 2.2 The Perl code
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Most of the perl oop is pretty straight forward, command simply issue
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a require sendMessage and off everything goes. There's one problem.
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You can't get information back on the current read cycle. Huh? I can
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hear most people saying. It means say someone wanted to do $widget =
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$widget->height() and you didn't have the height information locally,
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there's no way to get the information and return it to them. Why? You
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issue a sendMessage(...) but until dsirc returns to the main select()
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loop, we never know there's more to read. We can't return to the main
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select loop until we return from our current function. What does this
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mean? We have to store all the information locally.
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This also brings up another intresting aspect. Sometimes a widget may
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depend on a prior command before it can complete. This is the purpose
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of canRun function, and onNext. It's use will have to be explained
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latter.
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To help with this problem, pbase.pm sets up a fairly complicated set
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of message and event queues. Be warned when you issue a sendMessage,
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it might not get sent right away.
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I'll provide example bellow of how I've done certain functions, this
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is certainly not the only way to do it. Feel free to use any format
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you like aslong as it get's the job done.
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Ok, so how do we do this?
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=item 2.2.1 Perl oop? where do I start?
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Read the perltoot and perlobj man pages.
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=item 2.2.2 What to inherit etc.
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You probably want to inherit the same object as your C function does.
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At very least you'll want to inherit PWidget.
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=item 2.2.3 new and DESTROY
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Your new function should look something like (APE?):
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=begin text
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sub new {
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my $class = shift;
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my $self = $class->SUPER::new($class, @_);
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$self->{widgetType} = $::PWIDGET_FRAME;
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if($class eq 'PFrame'){
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$self->create();
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}
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return $self;
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}
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=end text
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$self is the blessed variable and it returned from the super class.
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You should always do it this way. Setting widgetType defines the type
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of widget, and needs to be set before calling create.
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If we are creating an object of our own class we call create() which
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acutally sends out the correct creation messages, etc. You can
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override the create function, but do be warned it might not be a good
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idea. Make sure you understand what and how it does it first!
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=item 2.2.4 sendMessage
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sendMessage is the main form of communicating with kSirc. Generable
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arguments are:
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=begin text
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sendMessage('iCommand' => command number,
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'iArg' => interger argument,
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'cArg' => character string,
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'CallBack' => pointer to sub, generally sub{...}
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);
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=end text
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You'll note it's a hash so order doesn't count. The callback is a 1
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shot call back (should be) so don't count on it getting hit twice.
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The call back's first argument will be a \%ARGS with the return
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arguments.
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=item 2.2.5 Final notes on perl
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Most of the function calls will just send out messages, etc. For call
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backs the general form I've found works well is: sub {$self->blah()}.
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=head1 3. Interfacing with the kSirc's main windows and functions
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NOT implemented yet.
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=back
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