|
Volume Number: | 6 | |||
Issue Number: | 12 | |||
Column Tag: | The Cross Developer |
NeXT for Mac Programmers
By C. Keith Ray, Irving, TX
NeXT programming for Mac Programmers
Object oriented programming is a hot topic in the press recently, but people in the industry even now may not understand what all the excitement is about. I am a Macintosh programmer who has lately been developing an application on the NeXT cube, which is today the only machine for the mass market that requires programming in an object-oriented language. (Of course, traditional text-based Unix programming can be done in standard C.) And while it isn’t strictly required, NeXT strongly encourages the use of Interface Builder, a kind of “resource editor” for linking together the objects that comprise a NextStep-using application. Object-oriented programming is, in its simplest explanation, a way of structuring code in a manner somewhat different from the usual methods of structured programming. However, it turns out that dynamic allocation of objects, polymorphism, and inheritance give object-oriented programming a new kind of power that is hard for a traditional programmer to imagine.
An object-oriented language, no matter how well designed, is not of immediate benefit to its users unless a good object-library comes with it. The NextStep library is written in NeXT Inc.’s version of Objective-C; it goes far beyond the minimal library that come with commercial versions of Objective C for other computers. As a very rough estimate, I would say that NextStep has all the functionality of MacApp plus more features, but at a higher level of abstraction (with perhaps less freedom of customization). Not having used MacApp (I’ve only read about it), I can not comment further in this comparison.
The typical method of programming on the NeXT starts with Interface Builder. Starting a new project, you are given a default window with resize, miniaturize, and close controls, a default menu containing a few items, and a default panel for displaying copyright information. Interface Builder has a palette containing selections for additional defined and undefined menu items, panels and windows, and different kinds of controls: buttons, sliders, scrolling-fields, text-fields, etc. You can create custom versions of Interface Builder with additional palette objects. (Panels are windows that would be used as modal or modeless dialogs.) A menu item brings up a an inspector window, which can be used for managing the project’s files as well as textually modifying selected objects. Using Interface Builder is fairly easy for any Mac programmer already familiar with ResEdit, Prototyper, etc., though this program does not have the most straight-forward user-interface. It can be rather frustrating at first, and tedious as your skill grows.
Prototyper on the Macintosh allows linking buttons and menu items to dialogs and windows, to provide a minimal amount of control -- opening or closing windows and dialogs is about all you can do. Prototyper can also be used to generate an editable resource file and C or Pascal code for handling dialogs, windows, scroll bars (with some bugs in the version I used), menus, etc. You can then use that code as the framework for your own programming, and you can rewrite the code as needed. Interface Builder doesn’t work as a code generator in the same manner as Prototyper. It creates a “.nib” file for your project, which seems to hold the data required for the windows, menus, etc. No specifications for the format of the “.nib” have been published as far as I know. (I suspect that Interface Builder takes advantage of archiving methods implemented by all the AppKit classes.) During the link-step of compiling to an executable, data from the “.nib” is put into a mach-file-segment. Mach-file-segments may also hold the bitmap data from TIFF files to be used as icons and pictures in and for the application. The code generated by IB only contains instance variables that will refer to the objects you have used (menus, buttons, whatever), methods to initialize those instance variables, and a main program stub that creates the application-object, tells it to read in the data from the “.nib” segment, and starts it running. You can also write code to dynamically load in .nib files, allowing multiple instances of the same objects. In something almost approximating a SmallTalk browser, you can have Interface Builder generate the Objective-C declarations in a header file for a custom object class.
A major difference between Mac programs and NeXT programs is in the event-handling structure. On the Mac, you have a top-level routine (often the main program) that calls GetNextEvent or WaitNextEvent and branches through a switch or case statement to decide on which routine should handle the most recent event according to the current program state. On the NeXT, you normally create at least one custom object, often a subclass of View, which you link via interface builder to the user-interface objects. When you make the link, you specify what method the object should call in your custom object. If your custom object has not already inherited a definition for that method, then you have to write the code for that method. An example is linking a button named “Launch Rockets” to your custom-view, calling the method “rocketlaunch:sender”. Another example would be to link the menu item “Print” to your custom view, calling the inherited method “PrintPSCode”. The way events reach your code is kept behind the scenes: the application object gets events from the event-queue in a manner similar to the Macintosh, it also knows which windows it has and forwards appropriate events to those windows. The windows forward events to whatever internal objects they know about, and so on through the hierarchy of views and subviews of windows. Eventually an object receives an event that it knows how to handle, and it calls a method to perform the appropriate action. The only code you write are those methods to be called by the user-interface objects. The only time you need to write code for checking events is when you are doing animation, or tracing mouse movements in real time.
The source code example is an example of an Objective C program that could be expanded into an arcade game. The main program merely gets the ball rolling, so to speak -- the RocketView class is essentially the entire program. Note that the program is completely passive, it only responds to events, and in this case the events are the initial-window-exposed event, clicking in the launch-rockets button, and choosing Print from the main menu. If you want your program to do something in the absence of events, such as animating the missiles while waiting for other button-presses, you will have to create timer-events to start up and/or continue your animation-loop. The BreakApp example program that comes with the NeXT uses an “Animator” object that simplifies creation of these timer-events, and can also be used to check if a non-timer event has occurred.
Something that old-world (PC, mainframe) programmers may have a very difficult time understanding, is that methods are not separate processes. (You can write code C code to use multiple MACH threads, semaphores, etc., but that depends on operating-system calls not related to Objective-C.) You generally cannot have a method continuously executing and also have other methods respond to external events. Nor are methods like interrupt-routines. You cannot have a method which will be continued automatically after an another method interrupts it. It is possible to poll for events in the Macintosh fashion, and go through a switch or case statement for handling events, but then you can not use Interface Builder to link user-interface objects to call methods in your code, and you lose the other benefit of having the pseudo-resource-file that Interface Builder provides.
The compiler on the NeXT is the GNU C compiler, customized by NeXT to compile Objective-C directly instead of using a preprocessor. The debugger is GNU’s symbolic debugger “gdb”, which uses a command-line syntax and runs under the Shell. The debugger is about as powerful as the THINK C and THINK Pascal symbolic debuggers, though much more inconvenient. Because of the Free Software Foundation’s CopyLeft agreement, you can obtain the source code of the compiler, the debugger, and EMACS, with NeXT’s modifications, for $150 plus an magneto-optical disk.
All in all, the NeXT environment reflects the desire to provide a Macintosh-like interface without duplicating the Macintosh’s difficulty in programming. The goal of making NeXT programming easy to learn and powerful at the same time, has been met with the NextStep object library and Interface Builder. The downside, just like Apple, is that you have to follow the rules.
Next’s Application Kit, Sound Kit, and Music Kit, and Base Objective-C object classes, in alphabetical order with inheritances listed -- all are ultimately descended from Object.
ActionCell : Cell Application : Responder Bitmap Box : View : Responder Button : Control : View : Responder ButtonCell : ActionCell : Cell Cell ChoosePrinter : Panel : Window : Responder ClipView : View : Responder Conductor Control : View : Responder Cursor : Bitmap Envelope FilePerformer : Performer FileWriter : Instrument Font FontManager FontPanel : Panel : Window : Responder Form : Matrix : Control : View : Responder FormCell : ActionCell : Cell HashTable Instrument List Listener Matrix : Control : View : Responder Menu : Panel : Window : Responder MenuCell : ButtonCell : ActionCell : Cell Midi Note NoteFilter : Instrument NoteReceiver NoteSender Object (root class) OpenPanel : SavePanel : Panel : Window : Responder Orchestra PageLayout : Panel : Window : Responder Panel : Window : Responder Part Partials : WaveTable PartPerformer : Performer PartRecorder : Instrument Pasteboard PatchTemplate Performer PopUpList : Menu : Panel : Window : Responder PrintInfo PrintPanel : Panel : Window : Responder Responder Samples : WaveTable SavePanel : Panel : Window : Responder Score ScoreFilePerformer : Fileperformer : Performer ScoreFileWriter : FileWriter : Instrument ScorePerformer ScoreRecorder Scroller : Control : View : Responder ScrollView : View : Responder SelectionCell : Cell Slider : Control : View : Responder SliderCell : ActionCell : Cell Sound SoundMeter : View : Responder SoundView : VIew : Responder Speaker Storage StreamTable : HashTable SynthData SynthInstrument : Instrument SynthPatch Text : View : Responder TextField : Control : View : Responder TextFieldCell : ActionCell : Cell TuningSystem UnitGenerator View : Responder WaveTable Window : Responder
program file RocketApp.m /* The main program ( RocketApp_main.m ) */ #include <appkit/appkit.h> #include <stdio.h> int main(int argc, char * argv[]) { id app; app = [ Application new ]; [ app loadFromNibFile: “RocketApp.nib” ]; [ app run ]; /* this loops until Quit selected. */ [ app free ]; exit( 0 ); }
-- the header file RocketView.h -- /* FILE = RocketView.h */ #import <appkit/appkit.h> #define MAXMISSLES 5 @interface RocketView : View /* subclass of view */ { /* all instance variables are private by default. */ NXPointmisslePositions[MAXMISSLES]; BOOL misslesLaunched; int numRockets; /* we could have created an array of missle objects and allowed more flexibility in modifying this program later... */ idBlaunchRockets; /* launch rocket button */ idIFnumberRockets; /* input text field = a Form object */ } + newFrame: (const NXRect *) frameRect; /* override View’s default newFrame method - this is a “factory method” for creating instances of the class. */ - updatedrawing; /* draws the missles in the view -- an “instance method” */ - drawSelf: (const NXRect *) rects : (int) rectCount; /* override View’s default drawing method -- we don’t call this directly. “drawSelf::” gets called when the window/view objects are first displayed, and at certain other times, such as in response to the “printPSCode:” message. By properly defining this routine, the program can automatically support printing as well as displaying -- so long as you don’t use certain Display PostScript extensions, such as compositing bitmaps! */ - setBlaunchRockers:anObject; /* created by interface builder */ - setIFnumberRockets:anObject; /* created by interface builder */ /* “setBlaunchRockers:” and “setIFnumberRockets:” are required by Interface Builder and the application object’s “loadNibFile:” methods -- these link the button and form objects specified in Interface Builder with the id-variables used in your code. */ - rocketlaunch:sender; /* in this program, the sender will always be the button named “Launch Rockets” and this routine will be called when the user clicks in this button object during execution of this program */ @end
-- program file RocketView.m -- /* FILE = RocketView.m */ #import <appkit/appkit.h> #import “rocketview.h” @implementation RocketView : View { /* repeating the instance-variables part of the object declaration is not required by the syntax, but it is permitted and checked to match the interface declaration, and I think it is a good idea for documentation purposes. */ NXPointmisslePositions[MAXMISSLES]; BOOL misslesLaunched; int numRockets; idBlaunchRockets; /* launch rocket button */ idIFnumberRockets; /* input text field = a Form object */ } + newFrame: (const NXRect *) frameRect /* override View’s default newFrame method */ { int i; self = [ super newFrame: frameRect ]; /* change self to point to the newly created object-instance, instead of pointing to the rocketView Factory object. */ numRockets = 0; for ( i = 0; i < MAXMISSLES ; i++ ) { misslePositions[i].x = (1+i) * 10; misslePositions[i].y = 10.0; } misslesLaunched = NO; [self setFlip: NO]; /* keep 0,0 at lower left corner of view */ [self allocateGstate]; return self; } - updatedrawing /* draws the missles in the view */ { int i; [self lockFocus ]; if ( misslesLaunched ) { for (i = 0; i < numRockets - 1; i++ ) { /* draw Very simple missles -- not even animated! */ PSmoveto( misslePositions[i].x, misslePositions[i].y ); PSlineto( misslePositions[i].x, misslePositions[i].y + 10.0 ); PSstroke(); } } NXPing(); /* NXPing forces the window manager to update the view on screen -- flushes the postscript pipeline */ [self unlockFocus]; return self; /* if nothing else, tradition says return self */ } - drawSelf: (const NXRect *) rects : (int) rectCount /* override View’s default drawing method */ { /* ignore the rectangles which could be used for limiting the amount of drawing required. */ [ self updatedrawing ]; return self; } - setBlaunchRockers:anObject /* created by interface builder */ { BlaunchRockers = anObject; return self; } - setIFnumberRockets:anObject /* created by interface builder */ { IFnumberRockets = anObject; return self; } - rocketlaunch:sender /* in this program, this sender will always be the button named “Launch Rockets” and this routine will be called when the user clicks in this button object during execution of this program */ { int i; if ( ! misslesLaunched ) { misslesLaunched = YES; i = [ IFnumberRockets intValueAt: 0 ]; /* get the number of rockets from the string contained in the Form. We specified an initial default value with Interface Builder; at any time before pushing the button, the user could change the text to any string. If an integer can not be parsed from the string, we get zero as the value. */ if ( i <= MAXMISSLES ) { numRockets = i; } } else { NXBeep(); } [ self updatedrawing ]; } @end
List of trademarks
NeXT, NextStep, Interface Builder, Application Kit, Music Kit, and Sound Kit are a trademarks of NeXT, Inc.
Display PostScipt, and PostScript are trademarks of Adobe, Inc.
Unix is a trademark of AT&T.
GDB, GNU C, and GNUemacs, are trademarks of the Free Software Foundation.
Prototyper is a trademark of Smethers-Barns.
Macintosh is a trademark licensed to Apple Computer, Inc.
MacApp is a trademark of Apple Computer, Inc.
- SPREAD THE WORD:
- Slashdot
- Digg
- Del.icio.us
- Newsvine