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Quick Start

The purpose of this file is to provide just the basic information you need to experience a taste of the PowerMops Integrated Development Environment. Also, if you scroll down far enough you will find a message from Mike Hore, the creator of PowerMops, and release notes pertinent to this version of PowerMops.

This file is not a tutorial on Forth or programming. Nor is it a tutorial on Object Oriented Programming. These in-depth topics are covered in the full manual <>

Don't worry if you make a typing mistake that deletes some of the text from this file. You can always start over by reopening the 'Open Me First" file because it is a read-only file.

Let's Get Started

You should be reading this in QuickEdit, which is the source code text editor for Mops. If you aren't, then close this file and re-launch it from the Finder. Make sure it is opened with QuickEdit.

Next make sure PowerMops is running. You should see the PowerMops window on the left side of your screen. This QuickEdit window will be on the right side of your screen. Make sure the windows are positioned so you can see them both at the same time. Some overlap is not a problem.

If you just type text and press <return> then QuickEdit simply behaves as you would expect any text processor to behave. HOWEVER, part of the true power of QuickEdit is that you can execute Mops code directly from the editor! Here's how.

Place the cursor at the end of the following line and press <enter> (If your keyboard does not have an enter then press <shift-return>).

cr ." Hello World!"

In the PowerMops window you should see the ubiquitous phrase. What happened? When you pressed the <enter> key you executed the entire line in which the blinking cursor resides. Had you hilited some text instead, then JUST THAT HILITED TEXT would have been executed. This is how you can easily execute multiple lines of text or just portions of text. Try hiliting the following three lines, all three lines at the same time, and executing them by pressing <enter>:

cr ." Now is the time"
cr ." for all good people"
cr ." to come to the aid of their country."

Now go back and hilite just ' ." for all good people" ' (be sure to include the ." and the ending ") in the second of the three lines above. Do not hilite the 'cr' at the beginning of the line. Press <enter>.

You will notice that the text was added to the existing text in the Mops window without moving to the next line. This happened because we omitted the 'cr'.

Now place the cursor at the end of the next line and press <enter>.

33 45 +

Again, the output will appear in the Mops window. But this time the output is numeric, so the result of adding 33 and 45 is left on the stack (78). Note that the Mops window will display the contents of the stack in the upper area of the Mops window. The depth of the stack is also shown (in this case depth = 1). You can clear the stack by pressing command-0. You can clear the contents of the Mops window by pressing command-2. Try doing both now. (You can ignore the momentary flash of "stack underflow").

Now let's try something a little more interesting. Execute the following line:

window w test: w

You will see that a new window has been created, its title is 'Test'. This is actually a window "object" named 'w'. We won't talk much about objects here except to mention that objects make programming with Mops very easy and very powerful.

Now execute the following:

30 50 MoveTo  ." Hello World!"

You will see our 'Hello World!' displayed in your Test window.

Try clicking on your Test window. Notice that it behaves pretty much as any window should. You can resize it, move it, and close it by clicking in the red close button. Do so now (close it) and then return to this window.

It should be mentioned here that you could type or copy/paste the code that you executed directly into the PowerMops window. Pressing <enter> in the PowerMops window behaves exactly as it does in the editor window. It will execute either the entire line or just the hilited text. At times you may find this way of using Mops preferable (we offer lots of options!). Also, Mops will automatically "remember" any text, either input or output, that is left in the Mops window. Mops will automatically restore that text the next time you launch Mops.

Now for something a bit fancier. The following OpenGL demo will only work if you are running OSX. If you are running OS 9 then skip on down to the CurvesDemo.

PowerMops can be used to take full advantage of the OpenGL Framework graphics package. Click on the following line and execute it by pressing <enter>.

// OpenGLDemo1

You will see the PowerMops window indicate that it is loading some files.

Then you will see a window in which a 3D Teapot is drawn. Try clicking on the window and then pressing the following keys to activate some action.

switch between animation Start and Stop (a little complex rotation).
Change the Object drawn ( among 8 models).
Change the Color of the object (red blue green).
Change Background color.

Click on the Window's content area

  • when animation is stopped
    • you can drag the model with the mouse.
  • when animation is running
    • you can change the animation speed.

When done click the close box of the OpenGL DEMO Window.

Here is a graphics demo that will work on either OS9 or OSX. Click on the following line and execute it by pressing <enter>.

// CurvesDemo

Click on the "Curves" window that appears. Try different control settings in the Curves window. Also try the four different kinds of curves available from the Graphics menu. When done close the window.

Now, AT YOUR OPTION, you can have PowerMops direct textual output back into the QuickEdit window. Using the mouse, click in the very lower left corner of the QuickEdit window. A "C" should appear. This means the QuickEdit window will now function as a Console window for Mops.

Let's try executing some of the same code as before to see what happens when the editor window is set to Console mode:

Place the cursor at the end of the following line and press <enter>:

cr ." Hello World!"

33 45 + .

The output is redirected right back into the QuickEdit window! This can be very handy for recording the results of an interactive programming session. Also note that after executing some code the word "ok" will be printed in the QuickEdit window to let you know that execution was successfully completed. Often you may not want your source code "messed up" like this. In those cases you should turn the Console mode off. Click on the "C" in the lower left corner. You can still observe your output in the Mops window.

This is the end of the Quick Start section. At this point you can stop and do whatever you like, such as experimenting with Mops on your own, or begin reading the manual, or whatever. If you want to read a message from the creator of Mops, Mike Hore, then keep reading. Additionally, if you want to read a summary of what is new with this version of PowerMops then keep on reading after that.

A Message from Mike Hore, the author of PowerMops

This is Mops 6.0, of June 2006.

This version only supports Power Macs. 68k Macs are supported by Mops 4.0.4, which is available via the web site: <>

This version of the release is already fully built, so you can go right ahead and run PowerMops. Normally you should never need to re-build PowerMops from the basic 68k Mops nucleus, which is now not even included with this distribution.

Especially, beginners should never need to do this. But if you should need to for any reason, the instructions are at the start of the manual.

You should have a folder called "PowerMops 6.0". In this folder there should be three files and nine folders. The three files are this file "Open Me First", and the demo files "OpenGLDemo1" and "CurvesDemo". The folders are "CFM-32bit", "CFM-64bit", "CocoaCalls Demo folder", "Demo folder", "MachO-32bit", "MachO-64bit", "Mops Source", "OpenGLDemo folder", and "Quick Edit ƒ".

The "release notes" information is contained below in this file and is mainly aimed at current Mops users, and describes the main features of this release that differ from previous releases.

"CFM-32bit" contains:

      • The standard 32-bit PowerMops application (PowerMops).

"CFM-64bit" contains:

      • The standard 64-bit PowerMops application (PowerMops). You must have a

G4 or better processor to use this.

"Mops source" contains all the other Mops source files (of course!!)

The folder "Demo folder" contains the source for the Demo application that is described in the Mops tutorial in the manual. I used to bundle this with the manual, but I now think it's more logical in "Mops source".

The folder "OpenGLDemoFolder" contains the source for Nao Sacrada's OpenGL demo which runs under OSX.

The folder "CocoaCalls Demo folder" contains the source for Nao's implementation of calls to Cocoa functions written in Objective-C.

"Quick Edit ƒ" contains Doug Hoffman's Quick Edit text editor which communicates with Mops via Apple events, and related files.

If you don't alter the folder configuration as supplied, things should work. Likewise you shouldn't have any problem if you put everything, as is, into a containing folder. However if you do want to change the configuration more significantly, you will need to edit the file "Mops.paths" in the "Mops ƒ" folder - this defines the HFS paths that Mops will use to look for files.

If you need floating point, fire up PowerMops and type

// zfloating point

Yes, that's "floating point" with a z in front.


Documentation for freeware products sometimes struggles  :-)

Mops is no exception, however now that the documentation is in wiki format and is part of the PowerMops SourceForge project, there's more chance that it will be kept up to date. See:


The online wiki manual contains a step-by-step tutorial for Mops beginners.

So, good luck, and if you're already a Mops user, please read the release notes to find out all about the new features.

As always, I hope you enjoy Mops/PowerMops!

Mike Hore        email:

 Mops web page:            <>
 SourceForge project page: <>
Darwin, Northern Territory, Australia.     Right about here ->   _*-_|\
                                                               /      \


Here is the usual "release notes" describing the changes from the previous Mops versions, so that those already using it don't have to wade through all the documentation.

The date of this release is June 2006. If you've received it more than three months later, it might be an idea to check the Web site to see if there's a later version.

The big changes from the previous version (5.6) are:

  • 64-bit arithmetic is supported.
  • Mach-O executable format is supported.

64-bit support

To use the 64-bit features, you obviously must be running on a 64-bit machine -- basically a PowerPC G5. To access the features, simply fire up one of the 64-bit versions -- either PEF (the "traditional" MacOS format) or Mach-O.

Stack cells are 64 bits wide in these versions. All arithmetic is done with 64-bit instructions. The number input and output instructions all handle the 64-bit stack cells.

The following new words and classes are added:

z@  ( addr -- n )      Fetches 64-bit value at address.  
z!  ( n addr -- )      Stores 64-bit n at address. 
zValue  ( n --  :  name )  A 64-bit value.  The word Value
remains at 32 bits, but sign-extends when fetched.
uValue  ( n --  :  name )  "Unsigned value".  A 32-bit value, 
which zero-extends when fetched.
Class Var, similarly to Value, remains at 32-bits but 
sign-extends when fetched.  The expected two new classes
are added:
zVar		64-bit version of Var.
uVar		Unsigned 32-bit version of Var.

The shifts << >> and a>> work on full stack cells, and so are 64-bit operations in these versions. If you need a specifically 32-bit shift, use h<< h>> and ha>> ("h" for half-length). These operations CLEAR the high 32 bits.

In the 32-bit versions h<< etc are also defined, but are the same as << etc. This way you can avoid conditional compilation if you are writing bit-twiddling code that needs to run in both 64- and 32-bit versions.

However, you will probably have some other situations where your code has to be sensitive to stack cell size. A constant 64bit? is defined, which is set true in the 64-bit versions and false in the 32-bit versions. You can use this constant for conditional compilation, e.g.

: fetch_whatever  ( addr -- n )

[ 64bit? ] [if] z@ [else] @ [then]  ;

There are plenty of more sensible examples in the code generator itself -- the source code is in the "PPC source" folder.

Mach-O support

To use the Mach-O executable format, you must be running under OSX. Then, simply fire up one of the Mach-O versions -- either the 32- or 64-bit version. When you install an application, it will be in Mach-O format.

Running under Mach-O is basically the same as running under CFM (Code Fragment Manager, the "traditional" format for MacOS code). The changes are mainly at a very low level, and we have tried to make them transparent to anyone writing "normal" programs. The main changes involve the detailed implementation of callbacks (from the system to your code), but they don't change the Mops syntax in any way.

A note about Intel Macs

Since these are now with us, and PowerMops generates PowerPC machine code, inevitably the question is going to come up as to whether native code on Intel Macs will be supported.

No, it won't. PowerMops will run as it always has, under Rosetta (which allows PowerPC code to run on Intel Macs), but to run natively the code generator would need to be rewritten to target the Intel architecture. This could be done, since it's written in Mops, but would take a lot of time. Adaptation to another RISC-style architecture could be done in a fairly straightforward way. The Intel architecture, however, is basically early-1980s vintage and is CISC, not RISC. Adaptation would be, let's say, exciting and challenging. And take even more time A LOT of time. It's not time that I have any enthusiasm whatever for putting in, especially as I strongly dislike the Intel architecture.

So, if anyone wants to volunteer for this, you're very welcome, and I'll be the first to cheer you on!

The remainder of these release notes are taken from earlier 5.x releases, so if you're upgrading from a much earlier version you can see what changes have been made.


Mops 5.6 added several new features to Mops 5.5. These are largely due to Nao Sacrada and Doug Hoffman, to whom we're all indebted for a great job.

Here's a summary, then the details, where needed, are below.

  • Under OSX, you can now directly call routines which are part

of Cocoa and written in Objective-C.

  • The Navigation Manager support has been updated. See below for

the documentation.

  • Menus have been updated for the new NIB-based Carbon API.
  • New syntactic features -- cascaded messages and right arrow


  • A new value, OSX? which is true if we're running under OSX.
  • A new operator LEADING_ZEROS has been added.
  • A code generation problem has been fixed, in which you could

get an internal dump caused by register allocation running out of registers, in compiling complicated code with many conditionals.

  • You can now late-bind in interpretation mode -- this had

inadvertently been unimplemented!

  • Class Window now has a new public ivar, windowClass. This

is set to kDocumentWindowClass at classinit: time, and is used to set the window class at new: time. You can use it to set the window class to whatever you like before you do new:.

Objective-C calls

Note: this is NOT an implementation of Objective-C language faculties. It merely makes it possible to link to Objective-C classes and methods already implemented and compiled into libraries, which means we can't define a new Objective-C (sub)class or its methods.

For a working demo, see the CocoaCalls Demo folder" in "Mops source". The ReadMe file there describes how to use it to create an instant web browser!

You set up Objective-C calls this way. If you are familiar with the syntax for calling shared libraries and know some Objective-C, this should be quite intuitive.

need  CocoaCalls	\ load the file you need

@class  myClass		\ declares a class

+M method1withparm1|parm2|parm3 { parm1 parm2 %parm3 -- result }

\ declares a class method. \ Parameters are specified exactly as for shared libraries.

-M method2 { ... }	\ declares an instance method.

The method names are the same as the methods you want to call, except that you put "|" in place of ":" in the Objective-C method name, and you don't split the name and intersperse the parameters as you do in Objective-C. Rather, you use the normal shared library convention to specify parameters. Note these method name/parameter combinations are not class-specific in Objective-C.

Now to call one of these methods you have declared, you must do it from within a method of one of your own classes, which must be subclassed from NSMetaObj. This provides the Objective-C runtime system with a proper receiver for the message, since NSMetaObj specifies the basic ivars that the Objective-C runtime expects.

At runtime, for a class method, you need to ensure that the ivar class-id has been set to the ID of your class as declared with @class above. The new: method in NSMetaObj does this for you, so if your class has a new: method, the easiest approach is for this to include new: super. Otherwise you can do it explicitly yourself.

For example:

:class myObjCclass  super{ NSMetaObj }
:m init:					\ set things up explicitly

myClass class-id ! \ class-id is an ivar of NSMetaObj

:m new:

... new: super \ does "myClass class-id !" for you, \ also allocates obj-C object of the class \ and stores the pointer in obj-id, another \ ivar of NSMetaObj ...

:m someMethod:

.... method1withparm1|parm2|parm3


When you call an Objective-C method from within your class in this way, the receiver of the message is passed automatically for you. Only the items which are the actual parameters of the message need to be placed on the stack.

Note, at present, you can't execute an Objective-C method in interpretation mode -- it must be within a compiled method of a class descended from NSMetaObj. If you try to type an Objective-C method and just execute it, you'll crash.

Methods prototyped to return a structure don't really return a long structure itself, of course. In Mach-O/Cocoa convention, for a method of this type we must pass as the leftmost parameter the pointer of the memory frame for the structure to be returned. Then the method will make up the content of the passed structure on return. That is quite parallel to a C function to return a structure, the description of which is on a tip page in Art's "Mops on the Web" site.

In CocoaCalls, the pointer of the structure is distinguished by "*" at the top of the parameter name in the declaration. For example, if an instance method "getFrameRect:" is prototyped as

[imaginary code-begin]

(NSRect)getFrameRect:(NSWindow *)wind

[imaginary code-end]

We must declare it like

[imaginary code-begin]
-M getFrameRect| { *framerect wptr -- }

[imaginary code-end]

(Of course, we must pass a pointer of a NSRect structure as the first parameter to it.)

In reverse, on declaring Objective-C method we can not use a parameter's name beginning with "*" for the leftmost parameter except for the case of "stret" method. Because, if the leftmost parameter name begins with "*", Mops will interpret the method as a "stret" method.

In reality a parameter to be passed is a pointer, so "*" is misleading from its meaning in C language family. I thought "^" is better. But "^" is relatively frequently used in parameter names, so I avoided giving the symbol a special meaning.

Nav manager support

Read Me for new NavFile classes.

Aug. 04 N.S.

New "File" class supports Mode-less and window-modal Navigation Dialog too. "FileX" class supports additionally long unicode file names. Unfortunately, these may work only Mac OS X. On Mac OS 9, you should use normal "Navget:" or "Navput:" as before.

The Usages are :

File ff \ I implemented it as a feature of File class.

\ if you need long unicode file name, use FileX class.

128 NavGet: ff
\ NavGet: ( resID -- b ) -usual application-modal Open file Dialog

" undefined" NavPut: ff
\ NavPut: ( addr len -- b ) -usual application-modal Save file Dialog

128 windowref NavGetWM: ff
\ NavGetWM: ( resID windowref -- b ) - window-modal Open file Dialog
\ Windowref shall be the parent window's windowref (windowpointer).

" undefined" windowref NavPutWM: ff
\ NavPutWM: ( addr len windowref -- b ) - window-modal Save File Dialog
\ WindowRef shall be the parent window's windowref.

128 NavGetML: ff
\ NavGetML: ( resID -- b ) - mode-less OpenFile Dialog

The point we must pay attention to is that in the case of window-modal or mode-less NavDialog the methods return immediately after displaying the dialog. So boolean to be returned means simply whether succeeding (true) or failing (false) in displaying the NavDialog .

So when we will use mode-less or window-modal NavDialog, we must set vects "ForSaveProc" and/or "ForOpenProc".

ForSaveproc ( ^file -- )

ForOpenProc ( ^file -- )

When we click "save" or "open" button on NavDialog, one of these vect will be executed respectively. These vect will be passed an address of file object for which the NavDialog are used. So, for example,

: mysaveproc { ^file -- }
^file create: class_as> file ?EXIT
^file savefile: mytextview \ various writing process
^file close: class_as> file drop

' mysaveproc -> forsaveproc

etc. should work.

Initially these vects is initialized by "drop" in order that the code like following may not be broken :

: savefile
128 NavPut: myfile

create: myfile drop ......


When you must mix application-modal and window-modal/mode-less, it will be better to use vects on both cases. Or you can change the contents of vects appropriately in each time.

If you need to see whether user pushed the cancel button or the open/save button on terminating (especially mode-less or window-modal) NavDialog, get the value "NavAction?". It will be true when open/save button pushed, false when canceled.

And still, mode-less Save Dialog will crash because it seems to be a bug (or spec?) of Carbon Library (I have ever seen relevant discussions in Carbon Mailing List on Apple's site. And it seems still to be true). So I didn't include a method for it into file class.

The other Aspects.

We have a NavDialog Object "NavDLGs" In file "NAV". We can send messages directly to this object to manipulate Navigation Dialog. For example,


File ff

modeless: NavDLGs
" your message" setmessage: NavDLGs
128  ff OpenByNav: NavDLGs \ OpenByNav ( resID ^file -- rc )


will display mode-less File Open Navigation Dialog with the message. Among other methods for NavDLGs:

AppModal: \ ( -- ) -- init as application-modal NavDialog
WinModal: \ ( windowref -- ) -- init as window-modal NavDialog

\ and set the parent window.

ActionBtnLabel: \ ( addr len -- ) -- customize word-label of Save/Open

\ button.

CancelBtnLabel: \ ( addr len -- ) -- customize word-label of cancel button.
Title: \ ( addr len -- ) customize NavDialog's window title.
SaveByNav: \ ( addr len ^file -- rc ) -- Create Save File Dialog.

Generally speaking, set mode of NavDialog first of all -- which initialize "NavDialogCreationOption" structure. Then customize the dialog by sending a message(s) to NavDLGs. And, finally, send message Save/OpenbyNav to create and display the dialog.

Contrary to the name, "NavDLGs" doesn't represent plural Dialogs but only one NavDialog at one time. However, it is, instead of a substance of NavDialog, a path to get to NavDialog, so you can display 2 or more NavDialogs via it in order if they are mode-less or window-modal.

That's all.

Nao Sacrada

Menu changes

"deprecated" functions still used are :

 -- because of the bug (probably) of "AppendMenuItemTextWithCFString()"
    (.. lengthy name! :-)
 -- for resource fork menu support.
 -- its alternative "IsMenuKeyEvent()" will require
    some modification of "CarbonEvents" file.

How to create nib based Menu object: Use "CreateFromNib:" method of Menu class.

If you are running Mac OS X with InterfaceBuilder installed, you could try as follows:

1. Create Carbon NIB resource with InterfaceBuilder, say named "main.nib", create a menu instance named "File", then save it. 2. Put then created NIB bundle into ":Mops ƒ:" folder. 3. syntax of the menu creation is as following :

when the menu has 5 items,

5 menu myFileMen
xts{ word0 word1 word2 word3 word4 } 128 ( MenuID ) init: myFileMen
" main" setNib: myFileMen \ ".nib" extension must be dropped
" File" createfromNIB: myFileMen

In order to see the menu immediately,

insert: myFileMen

will append the menu to current menubar.

New Syntax Features

With this version of Mops we provide two new syntax features. RightArrow Get: / Put: abbreviations and Cascaded Messages.


Have you ever listened to a Forth programmer's first reactions to using object extensions? A typical reaction is "Gee, having to send a message to an object sure seems like a lot more work than plain Forth". And in a sense they are right. But of course there are many advantages to object programming that far outweigh any extra (perceived or real) effort in writing object code.

A common initial complaint is that obtaining the value of an object or an ivar is cumbersome compared to what we can do with, for example, a VALUE or a local variable, or plain variable. Consider the following code using VAR, INT, or similar ivars:

1) get: x1 get: y1 get: x2 1- get: y2 put: temprect \ seems like a lot of get:s

With local variables or values we can write cleaner looking code:

2) x1 y1 x2 1- y2 put: temprect

RightArrow is a shortcut way of sending a get: or a put: message to an object, ivar, or any valid message receptor in Mops. The RightArrow is a single-character "arrow" pointing to the right, ≥ . It is similar in appearance to the Smalltalk arrow, but it has a different meaning in Mops.

In order to properly see the RightArrow, the font file MopsFont must be installed. In OSX place MopsFont in your Username:Library:Fonts folder. In OS9, if you use it, place the MopsFont file in your System 9 "Fonts" folder.

Then the RightArrow can be typed by either pressing 'option >' or simply pressing the <help> key on your keyboard.

An arrow appended to an object name, no space between object name and arrow, (or any message receptor) such as 'myIvar≥' is functionally identical to 'get: myIvar'. An arrow prefixed to an object name, no space between object name and arrow, (or any message receptor) such as '≥myIvar' is functionally identical to 'put: myIvar'. In fact the Mops interpreter / compiler has been modified to interpret 'myIvar≥' as 'get: myIvar' and '≥myIvar' as 'put: myIvar'.

So the above code, written for objects or ivars or other message recptors can now be written as follows:

3) x1≥ y1≥ x2≥ 1- y2≥ put: temprect \ much cleaner than 1) above

or even, at the programmer's discretion, as follows:

4) x1≥ y1≥ x2≥ 1- y2≥ ≥temprect

It's not that we don't like the get: and put: messages. We do like them. In fact the RightArrow syntax cannot work without them. But we also think the shorthand syntax will be appealing to many.

Side benefits to using the RightArrow is less typing and shorter surce code.

A final note. Since the RightArrow character is non-standard (not ascii and not even standard Macintosh), in other fonts it will appear as a '>' with an underline. This is also the way it will appear in the Mops console window and other Macintosh text or word processors that do not support the MopsFont font. But that's OK because that character is rarely used (at least in Mops programs that we've seen) and it is very similar in appearance to the RIghtArrow.

Cascaded Messages

Smalltalk uses cascaded messages and we decided that they could be useful in Mops as well. Consider the following snippet of code:

10 10 40 40 put: myrectangle  1 1 inset: myrectangle
draw: myrectangle  invert: myrectangle  clear: myrectangle

Cascaded messages let us re-write the above as follows:

10 10 40 40 put: myrectangle 1 1 inset: | draw: | invert: | clear: |

The '|' (vertical bar), will cause the reference to the last object in the input stream to be re-used. Note how this syntax once again allows for cleaner, shorter source code in the appropriate circumstances. Also again, the syntax is optional so you can use it where you like or not at all. It is especially useful when sending many messages to the same object (or ivar, etc.) and the object has a long name. We think many will appreciate this.

New Operator

LEADING_ZEROS ( n -- n' ) is a monadic logical operator which replaces n with the count of its leftmost zero bits up till the first "1". If n is all zero, leading_zeros returns 32.

This operator is basically a way of accessing the PowerPC machine instruction cntlzw.

The remainder of these release notes are taken from earlier 5.x releases, so if you're upgrading from a much earlier version you can see what changes have been made.

The changes in Mops 5.5 were:

    • Under OSX, you can now call frameworks exactly as you call

shared libraries. The syntax is exactly parallel:

FRAMEWORK <someFramework>
FrwkCall  CallName1
FrwkCall  CallName2

Note the framework name and call names are case sensitive.

Thanks to Nao Sacrada for the main work in implementing this. Nao's OpenGL demo code is in the folder OpenGLDemoFolder, and you can load it with:

// OpenGLDemo

    • You can now do direct Mach-O calls using similar syntax

to Syscall, e.g.

MachOCall  EnterMovies

Nao also contributed this code. He found that many QuickTime calls were crashing under OSX, and that using direct Mach-O calls avoided the problem.

    • ASSERT{ now has an enhancement:

ASSERT{ blah blah.... }" blah didn't work!!"

If the assertion fails, the message in the quotes gets printed before the error dump. You can put whatever you like there. This makes it easy to identify which assertion failed.

Of course the original syntax without the quotes still works as it used to.

    • We now have a proper implementation of SCREENBITS and

we're using this to set the initial size of the Mops window to something reasonable.

    • If you accidentally put e.g.
: aDefn  { a b -- )

blah blah


where you close the locals list with a ')' instead of a '}', we now give an error. Previously text would be gobbled until a '}' was found, which could be anywhere, usually leading to a misleading error message which had nothing to do with the real error.

    • A new version of Quick Edit is included, which

has significant improvements.

The problems fixed were:

    • Shared libraries had some problems which I discovered

when working on the framework feature.

    • There was a one-off error in the check for the maximum

number of named parms and locals. Under PowerMops the limit is 11, but you didn't get an error unless you exceeded 12.

    • Related to this, the number reduces to 9 if you have a

DO in your definition, since two registers get used for I and the do limit. I wasn't checking for this reduced number.

    • Some FP standard words would leave extra items on

the FP stack. This resulted from changes made a year or so back, to allow a variable number of FP stack cells to be held in registers on entry to definitions. Thanks again to Nao for finding and fixing this.

    • The word DblTicks (in CarbonEvents) still had a

reference to a low memory global which of course is a no-no under OSX and caused a crash. This is now replaced with a call to the proper accessor function. Thanks to Nao for this one too.

    • Doug Hoffman's Carbon changes to the AppleEvents

file had caused an incompatibility with 68k Mops, so we now have two AppleEvents files to fix this problem (AppleEvents and zAppleEvents).

    • Under OSX, if an error occurred while loading a

source file, and you edited and reloaded, a spurious error could come up since the file wasn't closed when the error occurred.

    • A few problems with double number words have been

fixed -- DNEGATE didn't give the correct result at all, and D- sometimes in effect had its operands reversed.

    • Occasionally code that converted a test result to a

boolean flag (e.g. ... 0= ++> aValue) would give the wrong result. The combination of circumstances was unlikely, but it's now fixed anyway.

    • On saving a new dictionary or installing a new app,

there were occasional problems that may have resulted from resources being mis-aligned.

Mops 5.4 was a fairly minor update to Mops 5.3. It fixed a number of small bugs, added some new Carbon calls to the Control class to support dynamic scrolling, and included a new version of Quick Edit which also has a few improvements.

Mops 5.3 was a minor update to 5.2 to introduce a Carbonized Quick Edit and fix a number of bugs.

Mops 5.2 was an update to Mops 5.1, which was required by the changeover to the Carbon Event model, which caused modal dialogs to crash under OSX.

We have fixed this problem by a complete revision of the Dialog class. Hopefully though, this should not require any changes to existing code. But there is some significant new functionality which you may want to use.

Dialogs are now subclassed from both Window and x-array, instead of just from x-array as before. Some of the existing dialog methods are now handled by the superclass Window and so have been deleted from the Dialog class itself.

The three kinds of dialog (modal, movable modal and non-modal) are now handled with the single Dialog class. The old Dialog+ class isn't needed any more, and has gone. (Where? I'll leave that as an exercise for the reader, but the answer might include terms like Taligent, OpenDoc, and Itanic.)

You can use a resource editor to set the dialog type for your dialog. If you want modal or moveable modal, set the dialog type to the appropriate type and fire up your dialog by sending getnew: and modal: to your dialog as you always did. If the type is moveable modal, you'll be able to move it around the screen and even click it into the background to get hold of another application.

For a non-modal dialog, set the type to "no grow document", and fire up your dialog simply with getnew:. Your dialog will then open on the screen and behave like any other window.

One small trap is with edit text items, if they contain initial text (i.e. provided from the dialog resource). This text might appear in the wrong font until you type into the edit text item, in which case the new characters appear in system font and the whole appearance gets scrambled. The fix is simply to not leave the text style undefined in the dialog resource, but to explicitly set it to font ID zero, size 12 point.

The following notes on Carbon Events and the Carbonization of Mops are essentially as they appeared in earlier releases. However until the Manual is updated we'll keep including them here.

I've put extensive comments in the CarbonEvents file, so if your application needs to know about event handling, please have a look there. If you don't do things with events, then your code might well still work without changes. (No promises, though  :-)

Carbon Events

With Mops 5.1 we changed from the "old" event model to Carbon Events. This was always going to be a good idea since the new event model makes much more efficient use of the processor, but it has actually now become necessary with the latest release of OSX, since MLTE (the text editing engine used by the Mops window) now requires Carbon Events in order to handle incoming keys properly.

Event Handling

As you'd expect event handling has totally changed, and even the old Event file isn't part of the load any more. fEvent is still there, but many of its methods don't do anything useful any more. I'll clean it up more in a future release, but it was important for where: fEvent to still give the location of the last click.


Menus have also changed in some implementation details, however most existing Mops code shouldn't be affected. With Carbon events we have to use "command IDs" which are a high-level concept that abstracts out the actual function we want to perform regardless of whether it's invoked by a button press, menu choice, AppleEvent or whatever.

The nice thing is that the command IDs can be arbitrary unique 32-bit numbers. So, we're making Mops command IDs the NOT of the relocatable address where the xt we want to execute is located. This makes invoking them when the Command event comes in, very easy. We've modified NEW: and GETNEW: in class Menu to define the appropriate IDs for each item in the menu.

The reason for the NOT is that Apple has a number of standard IDs for things like Copy, Cut, Paste etc. These are all 4-char codes like 'copy'. This means their top bit is always zero. Now Mops reloc addresses are guaranteed to also have a top bit zero (to distinguish from hashed selectors which always have 1.) Thus the NOT of a reloc addr has a high bit 1, and can't ever clash with an Apple ID.

In a future release I should provide a way that the standard Apple IDs for Copy, Paste etc. can be handled -- this should facilitate AppleScripting of Mops applications.

Carbonization of Mops

Moving PowerMops to Carbon, we tried to keep it outwardly as unchanged as possible from 4.0.3. However Carbonization has inevitably involved a great many under-the-hood changes.

The most obvious changes are that Standard File doesn't exist under Carbon, and has been replaced by Navigation Services Manager support. See the file "Nav" in "PPC Source". This is still rather preliminary, but provides the basic functionality we need. Thanks to Gorazd Krosl for this.

Another significant change is that TextEdit doesn't run reliably under OS X, so we now have a MLTE class (Multilingual Text Engine). Apple intends MLTE to replace TE. One immediate advantage is that the Mops editing window is no longer limited to 32k of text.

Other significant changes are that we aren't allowed to know anything about the internal structure of GrafPorts. Also a Window isn't a GrafPort any more, but contains a WindowRef, which is a 32-bit number which designates a Window to the System, and which we can't assume anything about. Likewise a Dialog contain a DialogRef, which isn't the same as a WindowRef. The Carbon API contains functions to recover a WindowRef from a DialogRef and to do other things which we used to do by accessing the GrafPort directly.

Fortunately the changes to Dialogs and Windows have been subsumed into the Window and Dialog classes, so that unless your code is digging around into the internal structures of these classes you shouldn't need to change anything.

Another change is to callbacks. These have always been nasty, and have proved so again. On the PowerPC, to pass a callback to a system call, we have to use a UPP. Pre-Carbon, there was a generic NewRoutineDescriptor call which we could use for all callbacks, and our :PPC_ENTRY syntax was based on this mechanism. However, under Carbon NewRoutineDescriptor has gone away, and we have to use calls NewxxxUPP and DisposexxxUPP (in which xxx is a name which is specific to the particular callback we're doing.)

This has forced a new callback syntax, :CALLBACK and ;CALLBACK. You have to push the addresses of the NewxxxUPP and DisposexxxUPP syscalls before :CALLBACK. See the file CarbonEvents for more comments and some actual examples you can copy.

One other small change that I've made is that since we have a word .ERR to give a full stack dump from the last error that came up, we no longer give a stack dump when the error actually comes up. One of the most common errors is a compilation error when using Mops interactively, and a long dump from something like a mistyped word was an unnecessary pain.

68k Mops

Note that 68k Mops is completely unchanged from 4.0.4, and so is no longer included with this distribution. It is still available from the web site.

As always, I hope you enjoy Mops!

—-  Mike Hore.