A review of the Kuma K-SEKA assembler and
Metacomco Macro Assembler
As someone who has written several big programs
using an 8 bit macro assembler (AMAC), I was interested to see what
sort of facilities the macro assemblers for the 16 bit 520ST would
give me. The two I have had the opportunity to review so far are
obviously meant for two different types of user.
The Kuma K-SEKA is actually a complete editor /
assembler / linker / debugger program. It provides all you need to
write programs in 68000 assembly language. The problem is, as with
many programs that 'do everything', it doesn't do some parts very
well. The first thing that any programmer uses (on the computer) is
the editor. The editor of the KSEKA is a simple line editor, i.e.
one line at a time, with no facility to cursor up and down. I am
used to using EDLIN on the IBM PC, which is pretty poor, but in
comparison I have to say that the K-SEKA editor is worse.
The most noticeable missing feature is the ability
to list ten lines each side of the line you are working on (the
current line), the P command being nowhere near good enough as it
alters the current line.
Commands available are: Insert text; Edit current
line; Target to line (change current line); Bottom of text; Up n
lines; Down n lines; Print (display) n lines; Zap (delete) n lines;
Locate text; Kill text; Old (unKill) text and Howbig (sic) are
files. To get the best out of the K-SEKA, I would use a dedicated
editor for the major typing, and only use this basic editor for
small debugging changes.
The assembler itself handles all of the standard
(Motorola) mnemonics (as does the Metacomco Macro Assembler). What
is of relevance to the programmer is the extra facilities that the
assembler gives, provided by pseudo ops. (A standard line of machine
code consists of an optional label (a symbol which identifies a
particular memory location), an opcode (the instruction the 68000
understands), an optional operand (the data the instruction acts
upon), and an optional comment line. A pseudo op is an opcode which
is not converted to an instruction for the 68000, but is an
instruction to be acted on by the assembler.) The table shows a
general comparison of most of the available pseudo ops in AMAC, the
Atari Macro Assembler for 8 bit machines, MAC65, the OSS 8 bit macro
assembler, and the 68000 processor K-SEKA and Metacomco Macro
Assembler (referred to hereafter as ASSEM, as it is called on the
disk).
One of the most immediate observations about K-SEKA is that it is
only suitable for small programs. When I say small, I mean however
much you can fit into the edit and code buffers at the same time. K-SEKAs'
most noticeable missing pseudo op is INCLUDE. Without this you
cannot assemble very large programs, reading through several files
to produce a final big machine loadable (object code) file. Not only
that, but the object file cannot be written to disk until after
assembly. The advantage of this method of working is that it is very
fast, and should allow a very fast edit-assemble-run-debug time.
One thing that users of the 8 bit assemblers will
find new is that most 68000 programs will need 'linking' (except
BASIC and LOGO). Linking is needed because the programs are
assembled (or compiled) to an object code file which cannot be
loaded and run as is, but must be converted first. This allows a
program to be written and assembled in several smaller more
manageable parts and put together (linked) later. The K-SEKA however
does not need this stage (as it cannot generate code in sections),
and the code produced can be run straight away. A limited linking
facility is provided, but it is of little use as it only produces
absolute not relocatable code. TOS, the 520ST disk operating system,
generally uses relocatable code which allows it to have several
programs loaded at the same time. Absolute code always loads at the
same place in memory, which may cause compatibility problems later.
Kuma does not call the K-SEKA a macro assembler,
just an assembler, but it does have macro facilities. A macro is a
predefined piece of code that can be used as though it were a
machine opcode. For instance, you may want to have the console bell
ring at several places in your program. The assembler code to do
this would be:
MOVE #7,-(SP) ;move bell char to stack
MOVE #2,-(SP) ;GEMDOS
function 2
TRAP
#1 ;call GEMDOS
ADDQ.L #4,SP
;restore stack
By changing this to:
BELL:
MACRO
;start of macro
MOVE #7;-(SP) ;move
bell char to stack
MOVE #2,-(SP) ;GEMDOS function 2
TRAP #1 ;call
GEMDOS
ADDQ.L #4,SP ;restore stack
ENDM
;end of macro definition
The assembler remembers the text when it is
read. The programmer can then use it at any time by simply using the
command:
BELL
;ring bell
The macro assembler will replace this with the previously defined
code. This looks similar to subroutines, but the code is copied at
each use, a subroutine only exists in one place. Parameters can also
be passed to the macro definition, so BELL 4 could ring the bell
four times.
ASSEM, the
Metacomco assembler, has a very full featured macro facility. In
fact, most of the things that it does are done very well. For
instance it can use all available program segments (a separate
section for the actual code, the data and the uninitialised data),
the K-SEKA only has the former two. The object files produced must
be linked before they can be run, and the Digital Research LINK68
and RELMOD programs are provided for this. LINK68 is too complicated
for this review, but comes with GEM libraries and various object
files which the serious programmer will need for the best use of the
computer. No documentation is provided for these, so it may cost
extra.
When it
comes to the problems of ASSEM, I have only relatively minor
quibbles. K-SEKA, and all other assemblers I have known (IBM PC as
well) start a comment at the end of a line with a semicolon (;).
ASSEM will accept the semicolon start, but it also assumes that any
text after the operand, starting with a space character is also a
comment. This to me is a great mistake. I can imagine accidental
spaces occurring during an edit which cause the loss of part of the
operand to ASSEM, leaving a syntactically correct line which is
actually wrong, which means I would be searching for hours (days)
for a problem that most other assemblers would list as an error due
to the lack of semicolon. Another quibble is that the EQU pseudo op
cannot be interchanged with the equals (=) character. I so much
prefer it.
Metacomco provide all you need to write programs on their disk.
Their screen editor, ED, is provided. I have been using this for some months now, and I find it very irritating. It has all
the usual facilities of a screen editor (a screen editor means you
can use the cursor to scroll up and down, like Atariwriter), though
some need a combination of commands. For instance to do a block move,
you must do an insert block then a delete block. Each command can be
repeated until an error occurs, so a global search and replace is
possible. However this is very slow as ED spends a lot of time
showing you how it removes each character of the old word, and then
inserts each character of the new. Very pretty I'm sure, but a big
waste of time. What has to be my biggest frustration is that the
block markers are not visible and they disappear very easily. This
means that you cannot mark a block at one end of the text buffer, go
to the other end doing a bit of editing on the way and expect the
block to still be marked when you get to where you want to move it.
Still, it is far more useable than the K-SEKA editor.
What ASSEM does not provide but K-SEKA does is a debugging facility.
K-SEKA allows you to set breakpoints, single step, and all the usual
debugger functions, as well as a disassembler. Digital Research can
provide a debugger for the LINK68 program.
Conclusion
To sum up, K-SEKA is most useful to the programmer interested in
learning 68000 assembler. It provides everything you will need
(except perhaps a better editor) and whilst it does have a size
limitation, on a 512K machine, I can't imagine it being reached too
early.
The Metacomco Macro Assembler (ASSEM) is obviously aimed at the more
professional programmer. It provides all the pseudoops you would expect and more, comes with libraries, a linker
and an editor. The edit-assemble-run-debug time will be a lot
longer, but the program could be a much bigger one. The KSEKA will
have uses for the ASSEM user as an experimentation tool.
Though I don't know the Atari Assembler-Editor cartridge very well,
I would say that it is to AMAC, what K-SEKA is to ASSEM. K-SEKA is
ideal for the beginner, and masterpieces can be written, but they
are easier with ASSEM.
Finally, it is worth saying that neither of these assemblers come
with more than a reference manual. Certainly they are not going to
teach you 68000 assembler, you must buy a separate book for that.
I hope to review other assemblers and languages for the ST as soon
as I get them.
Footnote: Metacomco will be making their assembler compatible with
both the Digital Research LINK68 and the GST linker. At the time of
writing it had not been decided who's linker and libraries will
actually be supplied on the disk. The DRI libraries are the
'official' GEM libraries, but I daresay that the GST libraries, if
they are good, will be used by more people. Contact Metacomco for
more details.
Metacomco Macro Assembler - £49.95
METACOMCO, 26 Portland Square, Bristol, Avon, BS2 8RZ.
Tel. (0272)
428781
Kuma K-SEKA - £49.95
KUMA, 12 Horseshoe Park, Pangbourne, Berks, RG8 7JW.
Tel. 0735 74335
____________________
Table 1. This table lists all the major pseudo ops available to each
assembler. The 68K assemblers are listed alongside those of the 6502
assemblers to aid owners of those assemblers in a comparison.
The pseudo ops are listed in the following assembler order:
| AMAC |
MAC65 |
K-SEKA |
ASSEM |
|
|
|
|
|
GENERAL PSEUDO OPS |
|
|
|
|
|
Set origin (RORG=relative origin) |
|
ORG |
*= |
ORG,LOAD |
RORG |
|
|
|
|
|
Set location counter (for overlays) |
|
LOC |
none |
n/a |
n/a |
|
|
|
|
|
Assemble to different parts of program file (segments). |
|
USE |
none |
CODE,DATA |
SECTION,
BSS,
DATA
TEXT,
OFFSET |
|
|
|
|
|
End of program. |
|
END |
.END |
END |
END |
|
|
|
|
|
Conditional assembly features, e.g. extra code to be assembled in a
debug version. |
|
IF |
.IF |
IF |
IF |
|
ELSE |
.ELSE |
ELSE |
none |
|
ENDIF |
.ENDIF |
ENDIF |
ENDC |
|
|
|
|
|
Check condition, and generate assembly error if false. Used for
checking if memory requirements are too big etc. |
| ASSERT ERR |
.ERROR |
none |
FAIL |
|
|
|
|
|
Local labels. These can only be used in the same 'local' section of
code. The Metacomco locals only exist between normal global labels,
the 'global' labels are only global in the file though, and not
known by the linker unless told about them. |
| : |
? |
none |
$ |
|
PROC
EPROC |
.LOCAL |
none |
(major labels) |
|
|
|
|
|
Align to a boundary. Forces the program counter to an even (odd)
boundary, needed for some 68000 instructions. |
| n/a |
n/a |
EVEN/ODD |
CNOP |
|
|
|
|
|
Generate illegal opcode for debugger. |
|
none |
none |
ILLEGAL |
none |
|
|
|
|
|
Define a label as global for linker. (Permits label use in another
file.) |
|
n/a |
n/a |
GLOBL |
XDEF XREFa |
|
|
|
|
|
Include a file for assembly. Useful for defining symbols across
files, e.g. EOF,EOL etc. |
|
INCLUDE |
.INCLUDE |
none(!) |
INCLUDE |
|
|
|
|
|
SYMBOL DEFINITION PSEUDO OPS |
|
|
|
|
| Define a symbol. |
| = |
.= |
= |
|
|
EQU |
.EQU |
|
EQU
EQUR,REG |
|
|
|
|
|
Define an alterable symbol. |
|
SET |
none |
none |
SET |
|
|
|
|
|
Allocate space in memory. Code is written to file. |
|
DB
DC
DW |
.BYTE
.SBYTE
.WORD |
DC.size
(.size=.B,
.W,.L) |
DC.size
(.size=.B,
.W,.L) |
|
|
|
|
|
Special format field lengths. |
|
REAL6,VFD |
none |
none |
none |
|
|
|
|
|
Allocate large spaces in memory (for tables etc.), but don't
initialise. |
|
DS |
none |
BLK |
DS |
|
|
|
|
|
As above but initialise (fill) the space defined. |
|
ECHO
DB
ENDM |
none |
BLK |
DCB |
|
|
|
|
|
MACRO PSEUDO OPS |
|
|
|
|
|
Start a macro definition. |
|
MACRO |
.MACRO |
MACRO |
MACRO |
|
|
|
|
|
Stop macro assembly (for use with conditional tests) |
| none |
none |
none |
MEXIT |
|
|
|
|
|
Ability to define unique labels within macros. |
| %K |
none |
?0 |
|
|
|
|
|
|
Stop macro definition. |
|
ENDM |
.ENDM |
ENDM |
ENDM |
|
|
|
|
|
Ability to assemble direct to memory for immediate running? |
| NO |
YES |
YES |
NO |
|
|
|
|
|
OTHER FUNCTIONS |
|
All of the assemblers have the ability to turn the generation opcode
and/or listings on and off. Listings can be with or without
conditionals, macros, paging, title (except KSEKA), and some
have a page eject feature. MAC65 is the only one that needs
line numbers in the source, something that would cause the
others to splutter. |
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