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uxn/projects/software/asma.tal
2021-07-07 21:04:53 +01:00

986 lines
23 KiB
Tal

( devices )
|00 @System [ &vector $2 &wst $1 &rst $1 &pad $4 &r $2 &g $2 &b $2 ]
|10 @Console [ &pad $8 &write $1 ]
|a0 @File [ &vector $2 &success $2 &offset $2 &pad $2 &name $2 &length $2 &load $2 &save $2 ]
( vectors )
(
Asma - an in-Uxn assembler
This assembler aims to be binary compatible with the output from
src/uxnasm.c, but unlike that assembler this one can be run inside Uxn
itself!
Asma is designed to be able to be copy-pasted inside another project, so
all its routines are prefixed with "asma-" to prevent clashes with labels
used in the incorporating project. The reset vector contains a couple of
examples of asma's usage and can be discarded.
)
|0100 @reset
(
Set the log level for helping to debug stuff.
Its value is the bitwise OR of all the following output types:
#01 prints the number of lines in the source code,
#04 dumps all defined labels at end, and
#08 prints the heap usage.
)
#09 ;asma/log-level STA
(
Assemble the source code into an output ROM file.
If all you want is to use asma.tal to assemble files, insert a BRK
after this statement.
)
;&source-file ;&dest-file ;asma-assemble-file JSR2
(
If an error has occurred, BRK here, otherwise continue. (The error
message will already have been printed to the Console in
asma-assemble-file.)
)
;asma/error LDA2 #0000 EQU2 JMP BRK
(
Load the output ROM over the currently running program, almost as if
we loaded the ROM with uxnemu directly!
It's not a totally pristine environment, as File/load doesn't zero out
memory beyond the end of the file. So if the assembled program assumes
that all memory above it is zero, it may misbehave.
Asma itself doesn't use the zero page, but this example code writes a
DEO2 instruction to 0x00ff. In order to execute File/load and have the
CPU continue at memory location 0x0100, we write the final DEO2
instruction there and jump there as our final act.
Just in case the assembled code is zero-length (which can occur when
assembling an empty source file), we write a BRK to the reset vector so
that will prevent an infinite loop.
)
;&dest-file .File/name DEO2
#0000 .File/offset DEO2
#ff00 .File/length DEO2
#0100 .File/load
LIT DEO2 #00ff STA
LIT BRK #0100 STA
#00ff JMP2
&source-file
"projects/examples/demos/piano.tal 00
&dest-file
"bin/asma-boot.rom 00
(
Common macros for use later on.
)
%asma-IF-ERROR { ;asma/error LDA2 ORA }
(
Asma's public interface.
These routines are what are expected to be called from programs that bundle
Asma into bigger projects.
)
@asma-assemble-file ( src-filename* dest-filename* -- )
;asma/dest-filename STA2 ;asma/src-filename STA2
;asma-init-first-pass JSR2
;asma-flush-ignore ;asma/flush-fn STA2
;asma/src-filename LDA2 ;asma-assemble-file-pass JSR2
asma-IF-ERROR ,&error JCN
;asma-init-next-pass JSR2
;asma-flush-to-file ;asma/flush-fn STA2
;asma/src-filename LDA2 ;asma-assemble-file-pass JSR2
asma-IF-ERROR ,&error JCN
;asma-trees/labels ;asma-print-labels JSR2 ( DEBUG )
;asma-print-line-count JSR2 ( DEBUG )
;asma-print-heap-usage JSR2 ( DEBUG )
JMP2r
&error
;asma-print-error JSR2 ( DEBUG )
JMP2r
(
Debugging routines. These all output extra information to the Console.
These can be stripped out to save space, once the references to them are
removed. Look for the word DEBUG above to find these references: the lines
that contain that word can be deleted to strip out the functionality
cleanly.
)
@asma-print-error ( -- )
;asma/error LDA2 ;asma-print-string JSR2
#3a .Console/write DEO
#20 .Console/write DEO
;asma/orig-token LDA2 ;asma-print-string JSR2
;&line ;asma-print-string JSR2
;asma/line LDA2 ;asma-print-short JSR2
#2e .Console/write DEO
#0a .Console/write DEO
JMP2r
&line 20 "on 20 "line 20 00
@asma-print-line-count ( -- )
;asma/log-level LDA #01 AND #00 EQU ,&skip JCN
;asma/line LDA2 ;asma-print-short JSR2
;&lines ;asma-print-string JSR2
&skip
JMP2r
&lines [ 20 "lines 20 "of 20 "source 20 "code. 0a 00 ]
@asma-print-heap-usage ( -- )
;asma/log-level LDA #08 AND #00 EQU ,&skip JCN
;asma/heap LDA2 ;asma-heap SUB2 ;asma-print-short JSR2
;&str1 ;asma-print-string JSR2
;asma-heap/end ;asma/heap LDA2 SUB2 ;asma-print-short JSR2
;&str2 ;asma-print-string JSR2
&skip
JMP2r
&str1 [ 20 "bytes 20 "of 20 "heap 20 "used, 20 00 ]
&str2 [ 20 "bytes 20 "free. 0a 00 ]
@asma-print-sublabels ( incoming-ptr* -- )
LDA2
ORAk ,&valid-incoming-ptr JCN
POP2 JMP2r
&valid-incoming-ptr
( left node )
DUP2 ,asma-print-sublabels JSR
( here )
#09 .Console/write DEO
DUP2 #0004 ADD2
&loop
DUP2 #0001 ADD2 SWP2 LDA
DUP #00 EQU ,&end JCN
.Console/write DEO
,&loop JMP
&end
POP
#09 .Console/write DEO
LDA2 ;asma-print-short JSR2
#0a .Console/write DEO
( right node )
#0002 ADD2 ,asma-print-sublabels JSR
JMP2r
@asma-print-labels ( incoming-ptr* -- )
;asma/log-level LDA #04 AND #00 EQU ,&skip JCN
LDA2
ORAk ,&valid-incoming-ptr JCN
&skip
POP2 JMP2r
&valid-incoming-ptr
( left node )
DUP2 ,asma-print-labels JSR
( here )
DUP2 #0004 ADD2
&loop
DUP2 #0001 ADD2 SWP2 LDA
DUP #00 EQU ,&end JCN
.Console/write DEO
,&loop JMP
&end
POP
#09 .Console/write DEO
LDA2k ;asma-print-short JSR2
#0a .Console/write DEO
( subtree )
#0002 ADD2 ;asma-print-sublabels JSR2
( right node )
#0002 ADD2 ,asma-print-labels JSR
JMP2r
@asma-print-string ( ptr* -- )
LDAk DUP ,&keep-going JCN
POP POP2 JMP2r
&keep-going
.Console/write DEO
#0001 ADD2
,asma-print-string JMP
@asma-print-short ( short* -- )
LIT '0 .Console/write DEO
LIT 'x .Console/write DEO
OVR #04 SFT ,&hex JSR
SWP #0f AND ,&hex JSR
DUP #04 SFT ,&hex JSR
#0f AND ,&hex JMP
&hex
#30 ADD DUP #39 GTH #27 MUL ADD .Console/write DEO
JMP2r
(
Initialise the assembler state before loading a file or chunk.
)
@asma-init-first-pass ( -- )
#ff ;asma/pass STA
#0000 DUP2k
;asma/error STA2
;asma-trees/labels STA2
;asma-trees/macros STA2
;asma-heap ;asma/heap STA2
;asma-opcodes/_entry ;asma-trees/opcodes STA2
( fall through )
@asma-init-next-pass ( -- )
;asma/pass LDA #01 ADD ;asma/pass STA
;asma-write-buffer ;asma-output/ptr STA2
#0000 DUP2k
;asma-output/offset STA2
;asma/addr STA2
;asma/state STA
#01 ( 0001 )
SWPk ( 0001 0100 ) ;asma/written-addr STA2
;asma/line STA2
JMP2r
(
Divide a file up into chunks, and pass each chunk to asma-assemble-chunk.
)
@asma-assemble-file-pass ( filename-ptr* -- )
#0000
&loop
OVR2 .File/name DEO2
DUP2 .File/offset DEO2
;asma-read-buffer/end ;asma-read-buffer SUB2 STH2k .File/length DEO2
;asma-read-buffer DUP2k .File/load DEO2
.File/success DEI2
DUP2 STH2r SUB2 ORA ,&last-one JCN
,asma-assemble-chunk JSR asma-IF-ERROR ,&error JCN
SUB2 SUB2
,&loop JMP
&last-one
ADD2k #00 ROT ROT STA
#0001 ADD2
,asma-assemble-chunk JSR asma-IF-ERROR ,&error JCN
( flush output buffer )
;asma-output/ptr LDA2 ;asma-write-buffer SUB2 ;asma/flush-fn LDA2 JSR2
POP2
&error
POP2 POP2 POP2
JMP2r
(
Assemble a chunk of source code, which begins with whitespace or the start
of a token and is divided up into tokens separated by whitespace. If the
chunk ends with whitespace, assembled-up-to-ptr* will equal ptr* + len* and
every token in the chunk will have been assembled. If the chunk ends with a
non-whitespace character, assembled-up-to-ptr* will point to the beginning
of the last token in the chunk.
)
@asma-assemble-chunk ( ptr* len* -- assembled-up-to-ptr* )
OVR2 ADD2 #0001 SUB2 SWP2 STH2k
,&loop JMP
&next-char-pop
POP
&next-char
#0001 ADD2
&loop ( last-ptr* ptr* / start-of-token* )
OVR2 OVR2 LTH2 ,&end JCN
LDAk ( last-ptr* ptr* char / start-of-token* )
DUP #20 GTH ,&next-char-pop JCN
#00 OVR2 ( last-ptr* ptr* char 00 ptr* / start-of-token* )
STA
STH2r ,asma-assemble-token JSR asma-IF-ERROR ,&error JCN
#0a NEQ ,&not-newline JCN
;asma/line LDA2 #0001 ADD2 ;asma/line STA2
&not-newline
DUP2 #0001 ADD2 STH2 ,&next-char JMP
&end
POP2 POP2 STH2r
JMP2r
&error
POP POP2 POP2
JMP2r
@asma [
&pass $1 &state $1 &line $2
&token $2 &orig-token $2
&heap $2 &addr $2 &written-addr $2 &flush-fn $2
&src-filename $2 &dest-filename $2
&error $2 &log-level $1
]
@asma-trees [ &labels $2 &macros $2 &opcodes $2 &scope $2 ]
(
The main routine to assemble a single token.
asma/state contains several meaningful bits:
0x02 we are in a comment,
0x04 we are in a macro body, and
0x08 we are in a macro body that we are ignoring
(because the macro was already defined in a previous pass).
Since 0x08 never appears without 0x04, the lowest bit set in asma/state is
always 0x00, 0x02, or 0x04, which is very handy for use with jump tables.
The lowest bit set can be found easily by #00 (n) SUBk AND.
)
@asma-assemble-token ( string-ptr* -- )
DUP2 ;asma/token STA2
DUP2 ;asma/orig-token STA2
LDAk ,&not-empty JCN
POP2
JMP2r
&not-empty ( token* / )
( truncate to one char long )
#0001 ADD2 ( end* / )
STH2k LDAkr ( end* / end* char )
STH2k ( end* / end* char end* )
LITr 00 STH2 ( / end* char end* 00 end* )
STAr ( / end* char end* )
#00 ;asma/state LDA SUBk AND ( tree-offset* / end* )
DUP2 ;&first-char-trees ADD2 ( tree-offset* incoming-ptr* / end* )
;asma-traverse-tree JSR2
( restore truncated char )
STAr
,&not-found JCN
( tree-offset* token-routine-ptr* / end* )
STH2r ;asma/token STA2
SWP2 POP2 LDA2
JMP2 ( tail call )
&not-found ( tree-offset* dummy* / end* )
POP2 POP2r
;&body-routines ADD2 LDA2
JMP2 ( tail call )
&first-char-trees
:asma-first-char-normal/_entry
:asma-first-char-comment/_entry
:asma-first-char-macro/_entry
&body-routines
:asma-normal-body
:asma-ignore
:asma-macro-body
@asma-parse-hex-digit ( charcode -- 00-0f if valid hex
OR 10-ff otherwise )
DUP #3a LTH ,&digit JCN
DUP #60 GTH ,&letter JCN
JMP2r
&digit
#30 SUB
JMP2r
&letter
#57 SUB
JMP2r
@asma-parse-hex-string ( -- value* 06 if valid hex and length > 2
OR value* 03 if valid hex and length <= 2
OR 00 otherwise )
;asma/token LDA2 DUP2 ,asma-strlen JSR #02 GTH ROT ROT
LIT2r 0000
&loop
LDAk
DUP ,&not-end JCN
POP POP2
STH2r ROT #01 ADD #03 MUL
JMP2r
&not-end
,asma-parse-hex-digit JSR
DUP #f0 AND ,&fail JCN
LITr 40 SFT2r
#00 STH STH ADD2r
#0001 ADD2
,&loop JMP
&fail
POP POP2 POP2r
DUP EOR
JMP2r
@asma-strlen ( string-ptr* -- length )
LITr 00
&loop
LDAk
,&not-end JCN
POP2 STHr
JMP2r
&not-end
LITr 01 ADDr
#0001 ADD2
,&loop JMP
%asma-SHORT-FLAG { #20 }
%asma-RETURN-FLAG { #40 }
%asma-KEEP-FLAG { #80 }
@asma-parse-opcode ( -- byte 00 if valid opcode
OR 01 otherwise )
;asma/token LDA2
DUP2 ,asma-strlen JSR #03 LTH ,&too-short JCN
( truncate to three chars long )
#0003 ADD2 ( end* / )
STH2k LDAkr ( end* / end* char )
STH2k ( end* / end* char end* )
LITr 00 STH2 ( / end* char end* 00 end* )
STAr ( / end* char end* )
;asma-trees/opcodes ;asma-traverse-tree JSR2
STAr
,&not-found JCN
;asma-opcodes/_disasm SUB2 #03 SFT2 ( 00 byte / end* )
&loop
LDAkr STHr LIT2r 0001 ADD2r ( 00 byte char / end* )
DUP ,&not-end JCN
POP POP2r
SWP
JMP2r
&not-end
DUP LIT '2 NEQ ,&not-two JCN
POP asma-SHORT-FLAG ORA ,&loop JMP
&not-two
DUP LIT 'r NEQ ,&not-return JCN
POP asma-RETURN-FLAG ORA ,&loop JMP
&not-return
LIT 'k NEQ ,&not-keep JCN
asma-KEEP-FLAG ORA ,&loop JMP
&not-keep ( 00 byte / end* )
&not-found ( incoming-ptr* / end* )
POP2r
&too-short ( token* / )
POP2 #01
JMP2r
@asma-write-short ( short -- )
SWP
,asma-write-byte JSR
,asma-write-byte JMP ( tail call )
@asma-write-byte ( byte -- )
;asma/addr LDA2 ;asma/written-addr LDA2
LTH2k ,&rewound JCN
&loop
EQU2k ,&ready JCN
#00 ,&write JSR
#0001 ADD2
,&loop JMP
&rewound
;asma-msg-rewound ;asma/error STA2
POP2 POP2 POP JMP2r
&ready
POP2 #0001 ADD2
DUP2 ;asma/addr STA2
;asma/written-addr STA2
&write
,asma-output/ptr LDR2
DUP2 ;asma-write-buffer/end EQU2 ,&flush JCN
&after-flush
STH2k STA
STH2r #0001 ADD2 ,asma-output/ptr STR2
JMP2r
&flush ( ptr* -- start-of-buffer* )
;asma-write-buffer SUB2k ( ptr* start* len* )
;asma/flush-fn LDA2 JSR2
SWP2 POP2 ( start* )
,&after-flush JMP
@asma-output [ &ptr $2 &offset $2 &filename $2 ]
@asma-flush-ignore ( len* -- )
POP2
JMP2r
@asma-flush-to-file ( len* -- )
DUP2 .File/length DEO2
,asma-output/offset LDR2 DUP2 .File/offset DEO2 ADD2 ,asma-output/offset STR2
;asma/dest-filename LDA2 .File/name DEO2
;asma-write-buffer .File/save DEO2
JMP2r
@asma-append-heap-byte ( dummy byte -- dummy )
;asma/heap LDA2
OVR2 OVR2 STA POP
#0001 ADD2 ;asma/heap STA2
POP
JMP2r
@asma-append-heap-short ( dummy short* -- dummy )
SWP
,asma-append-heap-byte JSR
,asma-append-heap-byte JMP ( tail call )
@asma-append-heap-string ( string* -- )
LDAk
DUP ,asma-append-heap-byte JSR
,&keep-going JCN
POP2 JMP2r
&keep-going
#0001 ADD2
,asma-append-heap-string JMP
@asma-traverse-tree ( incoming-ptr* -- binary-ptr* 00 if key found
OR node-incoming-ptr* 01 if key not found )
&loop ( incoming-ptr* )
LDA2k ORA ,&valid-node JCN
#01 JMP2r
&valid-node
LDA2 STH2k
#0004 ADD2 ,asma-strcmp-tree JSR
DUP ,&nomatch JCN
POP2r JMP2r
&nomatch
#06 SFT #02 AND #00 SWP
STH2r ADD2
,&loop JMP
( &help-str "Looking 20 "up 20 00 )
@asma-strcmp-tree ( node-key* -- order if strings differ
OR after-node-key* 00 if strings match )
;asma/token LDA2 STH2
&loop ( node-key* / token* )
DUP2 #0001 ADD2 SWP2 LDA LDAkr STHr
ORAk ,&not-end JCN
( end of C strings, match found )
POP2r POP
JMP2r
&not-end
SUB
DUP ,&nomatch JCN
POP
LIT2r 0001 ADD2r
,&loop JMP
&nomatch
POP2r ROT ROT POP2
JMP2r
(
First character routines.
The following routines (that don't have a FORTH-like signature) are called
to deal with tokens that begin with particular first letters, or (for
-body routines) tokens that fail to match any first letter in their tree.
)
%asma-STATE-SET { ;asma/state LDA ORA ;asma/state STA }
%asma-STATE-CLEAR { #ff EOR ;asma/state LDA AND ;asma/state STA }
@asma-comment-start
#02 asma-STATE-SET
@asma-ignore
JMP2r
@asma-comment-end
#02 asma-STATE-CLEAR
JMP2r
@asma-macro-define
;asma/pass LDA ,&ignore-macro JCN
;asma-trees/macros ;asma-traverse-tree JSR2 ,&not-exist JCN
POP2
;asma-msg-macro ;asma/error STA2
JMP2r
&not-exist
( define macro by creating new node )
;asma/heap LDA2 SWP2 STA2
#0000 ;asma-append-heap-short JSR2 ( less-than pointer )
#0000 ;asma-append-heap-short JSR2 ( greater-than pointer )
;asma/token LDA2 ;asma-append-heap-string JSR2 ( key )
#04 asma-STATE-SET
JMP2r
&ignore-macro
#0c asma-STATE-SET
JMP2r
@asma-macro-body
;asma/state LDA #08 AND ,&skip JCN
;asma/token LDA2 ;asma-append-heap-string JSR2
&skip
JMP2r
@asma-macro-end
#00 ;asma-append-heap-byte JSR2
#0c asma-STATE-CLEAR
JMP2r
@asma-label-define
;asma-trees/labels ,asma-label-helper JSR
,&already-existed JCN
#0000 ;asma-append-heap-short JSR2 ( data2: subtree incoming ptr )
&already-existed
#0002 ADD2 ;asma-trees/scope STA2
JMP2r
@asma-sublabel-define
;asma-trees/scope LDA2 ,asma-label-helper JSR
POP POP2
JMP2r
@asma-label-helper ( incoming-ptr* -- binary-ptr* 00 if label existed already
OR binary-ptr* 01 if label was created )
;asma-traverse-tree JSR2
,&new-label JCN
( label already exists )
( FIXME check label address hasn't changed (label defined twice) )
#01 JMP2r
&new-label ( incoming-ptr* )
( define label by creating new node )
;asma/heap LDA2 SWP2 STA2
#0000 ;asma-append-heap-short JSR2 ( less-than pointer )
#0000 ;asma-append-heap-short JSR2 ( greater-than pointer )
;asma/token LDA2 ;asma-append-heap-string JSR2 ( key )
;asma/heap LDA2
;asma/addr LDA2 ;asma-append-heap-short JSR2 ( data1: address )
#00 JMP2r
@asma-pad-absolute
#0000 ,asma-pad-helper JMP
@asma-pad-relative
;asma/addr LDA2
( fall through )
@asma-pad-helper ( offset* -- )
;asma-parse-hex-string JSR2
,&valid JCN
;asma-msg-hex ;asma/error STA2
JMP2r
&valid
ADD2 ;asma/addr STA2
JMP2r
@asma-raw-char
;asma/token LDA2 LDA
;asma-write-byte JMP2 ( tail call )
@asma-raw-word
;asma/token LDA2
&loop
LDAk
DUP ,&not-end JCN
POP POP2
JMP2r
&not-end
;asma-write-byte JSR2
#0001 ADD2
,&loop JMP
@asma-literal-abs-addr
LIT LIT2 ;asma-write-byte JSR2
( fall through )
@asma-abs-addr
,asma-addr-helper JSR
;asma-write-short JMP2 ( tail call )
@asma-literal-zero-addr
LIT LIT ;asma-write-byte JSR2
,asma-addr-helper JSR
;asma-write-byte JSR2
,&not-zero-page JCN
JMP2r
&not-zero-page
;asma-msg-zero-page ;asma/error STA2
JMP2r
@asma-literal-rel-addr
LIT LIT ;asma-write-byte JSR2
,asma-addr-helper JSR ;asma/addr LDA2 SUB2 #0002 SUB2
DUP2 #0080 LTH2 STH
DUP2 #ff7f GTH2 STHr ORA ,&in-bounds JCN
POP2
;asma-msg-relative ;asma/error STA2
JMP2r
&in-bounds
;asma-write-byte JSR2
POP
JMP2r
@asma-addr-helper ( -- addr* )
;asma/token LDA2 LDAk #26 NEQ ,&not-local JCN
#0001 ADD2 ;asma/token STA2
;asma-trees/scope LDA2
,&final-lookup JMP
&not-local ( token* )
LDAk
DUP ,&not-end JCN
POP POP2
;asma-trees/labels
,&final-lookup JMP
&not-end ( token* char )
#2f EQU ,&found-slash JCN
#0001 ADD2
,&not-local JMP
&found-slash ( token* )
DUP2 #00 ROT ROT STA
;asma-trees/labels ;asma-traverse-tree JSR2 STH
SWP2 DUP2 #2f ROT ROT STA
STHr ,&not-found2 JCN
( token* binary-ptr* )
#0001 ADD2 ;asma/token STA2
#0002 ADD2
&final-lookup ( addr-offset* incoming-ptr* )
;asma-traverse-tree JSR2
,&not-found JCN
LDA2
JMP2r
&not-found2 ( dummy* dummy* )
POP2
&not-found ( dummy* )
POP2
;asma/pass LDA #00 EQU ,&ignore-error JCN
;asma-msg-label ;asma/error STA2
&ignore-error
;asma/addr LDA2
JMP2r
@asma-literal-hex
;asma-parse-hex-string JSR2 JMP
( hex invalid ) ,&invalid JMP
( hex byte ) ,asma-byte-helper JMP
( hex short ) ,asma-short-helper JMP
&invalid
;asma-msg-hex ;asma/error STA2
JMP2r
@asma-byte-helper ( dummy value -- )
LIT LIT ;asma-write-byte JSR2
&raw
;asma-write-byte JSR2
POP
JMP2r
@asma-short-helper ( value* -- )
LIT LIT2 ;asma-write-byte JSR2
&raw
;asma-write-short JMP2 ( tail call )
@asma-normal-body
;asma-parse-opcode JSR2 ,&not-opcode JCN
;asma-write-byte JMP2 ( tail call )
&not-opcode
;asma-parse-hex-string JSR2 JMP
( hex invalid ) ,&not-hex JMP
( hex byte ) ,asma-byte-helper/raw JMP
( hex short ) ,asma-short-helper/raw JMP
&not-hex
;asma-trees/macros ;asma-traverse-tree JSR2 ,&not-macro JCN
.System/rst DEI #e0 GTH ,&too-deep JCN
&macro-loop
LDAk ,&keep-going JCN
POP2
JMP2r
&keep-going
DUP2k ;asma-strlen JSR2 #00 SWP #0001 ADD2 ADD2
SWP2 ;asma-assemble-token JSR2 asma-IF-ERROR ,&error JCN
,&macro-loop JMP
&not-macro
;asma-msg-label ;asma/error STA2
&error
POP2
JMP2r
&too-deep
;asma-msg-too-deep ;asma/error STA2
POP2
JMP2r
( Error messages )
@asma-msg-hex "Invalid 20 "hexadecimal 00
@asma-msg-zero-page "Address 20 "not 20 "in 20 "zero 20 "page 00
@asma-msg-relative "Address 20 "outside 20 "range 00
@asma-msg-label "Label 20 "not 20 "found 00
@asma-msg-macro "Macro 20 "already 20 "exists 00
@asma-msg-rewound "Memory 20 "overwrite 00
@asma-msg-too-deep "Macro 20 "expansion 20 "level 20 "too 20 "deep 00
( trees )
( --- 8< ------- 8< --- cut here --- 8< ------- 8< --- )
( automatically generated code below )
( see etc/asma.moon for instructions )
( label less greater key binary
than than string data )
@asma-first-char-comment
&_entry $2 $2 ') 00 :asma-comment-end
@asma-first-char-macro
&28 $2 $2 '( 00 :asma-comment-start
&29 :&28 $2 ') 00 :asma-comment-end
&_entry :&29 :&7d '{ 00 :asma-ignore
&7d $2 $2 '} 00 :asma-macro-end
@asma-first-char-normal
&22 $2 $2 '" 00 :asma-raw-word
&23 :&22 $2 '# 00 :asma-literal-hex
&24 :&23 :&25 '$ 00 :asma-pad-relative
&25 $2 $2 '% 00 :asma-macro-define
&26 :&24 :&29 26 00 ( & ) :asma-sublabel-define
&27 $2 $2 '' 00 :asma-raw-char
&28 :&27 $2 '( 00 :asma-comment-start
&29 :&28 :&2c ') 00 :asma-comment-end
&2c $2 $2 ', 00 :asma-literal-rel-addr
&_entry :&26 :&5d '. 00 :asma-literal-zero-addr
&3a $2 $2 ': 00 :asma-abs-addr
&3b :&3a $2 '; 00 :asma-literal-abs-addr
&40 :&3b :&5b '@ 00 :asma-label-define
&5b $2 $2 '[ 00 :asma-ignore
&5d :&40 :&7c '] 00 :asma-ignore
&7b $2 $2 '{ 00 :asma-ignore
&7c :&7b :&7d '| 00 :asma-pad-absolute
&7d $2 $2 '} 00 :asma-ignore
@asma-opcodes
&BRK :&AND :&DEI &_disasm "BRK 00
&_entry :&EQU :&ROT "LIT 00
&NOP :&MUL :&OVR "NOP 00
&POP $2 $2 "POP 00
&DUP :&DIV :&EOR "DUP 00
&SWP $2 $2 "SWP 00
&OVR :&ORA :&POP "OVR 00
&ROT :&NOP :&STR "ROT 00
&EQU :&DEO :&JSR "EQU 00
&NEQ $2 $2 "NEQ 00
&GTH $2 $2 "GTH 00
&LTH $2 $2 "LTH 00
&JMP $2 $2 "JMP 00
&JCN :&GTH :&JMP "JCN 00
&JSR :&JCN :&LDR "JSR 00
&STH $2 $2 "STH 00
&LDZ $2 $2 "LDZ 00
&STZ $2 $2 "STZ 00
&LDR :&LDA :&LDZ "LDR 00
&STR :&STA :&SUB "STR 00
&LDA $2 $2 "LDA 00
&STA :&SFT :&STH "STA 00
&DEI $2 $2 "DEI 00
&DEO :&BRK :&DUP "DEO 00
&ADD $2 $2 "ADD 00
&SUB :&STZ :&SWP "SUB 00
&MUL :&LTH :&NEQ "MUL 00
&DIV $2 $2 "DIV 00
&AND :&ADD $2 "AND 00
&ORA $2 $2 "ORA 00
&EOR $2 $2 "EOR 00
&SFT $2 $2 "SFT 00
(
Heap, a large temporary area for keeping track of labels. More complex
programs need more of this space. If there's insufficient space then the
assembly process will fail, but having extra space above what the most
complex program needs provides no benefit.
This heap, and the buffers below, are free to be used to hold temporary
data between assembly runs, and do not need to be initialized with any
particular contents to use the assembler.
)
@asma-heap
|e000 &end
(
Buffer for use with loading source code.
The minimum size is the length of the longest token plus one, which is
0x21 to keep the same capability of the C assembler.
Larger sizes are more efficient, provided there is enough
heap space to keep track of all the labels.
)
@asma-read-buffer
|f800 &end
(
Buffer for use with writing output.
The minimum size is 1, and larger sizes are more efficient.
)
@asma-write-buffer
|ffff &end