( ----- 000 ) \ #### volksFORTH #### cas 11apr21 volksFORTH designed and developed by the volksFORTH team see https://volksforth.sf.net https://github.com/forth-ev/VolksForth for documentation, updated versions and development information ( ----- 001 ) \ MS-DOS volksForth Load Screen ks cas 18jul20 warning off \ disable warnings during compilation Onlyforth \needs Transient include meta.fb 2 loadfrom META.fb new FORTH.COM Onlyforth Target definitions 4 &111 thru \ Standard 8088-System warning on flush \ close FORTH.COM cr .( new kernel as "FORTH.COM" written) cr bell ( ----- 002 ) \\ The use of the 8088/86 register ks 27 oct 86 The assembler uses forth style names for the register Mapping of Forth Registernames to INTEL Register Names: A <=> AX A- <=> AL A+ <=> AH C <=> CX C- <=> CL C+ <=> CH Register A and C are free to use D <=> DX D- <=> DL D+ <=> DH the Top of (Data-) Stack (TOS) R <=> BX R- <=> RL R+ <=> RH the Return_stack_pointer ( ----- 003 ) \\ The use of the 8088/86 register ks 27 oct 86 U <=> BP User_area_pointer S <=> SP Daten_stack_pointer I <=> SI Instruction_pointer W <=> DI Word_pointer, free for general use D: <=> DS E: <=> ES S: <=> SS C: <=> CS All segment registers are set to the value of code-segment C: and must be restored to the same if changed in the code ( ----- 004 ) \ FORTH Preamble and ID ks 11 m„r 89 Assembler nop 5555 # jmp here 2- >label >cold nop 5555 # jmp here 2- >label >restart Create origin here origin! here $100 0 fill \ Coldstart values for user variables $E9 int end-code -4 , $FC allot \ this is the multitasker initialization in the user area | Create logo ," volksFORTH-83 Version 3.9.3" ( ----- 005 ) \ Next ks 27 oct 86 Variable next-link 0 next-link ! Host Forth Assembler also definitions : Next lods A W xchg W ) jmp there tnext-link @ T , H tnext-link ! ; \ Next is in-line code. All "nexts" are linked into a \ list with the anchor NEXT-LINK for the debugger : u' ( -- offset ) T ' 2+ c@ H ; Target ( ----- 006 ) \ recover ;c: noop ks 27 oct 86 Create recover Assembler R dec R dec I R ) mov I pop Next end-code Host Forth Assembler also definitions : ;c: 0 T recover # call ] end-code H ; Target | Code di cli Next end-code | Code ei sti here Next end-code Code noop here 2- ! end-code ( ----- 007 ) \ User variables ks 16 sep 88 8 uallot drop \ Space for the multitasker \ Fields: entry link spare SPsave \ Length compatible to 68000, 6502 and 8080 volksFORTH User s0 User r0 User dp User offset 0 offset ! User base &10 base ! User output User input User errorhandler \ pointer for Abort" -code User aborted \ code address of latest error User voc-link User file-link ( TODO: Why is UDP a user variable? ) User udp \ points to next free addr in User_area ( ----- 008 ) \ manipulate system pointers ks 03 aug 87 Code sp@ ( -- addr ) D push S D mov Next end-code Code sp! ( addr -- ) D S mov D pop Next end-code Code up@ ( -- addr ) D push U D mov Next end-code Code up! ( addr -- ) D U mov D pop Next end-code Code ds@ ( -- addr ) D push D: D mov Next end-code $10 Constant b/seg \ bytes per segment ( ----- 009 ) \ manipulate returnstack ks 27 oct 86 Code rp@ ( -- addr ) D push R D mov Next end-code Code rp! ( addr -- ) D R mov D pop Next end-code Code >r ( 16b -- ) R dec R dec D R ) mov D pop Next end-code restrict Code r> ( -- 16b ) D push R ) D mov R inc R inc Next end-code restrict ( ----- 010 ) \ r@ rdrop exit unnest ?exit ks 27 oct 86 Code r@ ( -- 16b ) D push R ) D mov Next end-code Code rdrop R inc R inc Next end-code restrict Code exit Label >exit R ) I mov R inc R inc Next end-code Code unnest >exit here 2- ! end-code Code ?exit ( flag -- ) D D or D pop >exit 0= ?] [[ Next end-code Code 0=exit ( flag -- ) D D or D pop >exit 0= not ?] ]] end-code \ : ?exit ( flag -- ) IF rdrop THEN ; ( ----- 011 ) \ execute perform ks 27 oct 86 Code execute ( acf -- ) D W mov D pop W ) jmp end-code Code perform ( addr -- ) D W mov D pop W ) W mov W ) jmp end-code \ : perform ( addr -- ) @ execute ; ( ----- 012 ) \ c@ c! ctoggle ks 27 oct 86 Code c@ ( addr -- 8b ) D W mov W ) D- mov 0 # D+ mov Next end-code Code c! ( 16b addr -- ) D W mov A pop A- W ) mov D pop Next end-code Code ctoggle ( 8b addr -- ) D W mov A pop A- W ) xor D pop Next end-code \ : ctoggle ( 8b addr -- ) under c@ xor swap c! ; Code flip ( 16b1 -- 16b2 ) D- D+ xchg Next end-code ( ----- 013 ) \ @ ! 2@ 2! ks 27 oct 86 Code @ ( addr -- 16b ) D W mov W ) D mov Next end-code Code ! ( 16b addr -- ) D W mov W ) pop D pop Next end-code : 2@ ( addr -- 32b ) dup 2+ @ swap @ ; : 2! ( 32b addr -- ) under ! 2+ ! ; ( ----- 014 ) \ +! drop swap ks 27 oct 86 Code +! ( 16b addr -- ) D W mov A pop A W ) add D pop Next end-code \ : +! ( n addr -- ) under @ + swap ! ; Code drop ( 16b -- ) D pop Next end-code Code swap ( 16b1 16b2 -- 16b2 16b1 ) A pop D push A D xchg Next end-code ( ----- 015 ) \ dup ?dup ks 27 oct 86 Code dup ( 16b -- 16b 16b ) D push Next end-code \ : dup ( 16b -- 16b 16b ) sp@ @ ; Code ?dup ( 16b -- 16b 16b / false ) D D or 0= not ?[ D push ]? Next end-code \ : ?dup ( 16b -- 16b 16b / false) dup 0=exit dup ; ( ----- 016 ) \ over rot nip under ks 27 oct 86 Code over ( 16b1 16b2 -- 16b1 16b2 16b1 ) A D xchg D pop D push A push Next end-code \ : over >r dup r> swap ; Code rot ( 16b1 16b2 16b3 -- 16b2 16b3 16b1 ) A D xchg C pop D pop C push A push Next end-code \ : rot >r swap r> swap ; Code nip ( 16b1 16b2 -- 16b2 ) S inc S inc Next end-code \ : nip swap drop ; Code under ( 16b1 16b2 -- 16b2 16b1 16b2 ) A pop D push A push Next end-code \ : under swap over ; ( ----- 017 ) \ -rot pick ks 27 oct 86 Code -rot ( 16b1 16b2 16b3 -- 16b3 16b1 16b2 ) A D xchg D pop C pop A push C push Next end-code \ : -rot ( 16b1 16b2 16b3 -- 16b3 16b1 16b2 ) rot rot ; Code pick ( n -- 16b.n ) D sal D W mov S W add W ) D mov Next end-code \ : pick ( n -- 16b.n ) 1+ 2* sp@ + @ ; ( ----- 018 ) \ roll -roll ks 27 oct 86 Code roll ( n -- ) A I xchg D sal D C mov D I mov S I add I ) D mov I W mov I dec W inc std rep byte movs cld A I xchg S inc S inc Next end-code \ : roll ( n -- ) \ dup >r pick sp@ dup 2+ r> 1+ 2* cmove> drop ; Code -roll ( n -- ) A I xchg D sal D C mov S W mov D pop S I mov S dec S dec rep byte movs D W ) mov D pop A I xchg Next end-code \ : -roll ( n -- ) >r dup sp@ dup 2+ \ dup 2+ swap r@ 2* cmove r> 1+ 2* + ! ; ( ----- 019 ) \ 2swap 2drop 2dup 2over ks 27 oct 86 Code 2swap ( 32b1 32b2 -- 32b2 32b1 ) C pop A pop W pop C push D push W push A D xchg Next end-code \ : 2swap ( 32b1 32b2 -- 32b2 32b1 ) rot >r rot r> ; Code 2drop ( 32b -- ) S inc S inc D pop Next end-code \ : 2drop ( 32b -- ) drop drop ; Code 2dup ( 32b -- 32b 32b ) S W mov D push W ) push Next end-code \ : 2dup ( 32b -- 32b 32b ) over over ; Code 2over ( 1 2 x x -- 1 2 x x 1 2 ) D push S W mov 6 W D) push 4 W D) D mov Next end-code \ : 2over ( 1 2 x x -- 1 2 x x 1 2 ) 3 pick 3 pick ; ( ----- 020 ) \ and or xor not ks 27 oct 86 Code not ( 16b1 -- 16b2 ) D com Next end-code Code and ( 16b1 16b2 -- 16b3 ) A pop A D and Next end-code Code or ( 16b1 16b2 -- 16b3 ) A pop A D or Next end-code \ : or ( 16b1 16b2 -- 16b3 ) not swap not and not ; Code xor ( 16b1 16b2 -- 16b3 ) A pop A D xor Next end-code ( ----- 021 ) \ + - negate ks 27 oct 86 Code + ( n1 n2 -- n3 ) A pop A D add Next end-code Code negate ( n1 -- n2 ) D neg Next end-code \ : negate ( n1 -- n2 ) not 1+ ; Code - ( n1 n2 -- n3 ) A pop D A sub A D xchg Next end-code \ : - ( n1 n2 -- n3 ) negate + ; ( ----- 022 ) \ dnegate d+ ks 27 oct 86 Code dnegate ( d1 -- -d1 ) D com A pop A neg CS not ?[ D inc ]? A push Next end-code Code d+ ( d1 d2 -- d3 ) A pop C pop W pop W A add A push C D adc Next end-code ( ----- 023 ) \ 1+ 2+ 3+ 4+ 6+ 1- 2- 4- ks 27 oct 86 Code 1+ ( n1 -- n2 ) [[ D inc Next Code 2+ ( n1 -- n2 ) [[ D inc swap ]] Code 3+ ( n1 -- n2 ) [[ D inc swap ]] Code 4+ ( n1 -- n2 ) [[ D inc swap ]] | Code 6+ ( n1 -- n2 ) D inc D inc ]] end-code Code 1- ( n1 -- n2 ) [[ D dec Next Code 2- ( n1 -- n2 ) [[ D dec swap ]] Code 4- ( n1 -- n2 ) D dec D dec ]] end-code ( ----- 024 ) \ number Constants ks 30 jan 88 -1 Constant true 0 Constant false 0 ( -- 0 ) Constant 0 1 ( -- 1 ) Constant 1 2 ( -- 2 ) Constant 2 3 ( -- 3 ) Constant 3 4 ( -- 4 ) Constant 4 -1 ( -- -1 ) Constant -1 Code on ( addr -- ) -1 # A mov [[ D W mov A W ) mov D pop Next Code off ( addr -- ) 0 # A mov ]] end-code \ : on ( addr -- ) true swap ! ; \ : off ( addr -- ) false swap ! ; ( ----- 025 ) \ words for number literals ks 27 oct 86 Code lit ( -- 16b ) D push I ) D mov I inc [[ I inc Next end-code restrict Code clit ( -- 8b ) D push I ) D- mov 0 # D+ mov ]] end-code restrict : Literal ( 16b -- ) dup $FF00 and IF compile lit , exit THEN compile clit c, ; immediate restrict ( ----- 026 ) \ comparision code words ks 27 oct 86 Code 0= ( 16b -- flag ) D D or 0 # D mov 0= ?[ D dec ]? Next end-code Code 0<> ( n -- flag ) D D or 0 # D mov 0= not ?[ D dec ]? Next end-code \ : 0<> ( n -- flag ) 0= not ; Code u< ( u1 u2 -- flag ) A pop [[ D A sub 0 # D mov CS ?[ D dec ]? Next end-code Code u> ( u1 u2 -- flag ) A D xchg D pop ]] end-code \ : u> ( u1 u2 -- flag ) swap u< ; ( ----- 027 ) \ comparision words ks 13 sep 88 Code < ( n1 n2 -- flag ) A pop [[ [[ D A sub 0 # D mov < ?[ D dec ]? Next end-code Code > ( n1 n2 -- flag ) A D xchg D pop ]] end-code Code 0> ( n -- flag ) A A xor ]] end-code \ : < ( n1 n2 -- flag ) \ 2dup xor 0< IF drop 0< exit THEN - 0< ; \ : > ( n1 n2 -- flag ) swap < ; \ : 0> ( n -- flag ) negate 0< ; Code 0< ( n1 n2 -- flag ) D D or 0 # D mov 0< ?[ D dec ]? Next end-code \ : 0< ( n1 -- flag ) 8000 and 0<> ; ( ----- 028 ) \ comparision words ks 27 oct 86 Code = ( n1 n2 -- flag ) A pop A D cmp 0 # D mov 0= ?[ D dec ]? Next end-code \ : = ( n1 n2 -- flag ) - 0= ; Code uwithin ( u1 [low high[ -- flag ) A pop C pop A C cmp CS ?[ [[ swap 0 # D mov Next ]? D C cmp CS ?] -1 # D mov Next end-code \ : uwithin ( u1 [low up[ -- f ) over - -rot - u> ; Code case? ( 16b1 16b2 -- 16b1 ff / tf ) A pop A D sub 0= ?[ D dec ][ A push D D xor ]? Next end-code \ : case? ( 16b1 16b2 -- 16b1 false / true ) \ over = dup 0=exit nip ; ( ----- 029 ) \ double number comparisons ks 27 oct 86 Code d0= ( d - f) A pop A D or 0= not ?[ 1 # D mov ]? D dec Next end-code \ : d0= ( d -- flag ) or 0= ; : d= ( d1 d2 -- flag ) dnegate d+ d0= ; Code d< ( d1 d2 -- flag ) C pop A pop D A sub A pop -1 # D mov < ?[ [[ swap Next ]? 0= ?[ C A sub CS ?[ D dec ]? ]? D inc ]] end-code \ : d< ( d1 d2 -- flag ) \ rot 2dup - IF > nip nip exit THEN 2drop u< ; ( ----- 030 ) \ min max umax umin abs dabs extend ks 27 oct 86 Code min ( n1 n2 -- n3 ) A pop A D sub < ?[ D A add ]? [[ [[ [[ A D xchg Next end-code Code max ( n1 n2 -- n3 ) A pop A D sub dup < not ?] D A add ]] end-code Code umin ( u1 u2 -- u3 ) A pop A D sub dup CS ?] D A add ]] end-code Code umax ( u1 u2 -- u3 ) A pop A D sub dup CS not ?] D A add ]] end-code Code extend ( n -- d ) A D xchg cwd A push Next end-code Code abs ( n -- u ) D D or 0< ?[ D neg ]? Next end-code : dabs ( d -- ud ) extend 0=exit dnegate ; ( ----- 031 ) \\ min max umax umin extend 10Mar8 | : minimax ( n1 n2 flag -- n3 ) rdrop IF swap THEN drop ; : min ( n1 n2 -- n3 ) 2dup > minimax ; : max ( n1 n2 -- n3 ) 2dup < minimax ; : umax ( u1 u2 -- u3 ) 2dup u< minimax ; : umin ( u1 u2 -- u3 ) 2dup u> minimax ; : extend ( n -- d ) dup 0< ; : dabs ( d -- ud ) extend IF dnegate THEN ; : abs ( n -- u) extend IF negate THEN ; ( ----- 032 ) \ (do (?do endloop bounds ks 30 jan 88 Code (do ( limit start -- ) A pop [[ $80 # A+ xor R dec R dec I inc I inc I R ) mov R dec R dec A R ) mov R dec R dec A D sub D R ) mov D pop Next end-code restrict Code (?do ( limit start -- ) A pop A D cmp 0= ?] I ) I add D pop Next end-code restrict Code endloop 6 # R add Next end-code restrict Code bounds ( start count -- limit start ) A pop A D xchg D A add A push Next end-code \ : bounds ( start count -- limit start ) over + swap ; ( ----- 033 ) \ (loop (+loop ks 27 oct 86 Code (loop R ) word inc [[ OS not ?[ 4 R D) I mov ]? Next end-code restrict Code (+loop D R ) add D pop ]] end-code restrict \\ | : dodo rdrop r> 2+ dup >r rot >r swap >r >r ; \ dodo puts "index | limit | adr.of.DO" on return-stack : (do ( limit start -- ) over - dodo ; restrict : (?do ( limit start -- ) over - ?dup IF dodo THEN r> dup @ + >r drop ; restrict ( ----- 034 ) \ loop indices ks 27 oct 86 Code I ( -- n ) D push R ) D mov 2 R D) D add Next end-code \ : I ( -- n ) r> r> dup r@ + -rot >r >r ; Code J ( -- n ) D push 6 R D) D mov 8 R D) D add Next end-code ( ----- 035 ) \ branch ?branch ks 27 oct 86 Code branch [[ I ) I add Next end-code restrict \ : branch r> dup @ + >r ; Code ?branch D D or D pop 0= not ?] I inc I inc Next end-code restrict ( ----- 036 ) \ resolve loops and branches ks 02 okt 87 : >mark ( -- addr ) here 0 , ; : >resolve ( addr -- ) here over - swap ! ; : mark 1 ; immediate restrict : THEN abs 1 ?pairs >resolve ; immediate restrict : ELSE 1 ?pairs compile branch >mark swap >resolve -1 ; immediate restrict : BEGIN mark -2 2swap ; immediate restrict | : (repeat 2 ?pairs resolve REPEAT ; : REPEAT compile branch (repeat ; immediate restrict : UNTIL compile ?branch (repeat ; immediate restrict ( ----- 038 ) \ Loops ks 27 oct 86 : DO compile (do >mark 3 ; immediate restrict : ?DO compile (?do >mark 3 ; immediate restrict : LOOP 3 ?pairs compile (loop compile endloop >resolve ; immediate restrict : +LOOP 3 ?pairs compile (+loop compile endloop >resolve ; immediate restrict Code LEAVE 6 # R add -2 R D) I mov I dec I dec I ) I add Next end-code restrict \ : LEAVE endloop r> 2- dup @ + >r ; restrict \ Returnstack: | calladr | index | limit | adr of DO | ( ----- 039 ) \ um* m* * ks 29 jul 87 Code um* ( u1 u2 -- ud3 ) A D xchg C pop C mul A push Next end-code Code m* ( n1 n2 -- d3 ) A D xchg C pop C imul A push Next end-code \ : m* ( n1 n2 -- d ) dup 0< dup >r IF negate THEN swap \ dup 0< IF negate r> not >r THEN um* r> 0=exit dnegate ; : * ( n1 n2 - prod ) um* drop ; Code 2* ( u -- 2*u ) D shl Next end-code \ : 2* ( u -- 2*u ) dup + ; ( ----- 040 ) \ um/mod m/mod ks 27 oct 86 Code um/mod ( ud1 u2 -- urem uquot ) D C mov D pop A pop C div A D xchg A push Next end-code Code m/mod ( d1 n2 -- rem quot ) D C mov D pop Label divide D+ A+ mov C+ A+ xor A pop 0< not ?[ C idiv [[ swap A D xchg A push Next ]? C idiv D D or dup 0= not ?] A dec C D add ]] end-code \ : m/mod ( d n -- mod quot ) dup >r \ abs over 0< IF under + swap THEN um/mod r@ 0< \ IF negate over IF swap r@ + swap 1- THEN THEN rdrop ; ( ----- 041 ) \ /mod division trap 2/ ks 13 sep 88 Code /mod ( n1 n2 -- rem quot ) D C mov A pop cwd A push divide ]] end-code \ : /mod ( n1 n2 -- rem quot ) over 0< swap m/mod ; 0 >label >divINT Label divovl Assembler 4 # S add popf 1 # D- mov ;c: Abort" / overflow" ; Code 2/ ( n1 -- n/2 ) D sar Next end-code \ : 2/ ( n -- n/2 ) 2 / ; ( ----- 042 ) \ / mod */mod */ u/mod ud/mod ks 27 oct 86 : / ( n1 n2 -- quot ) /mod nip ; : mod ( n1 n2 -- rem ) /mod drop ; : */mod ( n1 n2 n3 -- rem quot ) >r m* r> m/mod ; : */ ( n1 n2 n3 -- quot ) */mod nip ; : u/mod ( u1 u2 -- urem uquot ) 0 swap um/mod ; : ud/mod ( ud1 u2 -- urem udquot ) >r 0 r@ um/mod r> swap >r um/mod r> ; ( ----- 043 ) \ cmove cmove> move ks 27 oct 86 Code cmove ( from to quan -- ) A I xchg D C mov W pop I pop D pop rep byte movs A I xchg Next end-code Code cmove> ( from to quan -- ) A I xchg D C mov W pop I pop D pop Label moveup C dec C W add C I add C inc std rep byte movs A I xchg cld Next end-code Code move ( from to quan -- ) A I xchg D C mov W pop I pop D pop Label domove I W cmp moveup CS ?] rep byte movs A I xchg Next end-code ( ----- 044 ) \ place count ks 27 oct 86 | Code (place ( addr len to - len to) A I xchg D W mov C pop I pop C push W inc domove ]] end-code : place ( addr len to -) (place c! ; Code count ( addr -- addr+1 len ) D W mov W ) D- mov 0 # D+ mov W inc W push Next end-code \ : move ( from to quan -- ) \ >r 2dup u< IF r> cmove> exit THEN r> cmove ; \ : place ( addr len to -- ) over >r rot over 1+ r> move c! ; \ : count ( adr -- adr+1 len ) dup 1+ swap c@ ; ( ----- 045 ) \ fill erase ks 27 oct 86 Code fill ( addr quan 8b -- ) D A xchg C pop W pop D pop rep byte stos Next end-code \ : fill ( addr quan 8b -- ) swap ?dup \ IF >r over c! dup 1+ r> 1- cmove exit THEN 2drop ; : erase ( addr quan --) 0 fill ; ( ----- 046 ) \ here allot , c, pad compile ks 27 oct 86 Code here ( -- addr ) D push u' dp U D) D mov Next end-code \ : here ( -- addr ) dp @ ; Code allot ( n -- ) D u' dp U D) add D pop Next end-code \ : allot ( n -- ) dp +! ; : , ( 16b -- ) here ! 2 allot ; : c, ( 8b -- ) here c! 1 allot ; : pad ( -- addr ) here $42 + ; : compile r> dup 2+ >r @ , ; restrict ( ----- 047 ) \ input strings ks 23 dez 87 Variable #tib #tib off Variable >tib here >tib ! $50 allot Variable >in >in off Variable blk blk off Variable span span off : tib ( -- addr ) >tib @ ; : query tib $50 expect span @ #tib ! >in off ; ( ----- 048 ) \ skip scan /string ks 22 dez 87 Code skip ( addr len char -- addr1 len1 ) A D xchg C pop C0= not ?[ W pop 0=rep byte scas 0= not ?[ W dec C inc ]? W push ]? C D mov Next end-code Code scan ( addr0 len0 char -- addr1 len1 ) A D xchg C pop C0= not ?[ W pop 0<>rep byte scas 0= ?[ W dec C inc ]? W push ]? C D mov Next end-code Code /string ( addr0 len0 +n -- addr1 len1 ) A pop C pop D A sub CS ?[ A D add A A xor ]? C D add D push A D xchg Next end-code ( ----- 049 ) \\ scan skip /string ks 29 jul 87 : skip ( addr0 len0 char -- addr1 len1 ) >r BEGIN dup WHILE over c@ r@ = WHILE 1- swap 1+ swap REPEAT rdrop ; : scan ( addr0 len0 char -- addr1 len1 ) >r BEGIN dup WHILE over c@ r@ - WHILE 1- swap 1+ swap REPEAT rdrop ; : /string ( addr0 len0 +n -- addr1 len1 ) over umin rot over + -rot - ; ( ----- 050 ) \ capital ks 19 dez 87 Create (capital Assembler $61 # A- cmp CS not ?[ $7B # A- cmp CS not ?[ $84 # A- cmp 0= ?[ $8E # A- mov ret ]? \ $94 # A- cmp 0= ?[ $99 # A- mov ret ]? \ $81 # A- cmp 0= ?[ $9A # A- mov ]? ret \ ]? $20 # A- xor ]? ret end-code Code capital ( char -- char' ) A D xchg (capital # call A D xchg Next end-code ( ----- 051 ) \ upper ks 03 aug 87 Code upper ( addr len -- ) D C mov W pop D pop C0= not ?[ [[ W ) A- mov (capital # call A- W ) mov W inc C0= ?] ]? Next end-code \\ high level definition, without umlauts : capital ( char -- char') dup [char] a [ char z 1+ ] Literal uwithin not ?exit [ char a char A - ] Literal - ; : upper ( addr len -- ) bounds ?DO I c@ capital I c! LOOP ; ( ----- 052 ) \ (word ks 28 mai 87 | Code (word ( char addr0 len0 -- addr1 ) D C mov W pop A pop >in #) D mov D C sub >= not ?[ C push D W add 0=rep byte scas W D mov 0= not ?[ W dec D dec C inc 0<>rep byte scas 0= ?[ W dec ]? ]? A pop C A sub A >in #) add W C mov D C sub 0= not ?[ D I xchg u' dp U D) W mov C- W ) mov W inc rep byte movs $20 # W ) byte mov D I mov u' dp U D) D mov Next swap ]? C >in #) add ]? u' dp U D) W mov $2000 # W ) mov W D mov Next end-code ( ----- 053 ) \ postpone cs 19 apr 21 : postpone ' dup >name c@ $40 and IF , ELSE [compile] compile compile , THEN ; immediate \\ (word | : (word ( char adr0 len0 -- addr ) rot >r over swap >in @ /string r@ skip over swap r> scan >r rot over swap - r> 0<> - >in ! over - here dup >r place bl r@ count + c! r> ; ( ----- 054 ) \ source word parse name ks 03 aug 87 defer source : (source ( -- addr len ) tib #tib @ ; ' (source Is source : word ( char -- addr ) source (word ; : parse ( char -- addr len ) >r source >in @ /string over swap r> scan >r over - dup r> 0<> - >in +! ; : name ( -- string ) bl word dup count upper exit ; ( ----- 055 ) \ state char [char] ," "lit (" " cs 19 apr 21 Variable state state off : char ( "char" -- c ) bl word 1+ c@ ; : [char] ( "char" -- ) char [compile] Literal ; immediate restrict : ," [char] " parse here over 1+ allot place ; Code "lit ( -- addr ) D push R ) D mov D W mov W ) A- mov 0 # A+ mov A inc A R ) add Next end-code restrict \ : "lit r> r> under count + even >r >r ; restrict : (" "lit ; restrict : " compile (" ," align ; immediate restrict ( ----- 056 ) \ ." ( .( \ \\ hex decimal ks 12 dez 88 : (." "lit count type ; restrict : ." compile (." ," align ; immediate restrict : ( [char] ) parse 2drop ; immediate : .( [char] ) parse type ; immediate : \ >in @ negate c/l mod >in +! ; immediate : \\ b/blk >in ! ; immediate : have ( -- f ) name find nip 0<> ; immediate : \needs have 0=exit [compile] \ ; : hex $10 base ! ; : decimal &10 base ! ; ( ----- 057 ) \ number conversion: digit? accumulate convert ks 08 okt 87 : digit? ( char -- digit true/ false ) dup [char] 9 > ( IF [ char A char 9 - 1- ] Literal - dup [char] 9 > and) IF 7 - dup [char] 9 > and THEN [char] 0 - dup base @ u< dup ?exit nip ; : accumulate ( +d0 adr digit -- +d1 adr ) swap >r swap base @ um* drop rot base @ um* d+ r> ; : convert ( +d1 addr0 -- +d2 addr2 ) 1+ BEGIN count digit? WHILE accumulate REPEAT 1- ; ( ----- 058 ) \ number conversion ks 29 jun 87 | : end? ( -- flag ) >in @ 0= ; | : nchr ( addr0 -- addr1 char ) count -1 >in +! ; | : previous ( addr0 -- addr0 char ) 1- count ; | : punctuation? ( char -- flag ) [char] , over = swap [char] . = or ; \ : punctuation? ( char -- f ) ?" .," ; | : fixbase? ( char -- char false / newbase true ) capital [char] $ case? IF $10 true exit THEN [char] H case? IF $10 true exit THEN [char] & case? IF &10 true exit THEN [char] % case? IF 2 true exit THEN false ; ( ----- 059 ) \ number conversion: dpl ?num ?nonum ?dpl ks 27 oct 86 Variable dpl -1 dpl ! | : ?num ( flag -- exit if true ) 0=exit rdrop drop r> IF dnegate THEN rot drop dpl @ 1+ ?dup ?exit drop true ; | : ?nonum ( flag -- exit if true ) 0=exit rdrop 2drop drop rdrop false ; | : ?dpl dpl @ -1 = ?exit 1 dpl +! ; ( ----- 060 ) \ number conversion: number? number ks 27 oct 86 : number? ( string -- string false / n 0< / d 0> ) base push >in push dup count >in ! dpl on 0 >r ( +sign) 0.0 rot end? ?nonum nchr [char] - case? IF rdrop true >r end? ?nonum nchr THEN fixbase? IF base ! end? ?nonum nchr THEN BEGIN digit? 0= ?nonum BEGIN accumulate ?dpl end? ?num nchr digit? 0= UNTIL previous punctuation? 0= ?nonum dpl off end? ?num nchr REPEAT ; : number ( string -- d ) number? ?dup 0= Abort" ?" 0> ?exit extend ; ( ----- 061 ) \ hide reveal immediate restrict ks 18 m„r 88 Variable last last off : last' ( -- cfa ) last @ name> ; | : last? ( -- false / nfa true) last @ ?dup ; : hide last? 0=exit 2- @ current @ ! ; : reveal last? 0=exit 2- current @ ! ; : Recursive reveal ; immediate restrict | : flag! ( 8b --) last? IF under c@ or over c! THEN drop ; : immediate $40 flag! ; : restrict $80 flag! ; ( ----- 062 ) \ clearstack hallot heap heap? ks 27 oct 86 Code clearstack u' s0 U D) S mov D pop Next end-code : hallot ( quan -- ) s0 @ over - swap sp@ 2+ dup rot - dup s0 ! 2 pick over - di move clearstack ei s0 ! ; : heap ( -- addr ) s0 @ 6 + ; : heap? ( addr -- flag ) heap up@ uwithin ; | : heapmove ( from -- from ) dup here over - dup hallot heap swap cmove heap over - last +! reveal ; ( ----- 063 ) \ Does> ; ks 18 m„r 88 | Create dodo Assembler R dec R dec I R ) mov \ push IP D push 2 W D) D lea \ load parameter address W ) I mov 3 # I add Next end-code dodo Host tdodo ! Target \ target compiler needs to know : (;code r> last' ! ; : Does> compile (;code $E9 c, ( jmp instruction) dodo here 2+ - , ; immediate restrict ( ----- 064 ) \ ?head | alignments ks 19 m„r 88 Variable ?head ?head off : | ?head @ ?exit ?head on ; \ no alignment required on x86 : even ( addr -- addr1 ) ; immediate : align ( -- ) ; immediate : halign ( -- ) ; immediate Variable warning warning on | : ?exists warning @ 0=exit last @ current @ (find nip 0=exit space last @ .name ." exists " ?cr ; ( ----- 065 ) \ Create Variable ks 19 m„r 88 Defer makeview ' 0 Is makeview : Create align here makeview , current @ @ , name c@ dup 1 $20 uwithin not Abort" invalid name" here last ! 1+ allot align ?exists ?head @ IF 1 ?head +! dup , \ Pointer to Code halign heapmove $20 flag! dup dp ! THEN drop reveal 0 , ;Code ( -- addr ) D push 2 W D) D lea Next end-code : Variable Create 0 , ; ( ----- 066 ) \ nfa? ks 28 mai 87 Code nfa? ( thread cfa -- nfa / false ) W pop R A mov $1F # C mov [[ W ) W mov W W or 0= not ?[[ 2 W D) R- mov C R and 3 R W DI) R lea $20 # 2 W D) test 0= not ?[ R ) R mov ]? D R cmp 0= ?] 2 W D) W lea ]? W D mov A R mov Next end-code \\ : nfa? ( thread cfa -- nfa / false ) >r BEGIN @ dup 0= IF rdrop exit THEN dup 2+ name> r@ = UNTIL 2+ rdrop ; ( ----- 067 ) \ >name name> >body .name ks 13 aug 87 : >name ( acf -- anf / ff ) voc-link BEGIN @ dup WHILE 2dup 4 - swap nfa? ?dup IF -rot 2drop exit THEN REPEAT nip ; : (name> ( nfa -- cfa ) count $1F and + even ; : name> ( nfa -- cfa ) dup (name> swap c@ $20 and 0=exit @ ; : >body ( cfa -- pfa ) 2+ ; : body> ( pfa -- cfa ) 2- ; : .name ( nfa -- ) ?dup IF dup heap? IF ." | " THEN count $1F and type ELSE ." ???" THEN space ; ( ----- 068 ) \ : ; Constant Variable ks 29 oct 86 : Create: Create hide current @ context ! 0 ] ; : : Create: ;Code R dec R dec I R ) mov 2 W D) I lea Next end-code : ; 0 ?pairs compile unnest [compile] [ reveal ; immediate restrict : Constant ( n -- ) Create , ;Code ( -- n ) D push 2 W D) D mov Next end-code ( ----- 069 ) \ uallot User Alias Defer ks 02 okt 87 : uallot ( quan -- offset ) even dup udp @ + $FF u> Abort" Userarea full" udp @ swap udp +! ; : User Create 2 uallot c, ;Code ( -- addr ) D push 2 W D) D- mov 0 # D+ mov U D add Next end-code : Alias ( cfa -- ) Create last @ dup c@ $20 and IF -2 allot ELSE $20 flag! THEN (name> ! ; | : crash true Abort" crash" ; : Defer Create ['] crash , ;Code 2 W D) W mov W ) jmp end-code ( ----- 070 ) \ vp current context also toss ks 02 okt 87 Create vp $10 allot Variable current : context ( -- adr ) vp dup @ + 2+ ; | : thru.vocstack ( -- from to ) vp 2+ context ; \ "Only Forth also Assembler" gives \ vp: countword = 6 | Root | Forth | Assembler | : also vp @ &10 > Error" Vocabulary stack full" context @ 2 vp +! context ! ; : toss vp @ 0=exit -2 vp +! ; ( ----- 071 ) \ Vocabulary Forth Only Onlyforth definitions ks 19 jun 88 : Vocabulary Create 0 , 0 , here voc-link @ , voc-link ! Does> context ! ; \ | Name | Code | Thread | Coldthread | Voc-link | Vocabulary Forth Host h' Transient 8 + @ T h' Forth 8 + H ! Target Forth also definitions Vocabulary Root : Only vp off Root also ; : Onlyforth Only Forth also definitions ; : definitions context @ current ! ; ( ----- 072 ) \ order vocs words ks 19 jun 88 | : init-vocabularys voc-link @ BEGIN dup 2- @ over 4- ! @ ?dup 0= UNTIL ; | : .voc ( adr -- ) @ 2- >name .name ; : order vp 4+ context over umax DO I .voc -2 +LOOP 2 spaces current .voc ; : vocs voc-link BEGIN @ ?dup WHILE dup 6 - >name .name REPEAT ; : words ( -- ) [compile] char capital >r context @ BEGIN @ dup stop? 0= and WHILE ?cr dup 2+ r@ bl = over 1+ c@ r@ = or IF .name space ELSE drop THEN REPEAT drop rdrop ; ( ----- 073 ) \ (find found ks 09 jul 87 | : found ( nfa -- cfa n ) dup c@ >r (name> r@ $20 and IF @ THEN -1 r@ $80 and IF 1- THEN r> $40 and IF negate THEN ; Code (find ( string thread -- string ff / anf tf ) D I xchg W pop D push W ) A- mov W inc W D mov 0 # C+ mov $1F # A+ mov A+ A- and [[ I ) I mov I I or 0= not ?[[ 2 I D) C- mov A+ C- and A- C- cmp dup 0= ?] I push D W mov 3 # I add 0=rep byte cmps I pop 0= ?] 3 # I add I W mov -1 # D mov ][ D W mov 0 # D mov ]? W dec I pop W push Next end-code ( ----- 074 ) \\ -text (find ks 02 okt 87 : -text ( adr1 len adr2 -- 0< 1<2 / 0= 1=2 / 0> 1>2 ) over bounds DO drop count I c@ - dup IF LEAVE THEN LOOP nip ; : (find ( string thread -- str false / NFA +n ) over c@ $1F and >r @ BEGIN dup WHILE dup @ swap 2+ dup c@ $1F and r@ = IF dup 1+ r@ 4 pick 1+ -text 0= IF rdrop -rot drop exit THEN THEN drop REPEAT rdrop ; ( ----- 075 ) \ find ' [compile] ['] nullstring? ks 29 oct 86 : find ( string -- acf n / string false ) context dup @ over 2- @ = IF 2- THEN BEGIN under @ (find IF nip found exit THEN swap 2- dup vp = UNTIL drop false ; : ' ( -- cfa ) name find ?exit Error" ?" ; : [compile] ' , ; immediate restrict : ['] ' [compile] Literal ; immediate restrict : nullstring? ( string -- string false / true ) dup c@ 0= dup 0=exit nip ; ( ----- 076 ) \ interpreter ks 07 dez 87 Defer notfound | : interpreter ( string -- ) find ?dup IF 1 and IF execute exit THEN Error" compile only" THEN number? ?exit notfound ; | : compiler ( string -- ) find ?dup IF 0> IF execute exit THEN , exit THEN number? ?dup IF 0> IF swap [compile] Literal THEN [compile] Literal exit THEN notfound ; ( ----- 077 ) \ compiler [ ] ks 16 sep 88 : no.extensions ( string -- ) state @ IF Abort" ?" THEN Error" ?" ; ' no.extensions Is notfound Defer parser ( string -- ) ' interpreter Is parser : interpret BEGIN ?stack name nullstring? IF aborted off exit THEN parser REPEAT ; : [ ['] interpreter Is parser state off ; immediate : ] ['] compiler Is parser state on ; ( ----- 078 ) \ Is ks 07 dez 87 : (is r> dup 2+ >r @ ! ; | : def? ( cfa -- ) @ [ ' notfound @ ] Literal - Abort" not deferred" ; : Is ( addr -- ) ' dup def? >body state @ IF compile (is , exit THEN ! ; immediate ( ----- 079 ) \ ?stack ks 01 okt 87 | : stackfull ( -- ) depth $20 > Abort" tight stack" reveal last? IF dup heap? IF name> ELSE 4- THEN (forget THEN true Abort" dictionary full" ; Code ?stack u' dp U D) A mov S A sub CS ?[ $100 # A add CS ?[ ;c: stackfull ; Assembler ]? ]? u' s0 U D) A mov A inc A inc S A sub CS not ?[ Next ]? ;c: true Abort" stack empty" ; \ : ?stack sp@ here - $100 u< IF stackfull THEN \ sp@ s0 @ u> Abort" stack empty" ; ( ----- 080 ) \ .status push ks 29 oct 86 | Create: pull r> r> ! ; : push ( addr -- ) r> swap dup >r @ >r pull >r >r ; restrict Defer .status ' noop Is .status ( ----- 081 ) \ depth rdepth postpone value to : rdepth ( -- +n ) r0 @ rp@ 2+ - 2/ ; : depth ( -- +n ) sp@ s0 @ swap - 2/ ; : value create , DOES> @ ; : TO ( x "name" -- ) ' >body state @ IF [compile] Literal ! ELSE ! THEN ; immediate ( ----- 082 ) \ prompt quit ks 16 sep 88 : (prompt .status state @ IF cr ." ] " exit THEN aborted @ 0= IF ." ok" THEN cr ; Defer prompt ' (prompt Is prompt : (quit BEGIN prompt query interpret REPEAT ; Defer 'quit ' (quit Is 'quit : quit r0 @ rp! [compile] [ blk off key? IF key drop THEN 'quit ; ( ----- 083 ) \ end-trace abort ks 26 jul 87 : standardi/o [ output ] Literal output 4 cmove ; Code end-trace next-link # W mov $AD # A- mov $FF97 # C mov [[ W ) W mov W W or 0= not ?[[ A- -4 W D) mov C -3 W D) mov ]]? lods A W xchg W ) jmp end-code Defer 'abort ' noop Is 'abort : abort end-trace clearstack 'abort standardi/o quit ; ( ----- 084 ) \ (error Abort" Error" ks 16 sep 88 Variable scr 1 scr ! Variable r# r# off : (error ( string -- ) rdrop r> aborted ! standardi/o space here .name count type space ?cr blk @ ?dup IF scr ! >in @ r# ! THEN quit ; ' (error errorhandler ! : (abort" "lit swap IF >r clearstack r> errorhandler perform exit THEN drop ; restrict | : (error" "lit swap IF errorhandler perform exit THEN drop ; restrict ( ----- 085 ) \ -trailing space spaces ks 16 sep 88 : Abort" compile (abort" ," align ; immediate restrict : Error" compile (error" ," align ; immediate restrict $20 Constant bl : -trailing ( addr n1 -- addr n2) dup 0 ?DO 2dup + 1- c@ bl - IF LEAVE THEN 1- LOOP ; : space bl emit ; : spaces ( u -- ) 0 ?DO space LOOP ; ( ----- 086 ) \ hold <# #> sign # #s ks 29 dez 87 | : hld ( -- addr) pad 2- ; : hold ( char -- ) -1 hld +! hld @ c! ; : <# hld hld ! ; : #> ( 32b -- addr +n ) 2drop hld @ hld over - ; : sign ( n -- ) 0< not ?exit [char] - hold ; : # ( +d1 -- +d2) base @ ud/mod rot dup 9 > 7 and + [char] 0 + hold ; : #s ( +d -- 0 0 ) BEGIN # 2dup d0= UNTIL ; ( ----- 087 ) \ print numbers .s ks 07 feb 89 : d.r ( d +n -- ) -rot under dabs <# #s rot sign #> rot over max over - spaces type ; : d. ( d -- ) 0 d.r space ; : .r ( n +n -- ) swap extend rot d.r ; : . ( n -- ) extend d. ; : u.r ( u +n -- ) 0 swap d.r ; : u. ( u -- ) 0 d. ; : .s sp@ s0 @ over - $20 umin bounds ?DO I @ u. 2 +LOOP ; ( ----- 088 ) \ c/l l/s &64 Constant c/l \ Screen line length &16 Constant l/s \ lines per screen ( ----- 089 ) \ multitasker primitives ks 29 oct 86 Code pause D push I push R push S 6 U D) mov 2 U D) U add 4 # U add U jmp end-code : lock ( addr -- ) dup @ up@ = IF drop exit THEN BEGIN dup @ WHILE pause REPEAT up@ swap ! ; : unlock ( addr -- ) dup lock off ; Label wake Assembler U pop 2 # U sub A pop popf 6 U D) S mov R pop I pop D pop Next end-code $E9 4 * >label >taskINT ( ----- 090 ) ( ----- 091 ) $10000 Constant limit Variable first $408 Constant b/buf \ real size of block buffer $400 Constant b/blk \ bytes/block Defer r/w \ low level disk access word ( ----- 092 ) ( ----- 093 ) ( ----- 094 ) ( ----- 095 ) ( ----- 096 ) ( ----- 097 ) ( ----- 098 ) ( ----- 099 ) \ endpoints of forget uh 27 apr 88 | : |? ( nfa -- flag ) c@ $20 and ; | : forget? ( adr nfa -- flag ) \ code in heap or above adr ? name> under 1+ u< swap heap? or ; | : endpoint ( addr sym thread -- addr sym' ) BEGIN BEGIN @ 2 pick over u> IF drop exit THEN dup heap? UNTIL dup >r 2+ dup |? IF >r over r@ forget? IF r@ (name> >body umax THEN rdrop THEN r> REPEAT ; | : endpoints ( addr -- addr symb ) heap voc-link @ BEGIN @ ?dup WHILE dup >r 4- endpoint r> REPEAT ; ( ----- 100 ) \ remove, -words, -tasks ks 30 apr 88 : remove ( dic sym thread -- dic sym ) BEGIN dup @ ?dup \ unlink forg. words WHILE dup heap? IF 2 pick over u> ELSE 3 pick over 1+ u< THEN IF @ over ! ( unlink word) ELSE nip THEN REPEAT drop ; | : remove-words ( dic sym -- dic sym ) voc-link BEGIN @ ?dup WHILE dup >r 4- remove r> REPEAT ; | : >up 2+ dup @ 2+ + ; | : remove-tasks ( dic -- ) up@ BEGIN dup >up up@ - WHILE 2dup >up swap here uwithin IF dup >up >up over - 2- 2- over 2+ ! ELSE >up THEN REPEAT 2drop ; ( ----- 101 ) \ remove-vocs trim ks 31 oct 86 | : remove-vocs ( dic symb -- dic symb ) voc-link remove thru.vocstack DO 2dup I @ -rot uwithin IF [ ' Forth 2+ ] Literal I ! THEN -2 +LOOP 2dup current @ -rot uwithin 0=exit [ ' Forth 2+ ] Literal current ! ; Defer custom-remove ' noop Is custom-remove : trim ( dic symb -- ) next-link remove over remove-tasks remove-vocs remove-words custom-remove heap swap - hallot dp ! last off ; ( ----- 102 ) \ deleting words from dict. ks 02 okt 87 : clear here dup up@ trim dp ! ; : (forget ( adr -- ) dup heap? Abort" is symbol" endpoints trim ; : forget ' dup [ dp ] Literal @ u< Abort" protected" >name dup heap? IF name> ELSE 4- THEN (forget ; : empty [ dp ] Literal @ up@ trim [ udp ] Literal @ udp ! ; ( ----- 103 ) \ save stop? ?cr ks 1UH 26sep88 : save here up@ trim up@ origin $100 cmove voc-link @ BEGIN dup 4- @ over 2- ! @ ?dup 0= UNTIL ; $1B Constant #esc | : end? key #esc case? 0= IF #cr case? 0= IF 3 ( Ctrl-C ) - ?exit THEN THEN true rdrop ; : stop? ( -- flag ) key? IF end? end? THEN false ; : ?cr col c/l u> 0=exit cr ; ( ----- 104 ) \ in/output structure ks 31 oct 86 | : Out: Create dup c, 2+ Does> c@ output @ + perform ; : Output: Create: Does> output ! ; 0 Out: emit Out: cr Out: type Out: del Out: page Out: at Out: at? drop : row ( -- row ) at? drop ; : col ( -- col ) at? nip ; | : In: Create dup c, 2+ Does> c@ input @ + perform ; : Input: Create: Does> input ! ; 0 In: key In: key? In: decode In: expect drop ( ----- 105 ) \ Alias only definitionen ks 31 oct 86 Root definitions : seal [ ' Root >body ] Literal off ; \ "erases" Root Vocab. ' Only Alias Only ' Forth Alias Forth ' words Alias words ' also Alias also ' definitions Alias definitions Forth definitions ( ----- 106 ) \ 'restart 'cold ks 01 sep 88 Defer 'restart ' noop Is 'restart | : (restart ['] (quit Is 'quit 'restart [ errorhandler ] Literal @ errorhandler ! ['] noop Is 'abort end-trace clearstack standardi/o interpret quit ; Defer 'cold ' noop Is 'cold | : (cold origin up@ $100 cmove $80 count $50 umin >r tib r@ move r> #tib ! >in off blk off init-vocabularys 'cold Onlyforth $80 c@ 0= IF page logo count type cr THEN (restart ; ( ----- 107 ) \ (boot ks 11 m„r 89 Label #segs ( -- R: seg ) Assembler C: seg ' limit >body #) R mov R R or 0= not ?[ 4 # C- mov R C* shr R inc ret ]? $1000 # R mov ret end-code Label (boot Assembler cli cld A A xor A D: mov #segs # call C: D mov D R add R E: mov $200 # C mov 0 # I mov I W mov rep movs wake # >taskINT #) mov C: >taskINT 2+ #) mov divovl # >divINT #) mov C: >divINT 2+ #) mov ret end-code ( ----- 108 ) \ restart ks 09 m„r 89 Label warmboot here >restart 2+ - >restart ! Assembler (boot # call here ' (restart >body # I mov Label bootsystem C: A mov A E: mov A D: mov A S: mov s0 #) U mov 6 # U add u' s0 U D) S mov D pop u' r0 U D) R mov sti Next end-code Code restart here 2- ! end-code ( ----- 109 ) \ bye ks 11 m„r 89 : bye empty poweroff ; ( ----- 110 ) \ cold ks 09 m„r 89 here >cold 2+ - >cold ! Assembler (boot # call C: A mov A D: mov A E: mov \ #segs # call $41 # R add \ another k for the ints \ $4A # A+ mov $21 int \ alloc memory \ CS ?[ $10 # return_code #) byte mov ' (bye @ # jmp ]? here s0 #) W mov 6 # W add origin # I mov $20 # C mov rep movs ' (cold >body # I mov bootsystem # jmp end-code Code cold here 2- ! end-code ( ----- 111 ) \ System patchup ks 16 sep 88 1 &11 +thru \ PC-BIOS interface : forth-83 ; \ last word in Dictionary 0 ' limit >body ! $DFF6 s0 ! $E77C r0 ! s0 @ s0 2- ! here dp ! Host tudp @ Target udp ! Host tvoc-link @ Target voc-link ! Host tnext-link @ Target next-link ! Host tfile-link @ Target Forth file-link ! Host T move-threads H save-buffers cr .( unresolved: ) .unresolved ( ----- 112 ) \ lc@ lc! l@ l! special 8088 operators ks 27 oct 86 Code lc@ ( seg:addr -- 8b ) D: pop D W mov W ) D- mov 0 # D+ mov C: A mov A D: mov Next end-code Code lc! ( 8b seg:addr -- ) D: pop A pop D W mov A- W ) mov C: A mov A D: mov D pop Next end-code Code l@ ( seg:addr -- 16b ) D: pop D W mov W ) D mov C: A mov A D: mov Next end-code Code l! ( 16b seg:addr -- ) D: pop A pop D W mov A W ) mov C: A mov A D: mov D pop Next end-code ( ----- 113 ) \ ltype lmove special 8088 operators ks 11 dez 87 : ltype ( seg:addr len -- ) 0 ?DO 2dup I + lc@ emit LOOP 2drop ; Code lmove ( from.seg:addr to.seg:addr quan -- ) A I xchg D C mov W pop E: pop I pop D: pop I W cmp CS ?[ rep byte movs ][ C dec C W add C I add C inc std rep byte movs cld ]? A I xchg C: A mov A E: mov A D: mov D pop Next end-code ( ----- 114 ) ( ----- 115 ) \ APM PC Shutdown - poweroff CODE poweroff ( -- ) \ Connect to APM API $5301 # A mov R R xor $15 int \ Try to set APM version (to 1.2) $530E # A mov R R xor $0102 # C mov $15 int \ Turn off the system $5307 # A mov $01 # R mov $03 # C mov $15 int END-CODE ( ----- 116 ) \ BIOS keyboard input ks 16 sep 88 Code (key@ ( -- 8b ) D push A+ A+ xor $16 int A- D- xchg 0 # D+ mov Next end-code Code (key? ( -- f ) D push 1 # A+ mov D D xor $16 int 0= not ?[ D dec ]? Next end-code : empty-keys ; : (key ( -- 8b ) BEGIN pause (key? UNTIL (key@ ; ( ----- 117 ) \ (decode expect ks 16 sep 88 7 Constant #bel 8 Constant #bs 9 Constant #tab $A Constant #lf $D Constant #cr $26 Constant #eof : (decode ( addr pos1 key -- addr pos2 ) #bs case? IF dup 0=exit del 1- exit THEN #cr case? IF dup span ! space exit THEN #lf case? IF exit THEN #eof case? IF bye THEN >r 2dup + r@ swap c! r> emit 1+ ; : (expect ( addr len1 -- ) span ! 0 BEGIN dup span @ u< WHILE key decode REPEAT 2drop ; Input: keyboard [ here input ! ] (key (key? (decode (expect [ drop ( ----- 118 ) \ BIOS character output ks 29 jun 87 Code charout ( char -- ) D- A- mov $E # A+ mov $10 int D pop ' pause # W mov W ) jmp end-code &80 Constant c/row &25 Constant c/col : (emit ( char -- ) dup bl u< IF $80 or THEN charout ; : (cr #cr charout #lf charout ; : (del #bs charout bl charout #bs charout ; : (at 2drop ; : (at? 0 0 ; : (page c/col 0 DO cr LOOP ; ( ----- 119 ) \ BIOS character output ks 7 may 85 : bell #bel charout ; : tipp ( addr len -- ) bounds ?DO I c@ emit LOOP ; Output: display [ here output ! ] (emit (cr tipp (del (page (at (at? [ drop ( ----- 120 ) Code pc@ ( port -- 8b ) D byte in A- D- mov D+ D+ xor Next end-code Code pc! ( 8b port -- ) A pop D byte out D pop Next end-code ( ----- 121 ) \ zero terminated strings cas 25jan06 : counted ( asciz -- addr len ) dup -1 0 scan drop over - ; : >asciz ( string addr -- asciz ) 2dup >r - IF count r@ place r@ THEN 0 r> count + c! 1+ ; : asciz ( -- asciz ) name here >asciz ;