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\ ks 22 dez 87 Some simple tools for debugging. A state-of-the-art, interactive single step tracer and a couple of tools for decompiling and dumping \ Programming-Tools word set cas 19july2020 Onlyforth \needs Assembler 2 loadfrom asm.fb Vocabulary Tools Tools also definitions 1 11 +thru Onlyforth .( Tools loaded ) cr \ trace - next ks 11 jun 87 | Variable nest? nest? off Label tracenext 0 # nest? #) byte cmp 0= ?[ $5555 # I cmp here 2- >label (ip >= ?[ [[ swap lods A W xchg W ) jmp ]? $5555 # I cmp here 2- >label ip) CS ?] ][ 0 # nest? #) byte mov ]? $5555 # W mov here 2- >label >tracing W ) jmp end-code | (ip Constant <ip | ip) Constant ip> | : (debug ( addr -- ) dup <ip ! BEGIN 1+ dup @ ['] unnest = UNTIL 2+ ip> ! ; \ install Tracer ks 11 jun 87 Label (do-trace next-link # W mov D push $E9 # A- mov tracenext 1+ # C mov [[ W ) W mov W W or 0= not ?[[ A- -4 W D) mov C D mov W D sub D -3 W D) mov ]]? D pop ret end-code Code do-trace (do-trace # call Next end-code ' end-trace Alias end-trace | Code (step (do-trace # call R ) I mov R inc R inc lods A W xchg W ) jmp | Create: nextstep (step ; \ tracer display ks 20 sep 88 | Variable nest# nest# off | Variable 'ip 'ip off | Create: -nest r> ip> ! r> <ip ! -1 nest# +! ; | : oneline .status space BEGIN query interpret tib #tib @ + 1- c@ BL = WHILE prompt &36 tab REPEAT -$20 allot r0 @ rp! r> r0 ! r> dup #tib ! rp@ over tib swap cmove rp@ + rp! r> Is parser r> adr 'quit ! r> >in ! r> blk ! r> state ! r> output ! r> input ! ; \ tracer display ks 16 sep 88 | : tracing end-trace nest? @ IF r> <ip @ >r ip> @ >r -nest >r >r 1 nest# +! r@ 2- (debug nest? off THEN r@ 'ip ! nextstep >r input @ >r output @ >r state @ >r blk @ >r >in @ >r adr 'quit @ >r adr parser @ >r tib #tib @ rp@ over - under rp! cmove #tib @ >r r0 @ >r rp@ r0 ! standardi/o cr nest# @ spaces 'ip @ dup 5 u.r @ dup 5 u.r 2 spaces >name .name &30 nest# @ + tab .s $20 allot ['] oneline Is 'quit quit ; ' tracing >tracing ! \ test traceability ks 07 dez 87 | : traceable ( cfa -- cfa' ) recursive dup @ [ ' : @ ] Literal case? ?exit [ ' key @ ] Literal case? IF >body c@ Input @ + @ traceable exit THEN [ ' type @ ] Literal case? IF >body c@ Output @ + @ traceable exit THEN [ ' r/w @ ] Literal case? IF >body @ traceable exit THEN c@ $E9 = IF @ 1+ exit THEN \ Does> word >name .name ." can't be DEBUGged" quit ; \ user words for tracing ks 16 sep 88 | : do_debug ( addr -- ) traceable (debug nest? off nest# off do-trace ; : nest \ trace next high-level word executed 'ip @ @ traceable drop nest? on ; : unnest \ ends tracing of actual word <ip on ip> off ; unnest \ clears trap range : endloop \ stop tracing loop 'ip @ <ip ! ; \ use when at end of loop : debug ' do_debug ; : trace ' dup >r do_debug r> execute end-trace unnest ; \ tools for decompiling, interactive use ks 04 jul 87 | : ?: ( addr -- addr ) dup 5 u.r ." :" ; | : @? ( addr -- addr ) dup @ 6 u.r ; | : c? ( addr -- addr ) dup c@ 3 .r ; | : end $28 tab ; : s ( addr1 -- addr2 ) ?: 3 spaces c? 2 spaces count 2dup type + even end ; : n ( addr1 -- addr2 ) ?: @? 2 spaces dup @ >name .name 2+ end ; : d ( addr1 n -- addr2 ) 2dup swap ?: 3 spaces swap 0 DO c? 1+ LOOP 2 spaces -rot type end ; : l ( addr1 -- addr2 ) ?: 6 spaces @? 2+ end ; : c ( addr1 -- addr2 ) 1 d end ; : b ( addr1 -- addr2 ) ?: @? dup @ over + 6 u.r 2+ end ; \ often times ks 29 jun 87 Onlyforth : often stop? ?exit >in off ; | Variable #times #times off : times ( n -- ) ?dup IF #times @ 2+ u< stop? or IF #times off exit THEN 1 #times +! ELSE stop? ?exit THEN >in off ; \ dump ks 04 jul 87 : dump ( addr n -- ) base push hex bounds ?DO cr I $10 [ Tools ] d [ Forth ] drop stop? IF LEAVE THEN $10 +LOOP ; | : ld ( seg:addr -- ) over 4 u.r ." :" dup 0 <# # # # # #> type 3 spaces ds@ pad $10 lmove pad $10 bounds DO I c@ 3 u.r LOOP 2 spaces pad $10 type ; : ldump ( seg:addr quan -- ) base push hex 0 DO cr 2dup ld $10 + stop? IF LEAVE THEN $10 +LOOP 2drop ; \ N>R NR> cr : N>R ( i * n +n -- ) ( R: -- j * x +n ) \ Transfer N items and count to the return stack. DUP BEGIN DUP WHILE ROT R> SWAP >R >R 1- REPEAT DROP R> SWAP >R >R ; : NR> ( -- i * x +n ) ( R: j * x +n -- ) \ Pull N items and count off the return stack. R> R> SWAP >R DUP BEGIN DUP WHILE R> R> SWAP >R -ROT 1- REPEAT DROP ; \ ? : ? ( a-addr -- ) \ Display the value stored at a-addr. @ . ; |