\ From: John Hayes S1I \ Subject: tester.fr \ Date: Mon, 27 Nov 95 13:10:09 PST \ (C) 1995 JOHNS HOPKINS UNIVERSITY / APPLIED PHYSICS LABORATORY \ MAY BE DISTRIBUTED FREELY AS LONG AS THIS COPYRIGHT NOTICE REMAINS. \ VERSION 1.2 \ 24/11/2015 Replaced Core Ext word <> with = 0= \ 31/3/2015 Variable #ERRORS added and incremented for each error reported. \ 22/1/09 The words { and } have been changed to T{ and }T respectively to \ agree with the Forth 200X file ttester.fs. This avoids clashes with \ locals using { ... } and the FSL use of } HEX \ SET THE FOLLOWING FLAG TO TRUE FOR MORE VERBOSE OUTPUT; THIS MAY \ ALLOW YOU TO TELL WHICH TEST CAUSED YOUR SYSTEM TO HANG. VARIABLE VERBOSE \ FALSE VERBOSE ! TRUE VERBOSE ! : EMPTY-STACK \ ( ... -- ) EMPTY STACK: HANDLES UNDERFLOWED STACK TOO. DEPTH ?DUP IF DUP 0< IF NEGATE 0 DO 0 LOOP ELSE 0 DO DROP LOOP THEN THEN ; VARIABLE #ERRORS 0 #ERRORS ! : ERROR TYPE QUIT ; 0 [if] : ERROR \ ( C-ADDR U -- ) DISPLAY AN ERROR MESSAGE FOLLOWED BY \ THE LINE THAT HAD THE ERROR. CR TYPE SOURCE TYPE \ DISPLAY LINE CORRESPONDING TO ERROR EMPTY-STACK \ THROW AWAY EVERY THING ELSE #ERRORS @ 1 + #ERRORS ! \ QUIT \ *** Uncomment this line to QUIT on an error ; [then] VARIABLE ACTUAL-DEPTH \ STACK RECORD CREATE ACTUAL-RESULTS 20 CELLS ALLOT : T{ \ ( -- ) SYNTACTIC SUGAR. ; : -> \ ( ... -- ) RECORD DEPTH AND CONTENT OF STACK. DEPTH DUP ACTUAL-DEPTH ! \ RECORD DEPTH ?DUP IF \ IF THERE IS SOMETHING ON STACK 0 DO ACTUAL-RESULTS I CELLS + ! LOOP \ SAVE THEM THEN ; : }T \ ( ... -- ) COMPARE STACK (EXPECTED) CONTENTS WITH SAVED \ (ACTUAL) CONTENTS. DEPTH ACTUAL-DEPTH @ = IF \ IF DEPTHS MATCH DEPTH ?DUP IF \ IF THERE IS SOMETHING ON THE STACK 0 DO \ FOR EACH STACK ITEM ACTUAL-RESULTS I CELLS + @ \ COMPARE ACTUAL WITH EXPECTED = 0= IF S" INCORRECT RESULT: " ERROR LEAVE THEN LOOP THEN ELSE \ DEPTH MISMATCH S" WRONG NUMBER OF RESULTS: " ERROR THEN ; : TESTING \ ( -- ) TALKING COMMENT. SOURCE VERBOSE @ IF DUP >R TYPE CR R> >IN ! ELSE >IN ! DROP [CHAR] * EMIT THEN ; \ From: John Hayes S1I \ Subject: core.fr \ Date: Mon, 27 Nov 95 13:10 \ (C) 1995 JOHNS HOPKINS UNIVERSITY / APPLIED PHYSICS LABORATORY \ MAY BE DISTRIBUTED FREELY AS LONG AS THIS COPYRIGHT NOTICE REMAINS. \ VERSION 1.2 \ THIS PROGRAM TESTS THE CORE WORDS OF AN ANS FORTH SYSTEM. \ THE PROGRAM ASSUMES A TWO'S COMPLEMENT IMPLEMENTATION WHERE \ THE RANGE OF SIGNED NUMBERS IS -2^(N-1) ... 2^(N-1)-1 AND \ THE RANGE OF UNSIGNED NUMBERS IS 0 ... 2^(N)-1. \ I HAVEN'T FIGURED OUT HOW TO TEST KEY, QUIT, ABORT, OR ABORT"... \ I ALSO HAVEN'T THOUGHT OF A WAY TO TEST ENVIRONMENT?... CR TESTING CORE WORDS HEX \ ------------------------------------------------------------------------ TESTING BASIC ASSUMPTIONS T{ -> }T \ START WITH CLEAN SLATE ( TEST IF ANY BITS ARE SET; ANSWER IN BASE 1 ) T{ : BITSSET? IF 0 0 ELSE 0 THEN ; -> }T T{ 0 BITSSET? -> 0 }T ( ZERO IS ALL BITS CLEAR ) T{ 1 BITSSET? -> 0 0 }T ( OTHER NUMBER HAVE AT LEAST ONE BIT ) T{ -1 BITSSET? -> 0 0 }T \ ------------------------------------------------------------------------ TESTING BOOLEANS: INVERT AND OR XOR T{ 0 0 AND -> 0 }T T{ 0 1 AND -> 0 }T T{ 1 0 AND -> 0 }T T{ 1 1 AND -> 1 }T T{ 0 INVERT 1 AND -> 1 }T T{ 1 INVERT 1 AND -> 0 }T 0 CONSTANT 0S 0 INVERT CONSTANT 1S T{ 0S INVERT -> 1S }T T{ 1S INVERT -> 0S }T T{ 0S 0S AND -> 0S }T T{ 0S 1S AND -> 0S }T T{ 1S 0S AND -> 0S }T T{ 1S 1S AND -> 1S }T T{ 0S 0S OR -> 0S }T T{ 0S 1S OR -> 1S }T T{ 1S 0S OR -> 1S }T T{ 1S 1S OR -> 1S }T T{ 0S 0S XOR -> 0S }T T{ 0S 1S XOR -> 1S }T T{ 1S 0S XOR -> 1S }T T{ 1S 1S XOR -> 0S }T \ ------------------------------------------------------------------------ TESTING 2* 2/ LSHIFT RSHIFT ( WE TRUST 1S, INVERT, AND BITSSET?; WE WILL CONFIRM RSHIFT LATER ) 1S 1 RSHIFT INVERT CONSTANT MSB T{ MSB BITSSET? -> 0 0 }T T{ 0S 2* -> 0S }T T{ 1 2* -> 2 }T T{ 4000 2* -> 8000 }T T{ 1S 2* 1 XOR -> 1S }T T{ MSB 2* -> 0S }T T{ 0S 2/ -> 0S }T T{ 1 2/ -> 0 }T T{ 4000 2/ -> 2000 }T T{ 1S 2/ -> 1S }T \ MSB PROPOGATED T{ 1S 1 XOR 2/ -> 1S }T T{ MSB 2/ MSB AND -> MSB }T T{ 1 0 LSHIFT -> 1 }T T{ 1 1 LSHIFT -> 2 }T T{ 1 2 LSHIFT -> 4 }T T{ 1 F LSHIFT -> 8000 }T \ BIGGEST GUARANTEED SHIFT T{ 1S 1 LSHIFT 1 XOR -> 1S }T T{ MSB 1 LSHIFT -> 0 }T T{ 1 0 RSHIFT -> 1 }T T{ 1 1 RSHIFT -> 0 }T T{ 2 1 RSHIFT -> 1 }T T{ 4 2 RSHIFT -> 1 }T T{ 8000 F RSHIFT -> 1 }T \ BIGGEST T{ MSB 1 RSHIFT MSB AND -> 0 }T \ RSHIFT ZERO FILLS MSBS T{ MSB 1 RSHIFT 2* -> MSB }T \ ------------------------------------------------------------------------ TESTING COMPARISONS: 0= = 0< < > U< MIN MAX 0 INVERT CONSTANT MAX-UINT 0 INVERT 1 RSHIFT CONSTANT MAX-INT 0 INVERT 1 RSHIFT INVERT CONSTANT MIN-INT 0 INVERT 1 RSHIFT CONSTANT MID-UINT 0 INVERT 1 RSHIFT INVERT CONSTANT MID-UINT+1 0S CONSTANT 1S CONSTANT T{ 0 0= -> }T T{ 1 0= -> }T T{ 2 0= -> }T T{ -1 0= -> }T T{ MAX-UINT 0= -> }T T{ MIN-INT 0= -> }T T{ MAX-INT 0= -> }T T{ 0 0 = -> }T T{ 1 1 = -> }T T{ -1 -1 = -> }T T{ 1 0 = -> }T T{ -1 0 = -> }T T{ 0 1 = -> }T T{ 0 -1 = -> }T T{ 0 0< -> }T T{ -1 0< -> }T T{ MIN-INT 0< -> }T T{ 1 0< -> }T T{ MAX-INT 0< -> }T T{ 0 1 < -> }T T{ 1 2 < -> }T T{ -1 0 < -> }T T{ -1 1 < -> }T T{ MIN-INT 0 < -> }T T{ MIN-INT MAX-INT < -> }T T{ 0 MAX-INT < -> }T T{ 0 0 < -> }T T{ 1 1 < -> }T T{ 1 0 < -> }T T{ 2 1 < -> }T T{ 0 -1 < -> }T T{ 1 -1 < -> }T T{ 0 MIN-INT < -> }T T{ MAX-INT MIN-INT < -> }T T{ MAX-INT 0 < -> }T T{ 0 1 > -> }T T{ 1 2 > -> }T T{ -1 0 > -> }T T{ -1 1 > -> }T T{ MIN-INT 0 > -> }T T{ MIN-INT MAX-INT > -> }T T{ 0 MAX-INT > -> }T T{ 0 0 > -> }T T{ 1 1 > -> }T T{ 1 0 > -> }T T{ 2 1 > -> }T T{ 0 -1 > -> }T T{ 1 -1 > -> }T T{ 0 MIN-INT > -> }T T{ MAX-INT MIN-INT > -> }T T{ MAX-INT 0 > -> }T T{ 0 1 U< -> }T T{ 1 2 U< -> }T T{ 0 MID-UINT U< -> }T T{ 0 MAX-UINT U< -> }T T{ MID-UINT MAX-UINT U< -> }T T{ 0 0 U< -> }T T{ 1 1 U< -> }T T{ 1 0 U< -> }T T{ 2 1 U< -> }T T{ MID-UINT 0 U< -> }T T{ MAX-UINT 0 U< -> }T T{ MAX-UINT MID-UINT U< -> }T T{ 0 1 MIN -> 0 }T T{ 1 2 MIN -> 1 }T T{ -1 0 MIN -> -1 }T T{ -1 1 MIN -> -1 }T T{ MIN-INT 0 MIN -> MIN-INT }T T{ MIN-INT MAX-INT MIN -> MIN-INT }T T{ 0 MAX-INT MIN -> 0 }T T{ 0 0 MIN -> 0 }T T{ 1 1 MIN -> 1 }T T{ 1 0 MIN -> 0 }T T{ 2 1 MIN -> 1 }T T{ 0 -1 MIN -> -1 }T T{ 1 -1 MIN -> -1 }T T{ 0 MIN-INT MIN -> MIN-INT }T T{ MAX-INT MIN-INT MIN -> MIN-INT }T T{ MAX-INT 0 MIN -> 0 }T T{ 0 1 MAX -> 1 }T T{ 1 2 MAX -> 2 }T T{ -1 0 MAX -> 0 }T T{ -1 1 MAX -> 1 }T T{ MIN-INT 0 MAX -> 0 }T T{ MIN-INT MAX-INT MAX -> MAX-INT }T T{ 0 MAX-INT MAX -> MAX-INT }T T{ 0 0 MAX -> 0 }T T{ 1 1 MAX -> 1 }T T{ 1 0 MAX -> 1 }T T{ 2 1 MAX -> 2 }T T{ 0 -1 MAX -> 0 }T T{ 1 -1 MAX -> 1 }T T{ 0 MIN-INT MAX -> 0 }T T{ MAX-INT MIN-INT MAX -> MAX-INT }T T{ MAX-INT 0 MAX -> MAX-INT }T \ ------------------------------------------------------------------------ TESTING STACK OPS: 2DROP 2DUP 2OVER 2SWAP ?DUP DEPTH DROP DUP OVER ROT SWAP T{ 1 2 2DROP -> }T T{ 1 2 2DUP -> 1 2 1 2 }T T{ 1 2 3 4 2OVER -> 1 2 3 4 1 2 }T T{ 1 2 3 4 2SWAP -> 3 4 1 2 }T T{ 0 ?DUP -> 0 }T T{ 1 ?DUP -> 1 1 }T T{ -1 ?DUP -> -1 -1 }T T{ DEPTH -> 0 }T T{ 0 DEPTH -> 0 1 }T T{ 0 1 DEPTH -> 0 1 2 }T T{ 0 DROP -> }T T{ 1 2 DROP -> 1 }T T{ 1 DUP -> 1 1 }T T{ 1 2 OVER -> 1 2 1 }T T{ 1 2 3 ROT -> 2 3 1 }T T{ 1 2 SWAP -> 2 1 }T \ ------------------------------------------------------------------------ TESTING >R R> R@ T{ : GR1 >R R> ; -> }T T{ : GR2 >R R@ R> DROP ; -> }T T{ 123 GR1 -> 123 }T T{ 123 GR2 -> 123 }T T{ 1S GR1 -> 1S }T ( RETURN STACK HOLDS CELLS ) \ ------------------------------------------------------------------------ TESTING ADD/SUBTRACT: + - 1+ 1- ABS NEGATE T{ 0 5 + -> 5 }T T{ 5 0 + -> 5 }T T{ 0 -5 + -> -5 }T T{ -5 0 + -> -5 }T T{ 1 2 + -> 3 }T T{ 1 -2 + -> -1 }T T{ -1 2 + -> 1 }T T{ -1 -2 + -> -3 }T T{ -1 1 + -> 0 }T T{ MID-UINT 1 + -> MID-UINT+1 }T T{ 0 5 - -> -5 }T T{ 5 0 - -> 5 }T T{ 0 -5 - -> 5 }T T{ -5 0 - -> -5 }T T{ 1 2 - -> -1 }T T{ 1 -2 - -> 3 }T T{ -1 2 - -> -3 }T T{ -1 -2 - -> 1 }T T{ 0 1 - -> -1 }T T{ MID-UINT+1 1 - -> MID-UINT }T T{ 0 1+ -> 1 }T T{ -1 1+ -> 0 }T T{ 1 1+ -> 2 }T T{ MID-UINT 1+ -> MID-UINT+1 }T T{ 2 1- -> 1 }T T{ 1 1- -> 0 }T T{ 0 1- -> -1 }T T{ MID-UINT+1 1- -> MID-UINT }T T{ 0 NEGATE -> 0 }T T{ 1 NEGATE -> -1 }T T{ -1 NEGATE -> 1 }T T{ 2 NEGATE -> -2 }T T{ -2 NEGATE -> 2 }T T{ 0 ABS -> 0 }T T{ 1 ABS -> 1 }T T{ -1 ABS -> 1 }T T{ MIN-INT ABS -> MID-UINT+1 }T \ ------------------------------------------------------------------------ TESTING MULTIPLY: S>D * M* UM* T{ 0 S>D -> 0 0 }T T{ 1 S>D -> 1 0 }T T{ 2 S>D -> 2 0 }T T{ -1 S>D -> -1 -1 }T T{ -2 S>D -> -2 -1 }T T{ MIN-INT S>D -> MIN-INT -1 }T T{ MAX-INT S>D -> MAX-INT 0 }T T{ 0 0 M* -> 0 S>D }T T{ 0 1 M* -> 0 S>D }T T{ 1 0 M* -> 0 S>D }T T{ 1 2 M* -> 2 S>D }T T{ 2 1 M* -> 2 S>D }T T{ 3 3 M* -> 9 S>D }T T{ -3 3 M* -> -9 S>D }T T{ 3 -3 M* -> -9 S>D }T T{ -3 -3 M* -> 9 S>D }T T{ 0 MIN-INT M* -> 0 S>D }T T{ 1 MIN-INT M* -> MIN-INT S>D }T T{ 2 MIN-INT M* -> 0 1S }T T{ 0 MAX-INT M* -> 0 S>D }T T{ 1 MAX-INT M* -> MAX-INT S>D }T T{ 2 MAX-INT M* -> MAX-INT 1 LSHIFT 0 }T T{ MIN-INT MIN-INT M* -> 0 MSB 1 RSHIFT }T T{ MAX-INT MIN-INT M* -> MSB MSB 2/ }T T{ MAX-INT MAX-INT M* -> 1 MSB 2/ INVERT }T T{ 0 0 * -> 0 }T \ TEST IDENTITIES T{ 0 1 * -> 0 }T T{ 1 0 * -> 0 }T T{ 1 2 * -> 2 }T T{ 2 1 * -> 2 }T T{ 3 3 * -> 9 }T T{ -3 3 * -> -9 }T T{ 3 -3 * -> -9 }T T{ -3 -3 * -> 9 }T T{ MID-UINT+1 1 RSHIFT 2 * -> MID-UINT+1 }T T{ MID-UINT+1 2 RSHIFT 4 * -> MID-UINT+1 }T T{ MID-UINT+1 1 RSHIFT MID-UINT+1 OR 2 * -> MID-UINT+1 }T T{ 0 0 UM* -> 0 0 }T T{ 0 1 UM* -> 0 0 }T T{ 1 0 UM* -> 0 0 }T T{ 1 2 UM* -> 2 0 }T T{ 2 1 UM* -> 2 0 }T T{ 3 3 UM* -> 9 0 }T T{ MID-UINT+1 1 RSHIFT 2 UM* -> MID-UINT+1 0 }T T{ MID-UINT+1 2 UM* -> 0 1 }T T{ MID-UINT+1 4 UM* -> 0 2 }T T{ 1S 2 UM* -> 1S 1 LSHIFT 1 }T T{ MAX-UINT MAX-UINT UM* -> 1 1 INVERT }T \ ------------------------------------------------------------------------ TESTING DIVIDE: FM/MOD SM/REM UM/MOD */ */MOD / /MOD MOD T{ 0 S>D 1 FM/MOD -> 0 0 }T T{ 1 S>D 1 FM/MOD -> 0 1 }T T{ 2 S>D 1 FM/MOD -> 0 2 }T T{ -1 S>D 1 FM/MOD -> 0 -1 }T T{ -2 S>D 1 FM/MOD -> 0 -2 }T T{ 0 S>D -1 FM/MOD -> 0 0 }T T{ 1 S>D -1 FM/MOD -> 0 -1 }T T{ 2 S>D -1 FM/MOD -> 0 -2 }T T{ -1 S>D -1 FM/MOD -> 0 1 }T T{ -2 S>D -1 FM/MOD -> 0 2 }T T{ 2 S>D 2 FM/MOD -> 0 1 }T T{ -1 S>D -1 FM/MOD -> 0 1 }T T{ -2 S>D -2 FM/MOD -> 0 1 }T T{ 7 S>D 3 FM/MOD -> 1 2 }T T{ 7 S>D -3 FM/MOD -> -2 -3 }T T{ -7 S>D 3 FM/MOD -> 2 -3 }T T{ -7 S>D -3 FM/MOD -> -1 2 }T T{ MAX-INT S>D 1 FM/MOD -> 0 MAX-INT }T T{ MIN-INT S>D 1 FM/MOD -> 0 MIN-INT }T T{ MAX-INT S>D MAX-INT FM/MOD -> 0 1 }T T{ MIN-INT S>D MIN-INT FM/MOD -> 0 1 }T T{ 1S 1 4 FM/MOD -> 3 MAX-INT }T T{ 1 MIN-INT M* 1 FM/MOD -> 0 MIN-INT }T T{ 1 MIN-INT M* MIN-INT FM/MOD -> 0 1 }T T{ 2 MIN-INT M* 2 FM/MOD -> 0 MIN-INT }T T{ 2 MIN-INT M* MIN-INT FM/MOD -> 0 2 }T T{ 1 MAX-INT M* 1 FM/MOD -> 0 MAX-INT }T T{ 1 MAX-INT M* MAX-INT FM/MOD -> 0 1 }T T{ 2 MAX-INT M* 2 FM/MOD -> 0 MAX-INT }T T{ 2 MAX-INT M* MAX-INT FM/MOD -> 0 2 }T T{ MIN-INT MIN-INT M* MIN-INT FM/MOD -> 0 MIN-INT }T T{ MIN-INT MAX-INT M* MIN-INT FM/MOD -> 0 MAX-INT }T T{ MIN-INT MAX-INT M* MAX-INT FM/MOD -> 0 MIN-INT }T T{ MAX-INT MAX-INT M* MAX-INT FM/MOD -> 0 MAX-INT }T T{ 0 S>D 1 SM/REM -> 0 0 }T T{ 1 S>D 1 SM/REM -> 0 1 }T T{ 2 S>D 1 SM/REM -> 0 2 }T T{ -1 S>D 1 SM/REM -> 0 -1 }T T{ -2 S>D 1 SM/REM -> 0 -2 }T T{ 0 S>D -1 SM/REM -> 0 0 }T T{ 1 S>D -1 SM/REM -> 0 -1 }T T{ 2 S>D -1 SM/REM -> 0 -2 }T T{ -1 S>D -1 SM/REM -> 0 1 }T T{ -2 S>D -1 SM/REM -> 0 2 }T T{ 2 S>D 2 SM/REM -> 0 1 }T T{ -1 S>D -1 SM/REM -> 0 1 }T T{ -2 S>D -2 SM/REM -> 0 1 }T T{ 7 S>D 3 SM/REM -> 1 2 }T T{ 7 S>D -3 SM/REM -> 1 -2 }T T{ -7 S>D 3 SM/REM -> -1 -2 }T T{ -7 S>D -3 SM/REM -> -1 2 }T T{ MAX-INT S>D 1 SM/REM -> 0 MAX-INT }T T{ MIN-INT S>D 1 SM/REM -> 0 MIN-INT }T T{ MAX-INT S>D MAX-INT SM/REM -> 0 1 }T T{ MIN-INT S>D MIN-INT SM/REM -> 0 1 }T T{ 1S 1 4 SM/REM -> 3 MAX-INT }T T{ 2 MIN-INT M* 2 SM/REM -> 0 MIN-INT }T T{ 2 MIN-INT M* MIN-INT SM/REM -> 0 2 }T T{ 2 MAX-INT M* 2 SM/REM -> 0 MAX-INT }T T{ 2 MAX-INT M* MAX-INT SM/REM -> 0 2 }T T{ MIN-INT MIN-INT M* MIN-INT SM/REM -> 0 MIN-INT }T T{ MIN-INT MAX-INT M* MIN-INT SM/REM -> 0 MAX-INT }T T{ MIN-INT MAX-INT M* MAX-INT SM/REM -> 0 MIN-INT }T T{ MAX-INT MAX-INT M* MAX-INT SM/REM -> 0 MAX-INT }T T{ 0 0 1 UM/MOD -> 0 0 }T T{ 1 0 1 UM/MOD -> 0 1 }T T{ 1 0 2 UM/MOD -> 1 0 }T T{ 3 0 2 UM/MOD -> 1 1 }T T{ MAX-UINT 2 UM* 2 UM/MOD -> 0 MAX-UINT }T T{ MAX-UINT 2 UM* MAX-UINT UM/MOD -> 0 2 }T T{ MAX-UINT MAX-UINT UM* MAX-UINT UM/MOD -> 0 MAX-UINT }T : IFFLOORED [ -3 2 / -2 = INVERT ] LITERAL IF POSTPONE \ THEN ; : IFSYM [ -3 2 / -1 = INVERT ] LITERAL IF POSTPONE \ THEN ; \ THE SYSTEM MIGHT DO EITHER FLOORED OR SYMMETRIC DIVISION. \ SINCE WE HAVE ALREADY TESTED M*, FM/MOD, AND SM/REM WE CAN USE THEM IN TEST. IFFLOORED : T/MOD >R S>D R> FM/MOD ; IFFLOORED : T/ T/MOD SWAP DROP ; IFFLOORED : TMOD T/MOD DROP ; IFFLOORED : T*/MOD >R M* R> FM/MOD ; IFFLOORED : T*/ T*/MOD SWAP DROP ; IFSYM : T/MOD >R S>D R> SM/REM ; IFSYM : T/ T/MOD SWAP DROP ; IFSYM : TMOD T/MOD DROP ; IFSYM : T*/MOD >R M* R> SM/REM ; IFSYM : T*/ T*/MOD SWAP DROP ; T{ 0 1 /MOD -> 0 1 T/MOD }T T{ 1 1 /MOD -> 1 1 T/MOD }T T{ 2 1 /MOD -> 2 1 T/MOD }T T{ -1 1 /MOD -> -1 1 T/MOD }T T{ -2 1 /MOD -> -2 1 T/MOD }T T{ 0 -1 /MOD -> 0 -1 T/MOD }T T{ 1 -1 /MOD -> 1 -1 T/MOD }T T{ 2 -1 /MOD -> 2 -1 T/MOD }T T{ -1 -1 /MOD -> -1 -1 T/MOD }T T{ -2 -1 /MOD -> -2 -1 T/MOD }T T{ 2 2 /MOD -> 2 2 T/MOD }T T{ -1 -1 /MOD -> -1 -1 T/MOD }T T{ -2 -2 /MOD -> -2 -2 T/MOD }T T{ 7 3 /MOD -> 7 3 T/MOD }T T{ 7 -3 /MOD -> 7 -3 T/MOD }T T{ -7 3 /MOD -> -7 3 T/MOD }T T{ -7 -3 /MOD -> -7 -3 T/MOD }T T{ MAX-INT 1 /MOD -> MAX-INT 1 T/MOD }T T{ MIN-INT 1 /MOD -> MIN-INT 1 T/MOD }T T{ MAX-INT MAX-INT /MOD -> MAX-INT MAX-INT T/MOD }T T{ MIN-INT MIN-INT /MOD -> MIN-INT MIN-INT T/MOD }T T{ 0 1 / -> 0 1 T/ }T T{ 1 1 / -> 1 1 T/ }T T{ 2 1 / -> 2 1 T/ }T T{ -1 1 / -> -1 1 T/ }T T{ -2 1 / -> -2 1 T/ }T T{ 0 -1 / -> 0 -1 T/ }T T{ 1 -1 / -> 1 -1 T/ }T T{ 2 -1 / -> 2 -1 T/ }T T{ -1 -1 / -> -1 -1 T/ }T T{ -2 -1 / -> -2 -1 T/ }T T{ 2 2 / -> 2 2 T/ }T T{ -1 -1 / -> -1 -1 T/ }T T{ -2 -2 / -> -2 -2 T/ }T T{ 7 3 / -> 7 3 T/ }T T{ 7 -3 / -> 7 -3 T/ }T T{ -7 3 / -> -7 3 T/ }T T{ -7 -3 / -> -7 -3 T/ }T T{ MAX-INT 1 / -> MAX-INT 1 T/ }T T{ MIN-INT 1 / -> MIN-INT 1 T/ }T T{ MAX-INT MAX-INT / -> MAX-INT MAX-INT T/ }T T{ MIN-INT MIN-INT / -> MIN-INT MIN-INT T/ }T T{ 0 1 MOD -> 0 1 TMOD }T T{ 1 1 MOD -> 1 1 TMOD }T T{ 2 1 MOD -> 2 1 TMOD }T T{ -1 1 MOD -> -1 1 TMOD }T T{ -2 1 MOD -> -2 1 TMOD }T T{ 0 -1 MOD -> 0 -1 TMOD }T T{ 1 -1 MOD -> 1 -1 TMOD }T T{ 2 -1 MOD -> 2 -1 TMOD }T T{ -1 -1 MOD -> -1 -1 TMOD }T T{ -2 -1 MOD -> -2 -1 TMOD }T T{ 2 2 MOD -> 2 2 TMOD }T T{ -1 -1 MOD -> -1 -1 TMOD }T T{ -2 -2 MOD -> -2 -2 TMOD }T T{ 7 3 MOD -> 7 3 TMOD }T T{ 7 -3 MOD -> 7 -3 TMOD }T T{ -7 3 MOD -> -7 3 TMOD }T T{ -7 -3 MOD -> -7 -3 TMOD }T T{ MAX-INT 1 MOD -> MAX-INT 1 TMOD }T T{ MIN-INT 1 MOD -> MIN-INT 1 TMOD }T T{ MAX-INT MAX-INT MOD -> MAX-INT MAX-INT TMOD }T T{ MIN-INT MIN-INT MOD -> MIN-INT MIN-INT TMOD }T T{ 0 2 1 */ -> 0 2 1 T*/ }T T{ 1 2 1 */ -> 1 2 1 T*/ }T T{ 2 2 1 */ -> 2 2 1 T*/ }T T{ -1 2 1 */ -> -1 2 1 T*/ }T T{ -2 2 1 */ -> -2 2 1 T*/ }T T{ 0 2 -1 */ -> 0 2 -1 T*/ }T T{ 1 2 -1 */ -> 1 2 -1 T*/ }T T{ 2 2 -1 */ -> 2 2 -1 T*/ }T T{ -1 2 -1 */ -> -1 2 -1 T*/ }T T{ -2 2 -1 */ -> -2 2 -1 T*/ }T T{ 2 2 2 */ -> 2 2 2 T*/ }T T{ -1 2 -1 */ -> -1 2 -1 T*/ }T T{ -2 2 -2 */ -> -2 2 -2 T*/ }T T{ 7 2 3 */ -> 7 2 3 T*/ }T T{ 7 2 -3 */ -> 7 2 -3 T*/ }T T{ -7 2 3 */ -> -7 2 3 T*/ }T T{ -7 2 -3 */ -> -7 2 -3 T*/ }T T{ MAX-INT 2 MAX-INT */ -> MAX-INT 2 MAX-INT T*/ }T T{ MIN-INT 2 MIN-INT */ -> MIN-INT 2 MIN-INT T*/ }T T{ 0 2 1 */MOD -> 0 2 1 T*/MOD }T T{ 1 2 1 */MOD -> 1 2 1 T*/MOD }T T{ 2 2 1 */MOD -> 2 2 1 T*/MOD }T T{ -1 2 1 */MOD -> -1 2 1 T*/MOD }T T{ -2 2 1 */MOD -> -2 2 1 T*/MOD }T T{ 0 2 -1 */MOD -> 0 2 -1 T*/MOD }T T{ 1 2 -1 */MOD -> 1 2 -1 T*/MOD }T T{ 2 2 -1 */MOD -> 2 2 -1 T*/MOD }T T{ -1 2 -1 */MOD -> -1 2 -1 T*/MOD }T T{ -2 2 -1 */MOD -> -2 2 -1 T*/MOD }T T{ 2 2 2 */MOD -> 2 2 2 T*/MOD }T T{ -1 2 -1 */MOD -> -1 2 -1 T*/MOD }T T{ -2 2 -2 */MOD -> -2 2 -2 T*/MOD }T T{ 7 2 3 */MOD -> 7 2 3 T*/MOD }T T{ 7 2 -3 */MOD -> 7 2 -3 T*/MOD }T T{ -7 2 3 */MOD -> -7 2 3 T*/MOD }T T{ -7 2 -3 */MOD -> -7 2 -3 T*/MOD }T T{ MAX-INT 2 MAX-INT */MOD -> MAX-INT 2 MAX-INT T*/MOD }T T{ MIN-INT 2 MIN-INT */MOD -> MIN-INT 2 MIN-INT T*/MOD }T \ ------------------------------------------------------------------------ TESTING HERE , @ ! CELL+ CELLS C, C@ C! CHARS 2@ 2! ALIGN ALIGNED +! ALLOT HERE 1 ALLOT HERE CONSTANT 2NDA CONSTANT 1STA T{ 1STA 2NDA U< -> }T \ HERE MUST GROW WITH ALLOT T{ 1STA 1+ -> 2NDA }T \ ... BY ONE ADDRESS UNIT ( MISSING TEST: NEGATIVE ALLOT ) \ Added by GWJ so that ALIGN can be used before , (comma) is tested 1 ALIGNED CONSTANT ALMNT \ -- 1|2|4|8 for 8|16|32|64 bit alignment ALIGN T{ HERE 1 ALLOT ALIGN HERE SWAP - ALMNT = -> }T \ End of extra test HERE 1 , HERE 2 , CONSTANT 2ND CONSTANT 1ST T{ 1ST 2ND U< -> }T \ HERE MUST GROW WITH ALLOT T{ 1ST CELL+ -> 2ND }T \ ... BY ONE CELL T{ 1ST 1 CELLS + -> 2ND }T T{ 1ST @ 2ND @ -> 1 2 }T T{ 5 1ST ! -> }T T{ 1ST @ 2ND @ -> 5 2 }T T{ 6 2ND ! -> }T T{ 1ST @ 2ND @ -> 5 6 }T T{ 1ST 2@ -> 6 5 }T T{ 2 1 1ST 2! -> }T T{ 1ST 2@ -> 2 1 }T T{ 1S 1ST ! 1ST @ -> 1S }T \ CAN STORE CELL-WIDE VALUE HERE 1 C, HERE 2 C, CONSTANT 2NDC CONSTANT 1STC T{ 1STC 2NDC U< -> }T \ HERE MUST GROW WITH ALLOT T{ 1STC CHAR+ -> 2NDC }T \ ... BY ONE CHAR T{ 1STC 1 CHARS + -> 2NDC }T T{ 1STC C@ 2NDC C@ -> 1 2 }T T{ 3 1STC C! -> }T T{ 1STC C@ 2NDC C@ -> 3 2 }T T{ 4 2NDC C! -> }T T{ 1STC C@ 2NDC C@ -> 3 4 }T ALIGN 1 ALLOT HERE ALIGN HERE 3 CELLS ALLOT CONSTANT A-ADDR CONSTANT UA-ADDR T{ UA-ADDR ALIGNED -> A-ADDR }T T{ 1 A-ADDR C! A-ADDR C@ -> 1 }T T{ 1234 A-ADDR ! A-ADDR @ -> 1234 }T T{ 123 456 A-ADDR 2! A-ADDR 2@ -> 123 456 }T T{ 2 A-ADDR CHAR+ C! A-ADDR CHAR+ C@ -> 2 }T T{ 3 A-ADDR CELL+ C! A-ADDR CELL+ C@ -> 3 }T T{ 1234 A-ADDR CELL+ ! A-ADDR CELL+ @ -> 1234 }T T{ 123 456 A-ADDR CELL+ 2! A-ADDR CELL+ 2@ -> 123 456 }T : BITS ( X -- U ) 0 SWAP BEGIN DUP WHILE DUP MSB AND IF >R 1+ R> THEN 2* REPEAT DROP ; ( CHARACTERS >= 1 AU, <= SIZE OF CELL, >= 8 BITS ) T{ 1 CHARS 1 < -> }T T{ 1 CHARS 1 CELLS > -> }T ( TBD: HOW TO FIND NUMBER OF BITS? ) ( CELLS >= 1 AU, INTEGRAL MULTIPLE OF CHAR SIZE, >= 16 BITS ) T{ 1 CELLS 1 < -> }T T{ 1 CELLS 1 CHARS MOD -> 0 }T T{ 1S BITS 10 < -> }T T{ 0 1ST ! -> }T T{ 1 1ST +! -> }T T{ 1ST @ -> 1 }T T{ -1 1ST +! 1ST @ -> 0 }T \ ------------------------------------------------------------------------ TESTING CHAR [CHAR] [ ] BL S" T{ BL -> 20 }T T{ CHAR X -> 58 }T T{ CHAR HELLO -> 48 }T T{ : GC1 [CHAR] X ; -> }T T{ : GC2 [CHAR] HELLO ; -> }T T{ GC1 -> 58 }T T{ GC2 -> 48 }T T{ : GC3 [ GC1 ] LITERAL ; -> }T T{ GC3 -> 58 }T T{ : GC4 S" XY" ; -> }T T{ GC4 SWAP DROP -> 2 }T T{ GC4 DROP DUP C@ SWAP CHAR+ C@ -> 58 59 }T \ ------------------------------------------------------------------------ TESTING ' ['] FIND EXECUTE IMMEDIATE COUNT LITERAL POSTPONE STATE T{ : GT1 123 ; -> }T T{ ' GT1 EXECUTE -> 123 }T T{ : GT2 ['] GT1 ; IMMEDIATE -> }T T{ GT2 EXECUTE -> 123 }T HERE 3 C, CHAR G C, CHAR T C, CHAR 1 C, CONSTANT GT1STRING HERE 3 C, CHAR G C, CHAR T C, CHAR 2 C, CONSTANT GT2STRING T{ GT1STRING FIND -> ' GT1 -1 }T T{ GT2STRING FIND -> ' GT2 1 }T ( HOW TO SEARCH FOR NON-EXISTENT WORD? ) T{ : GT3 GT2 LITERAL ; -> }T T{ GT3 -> ' GT1 }T T{ GT1STRING COUNT -> GT1STRING CHAR+ 3 }T T{ : GT4 POSTPONE GT1 ; IMMEDIATE -> }T T{ : GT5 GT4 ; -> }T T{ GT5 -> 123 }T T{ : GT6 345 ; IMMEDIATE -> }T T{ : GT7 POSTPONE GT6 ; -> }T T{ GT7 -> 345 }T T{ : GT8 STATE @ ; IMMEDIATE -> }T T{ GT8 -> 0 }T T{ : GT9 GT8 LITERAL ; -> }T T{ GT9 0= -> }T \ ------------------------------------------------------------------------ TESTING IF ELSE THEN BEGIN WHILE REPEAT UNTIL RECURSE T{ : GI1 IF 123 THEN ; -> }T T{ : GI2 IF 123 ELSE 234 THEN ; -> }T T{ 0 GI1 -> }T T{ 1 GI1 -> 123 }T T{ -1 GI1 -> 123 }T T{ 0 GI2 -> 234 }T T{ 1 GI2 -> 123 }T T{ -1 GI1 -> 123 }T T{ : GI3 BEGIN DUP 5 < WHILE DUP 1+ REPEAT ; -> }T T{ 0 GI3 -> 0 1 2 3 4 5 }T T{ 4 GI3 -> 4 5 }T T{ 5 GI3 -> 5 }T T{ 6 GI3 -> 6 }T T{ : GI4 BEGIN DUP 1+ DUP 5 > UNTIL ; -> }T T{ 3 GI4 -> 3 4 5 6 }T T{ 5 GI4 -> 5 6 }T T{ 6 GI4 -> 6 7 }T T{ : GI5 BEGIN DUP 2 > WHILE DUP 5 < WHILE DUP 1+ REPEAT 123 ELSE 345 THEN ; -> }T T{ 1 GI5 -> 1 345 }T T{ 2 GI5 -> 2 345 }T T{ 3 GI5 -> 3 4 5 123 }T T{ 4 GI5 -> 4 5 123 }T T{ 5 GI5 -> 5 123 }T T{ : GI6 ( N -- 0,1,..N ) DUP IF DUP >R 1- RECURSE R> THEN ; -> }T T{ 0 GI6 -> 0 }T T{ 1 GI6 -> 0 1 }T T{ 2 GI6 -> 0 1 2 }T T{ 3 GI6 -> 0 1 2 3 }T T{ 4 GI6 -> 0 1 2 3 4 }T \ ------------------------------------------------------------------------ TESTING DO LOOP +LOOP I J UNLOOP LEAVE EXIT T{ : GD1 DO I LOOP ; -> }T T{ 4 1 GD1 -> 1 2 3 }T T{ 2 -1 GD1 -> -1 0 1 }T T{ MID-UINT+1 MID-UINT GD1 -> MID-UINT }T T{ : GD2 DO I -1 +LOOP ; -> }T T{ 1 4 GD2 -> 4 3 2 1 }T T{ -1 2 GD2 -> 2 1 0 -1 }T T{ MID-UINT MID-UINT+1 GD2 -> MID-UINT+1 MID-UINT }T T{ : GD3 DO 1 0 DO J LOOP LOOP ; -> }T T{ 4 1 GD3 -> 1 2 3 }T T{ 2 -1 GD3 -> -1 0 1 }T T{ MID-UINT+1 MID-UINT GD3 -> MID-UINT }T T{ : GD4 DO 1 0 DO J LOOP -1 +LOOP ; -> }T T{ 1 4 GD4 -> 4 3 2 1 }T T{ -1 2 GD4 -> 2 1 0 -1 }T T{ MID-UINT MID-UINT+1 GD4 -> MID-UINT+1 MID-UINT }T T{ : GD5 123 SWAP 0 DO I 4 > IF DROP 234 LEAVE THEN LOOP ; -> }T T{ 1 GD5 -> 123 }T T{ 5 GD5 -> 123 }T T{ 6 GD5 -> 234 }T T{ : GD6 ( PAT: T{0 0},{0 0}{1 0}{1 1},{0 0}{1 0}{1 1}{2 0}{2 1}{2 2} ) 0 SWAP 0 DO I 1+ 0 DO I J + 3 = IF I UNLOOP I UNLOOP EXIT THEN 1+ LOOP LOOP ; -> }T T{ 1 GD6 -> 1 }T T{ 2 GD6 -> 3 }T T{ 3 GD6 -> 4 1 2 }T \ ------------------------------------------------------------------------ TESTING DEFINING WORDS: : ; CONSTANT VARIABLE CREATE DOES> >BODY T{ 123 CONSTANT X123 -> }T T{ X123 -> 123 }T T{ : EQU CONSTANT ; -> }T T{ X123 EQU Y123 -> }T T{ Y123 -> 123 }T T{ VARIABLE V1 -> }T T{ 123 V1 ! -> }T T{ V1 @ -> 123 }T T{ : NOP : POSTPONE ; ; -> }T T{ NOP NOP1 NOP NOP2 -> }T T{ NOP1 -> }T T{ NOP2 -> }T T{ : DOES1 DOES> @ 1 + ; -> }T T{ : DOES2 DOES> @ 2 + ; -> }T T{ CREATE CR1 -> }T T{ CR1 -> HERE }T T{ ' CR1 >BODY -> HERE }T T{ 1 , -> }T T{ CR1 @ -> 1 }T T{ DOES1 -> }T T{ CR1 -> 2 }T T{ DOES2 -> }T T{ CR1 -> 3 }T T{ : WEIRD: CREATE DOES> 1 + DOES> 2 + ; -> }T T{ WEIRD: W1 -> }T T{ ' W1 >BODY -> HERE }T T{ W1 -> HERE 1 + }T T{ W1 -> HERE 2 + }T \ ------------------------------------------------------------------------ TESTING EVALUATE : GE1 S" 123" ; IMMEDIATE : GE2 S" 123 1+" ; IMMEDIATE : GE3 S" : GE4 345 ;" ; : GE5 EVALUATE ; IMMEDIATE T{ GE1 EVALUATE -> 123 }T ( TEST EVALUATE IN INTERP. STATE ) T{ GE2 EVALUATE -> 124 }T T{ GE3 EVALUATE -> }T T{ GE4 -> 345 }T T{ : GE6 GE1 GE5 ; -> }T ( TEST EVALUATE IN COMPILE STATE ) T{ GE6 -> 123 }T T{ : GE7 GE2 GE5 ; -> }T T{ GE7 -> 124 }T \ ------------------------------------------------------------------------ TESTING SOURCE >IN WORD : GS1 S" SOURCE" 2DUP EVALUATE >R SWAP >R = R> R> = ; T{ GS1 -> }T VARIABLE SCANS : RESCAN? -1 SCANS +! SCANS @ IF 0 >IN ! THEN ; T{ 2 SCANS ! 345 RESCAN? -> 345 345 }T : GS2 5 SCANS ! S" 123 RESCAN?" EVALUATE ; T{ GS2 -> 123 123 123 123 123 }T : GS3 WORD COUNT SWAP C@ ; T{ BL GS3 HELLO -> 5 CHAR H }T T{ CHAR " GS3 GOODBYE" -> 7 CHAR G }T T{ BL GS3 DROP -> 0 }T \ BLANK LINE RETURN ZERO-LENGTH STRING : GS4 SOURCE >IN ! DROP ; T{ GS4 123 456 -> }T \ ------------------------------------------------------------------------ TESTING <# # #S #> HOLD SIGN BASE >NUMBER HEX DECIMAL : S= \ ( ADDR1 C1 ADDR2 C2 -- T/F ) COMPARE TWO STRINGS. >R SWAP R@ = IF \ MAKE SURE STRINGS HAVE SAME LENGTH R> ?DUP IF \ IF NON-EMPTY STRINGS 0 DO OVER C@ OVER C@ - IF 2DROP UNLOOP EXIT THEN SWAP CHAR+ SWAP CHAR+ LOOP THEN 2DROP \ IF WE GET HERE, STRINGS MATCH ELSE R> DROP 2DROP \ LENGTHS MISMATCH THEN ; : GP1 <# 41 HOLD 42 HOLD 0 0 #> S" BA" S= ; T{ GP1 -> }T : GP2 <# -1 SIGN 0 SIGN -1 SIGN 0 0 #> S" --" S= ; T{ GP2 -> }T : GP3 <# 1 0 # # #> S" 01" S= ; T{ GP3 -> }T : GP4 <# 1 0 #S #> S" 1" S= ; T{ GP4 -> }T 24 CONSTANT MAX-BASE \ BASE 2 .. 36 : COUNT-BITS 0 0 INVERT BEGIN DUP WHILE >R 1+ R> 2* REPEAT DROP ; COUNT-BITS 2* CONSTANT #BITS-UD \ NUMBER OF BITS IN UD : GP5 BASE @ MAX-BASE 1+ 2 DO \ FOR EACH POSSIBLE BASE I BASE ! \ TBD: ASSUMES BASE WORKS I 0 <# #S #> S" 10" S= AND LOOP SWAP BASE ! ; T{ GP5 -> }T : GP6 BASE @ >R 2 BASE ! MAX-UINT MAX-UINT <# #S #> \ MAXIMUM UD TO BINARY R> BASE ! \ S: C-ADDR U DUP #BITS-UD = SWAP 0 DO \ S: C-ADDR FLAG OVER C@ [CHAR] 1 = AND \ ALL ONES >R CHAR+ R> LOOP SWAP DROP ; T{ GP6 -> }T : GP7 BASE @ >R MAX-BASE BASE ! A 0 DO I 0 <# #S #> 1 = SWAP C@ I 30 + = AND AND LOOP MAX-BASE A DO I 0 <# #S #> 1 = SWAP C@ 41 I A - + = AND AND LOOP R> BASE ! ; T{ GP7 -> }T \ >NUMBER TESTS CREATE GN-BUF 0 C, : GN-STRING GN-BUF 1 ; : GN-CONSUMED GN-BUF CHAR+ 0 ; : GN' [CHAR] ' WORD CHAR+ C@ GN-BUF C! GN-STRING ; T{ 0 0 GN' 0' >NUMBER -> 0 0 GN-CONSUMED }T T{ 0 0 GN' 1' >NUMBER -> 1 0 GN-CONSUMED }T T{ 1 0 GN' 1' >NUMBER -> BASE @ 1+ 0 GN-CONSUMED }T T{ 0 0 GN' -' >NUMBER -> 0 0 GN-STRING }T \ SHOULD FAIL TO CONVERT THESE T{ 0 0 GN' +' >NUMBER -> 0 0 GN-STRING }T T{ 0 0 GN' .' >NUMBER -> 0 0 GN-STRING }T : >NUMBER-BASED BASE @ >R BASE ! >NUMBER R> BASE ! ; T{ 0 0 GN' 2' 10 >NUMBER-BASED -> 2 0 GN-CONSUMED }T T{ 0 0 GN' 2' 2 >NUMBER-BASED -> 0 0 GN-STRING }T T{ 0 0 GN' F' 10 >NUMBER-BASED -> F 0 GN-CONSUMED }T T{ 0 0 GN' G' 10 >NUMBER-BASED -> 0 0 GN-STRING }T T{ 0 0 GN' G' MAX-BASE >NUMBER-BASED -> 10 0 GN-CONSUMED }T T{ 0 0 GN' Z' MAX-BASE >NUMBER-BASED -> 23 0 GN-CONSUMED }T : GN1 \ ( UD BASE -- UD' LEN ) UD SHOULD EQUAL UD' AND LEN SHOULD BE ZERO. BASE @ >R BASE ! <# #S #> 0 0 2SWAP >NUMBER SWAP DROP \ RETURN LENGTH ONLY R> BASE ! ; T{ 0 0 2 GN1 -> 0 0 0 }T T{ MAX-UINT 0 2 GN1 -> MAX-UINT 0 0 }T T{ MAX-UINT DUP 2 GN1 -> MAX-UINT DUP 0 }T T{ 0 0 MAX-BASE GN1 -> 0 0 0 }T T{ MAX-UINT 0 MAX-BASE GN1 -> MAX-UINT 0 0 }T T{ MAX-UINT DUP MAX-BASE GN1 -> MAX-UINT DUP 0 }T : GN2 \ ( -- 16 10 ) BASE @ >R HEX BASE @ DECIMAL BASE @ R> BASE ! ; T{ GN2 -> 10 A }T \ ------------------------------------------------------------------------ TESTING FILL MOVE CREATE FBUF 00 C, 00 C, 00 C, CREATE SBUF 12 C, 34 C, 56 C, : SEEBUF FBUF C@ FBUF CHAR+ C@ FBUF CHAR+ CHAR+ C@ ; T{ FBUF 0 20 FILL -> }T T{ SEEBUF -> 00 00 00 }T T{ FBUF 1 20 FILL -> }T T{ SEEBUF -> 20 00 00 }T T{ FBUF 3 20 FILL -> }T T{ SEEBUF -> 20 20 20 }T T{ FBUF FBUF 3 CHARS MOVE -> }T \ BIZARRE SPECIAL CASE T{ SEEBUF -> 20 20 20 }T T{ SBUF FBUF 0 CHARS MOVE -> }T T{ SEEBUF -> 20 20 20 }T T{ SBUF FBUF 1 CHARS MOVE -> }T T{ SEEBUF -> 12 20 20 }T T{ SBUF FBUF 3 CHARS MOVE -> }T T{ SEEBUF -> 12 34 56 }T T{ FBUF FBUF CHAR+ 2 CHARS MOVE -> }T T{ SEEBUF -> 12 12 34 }T T{ FBUF CHAR+ FBUF 2 CHARS MOVE -> }T T{ SEEBUF -> 12 34 34 }T \ ------------------------------------------------------------------------ TESTING OUTPUT: . ." CR EMIT SPACE SPACES TYPE U. : OUTPUT-TEST ." YOU SHOULD SEE THE STANDARD GRAPHIC CHARACTERS:" CR 41 BL DO I EMIT LOOP CR 61 41 DO I EMIT LOOP CR 7F 61 DO I EMIT LOOP CR ." YOU SHOULD SEE 0-9 SEPARATED BY A SPACE:" CR 9 1+ 0 DO I . LOOP CR ." YOU SHOULD SEE 0-9 (WITH NO SPACES):" CR [CHAR] 9 1+ [CHAR] 0 DO I 0 SPACES EMIT LOOP CR ." YOU SHOULD SEE A-G SEPARATED BY A SPACE:" CR [CHAR] G 1+ [CHAR] A DO I EMIT SPACE LOOP CR ." YOU SHOULD SEE 0-5 SEPARATED BY TWO SPACES:" CR 5 1+ 0 DO I [CHAR] 0 + EMIT 2 SPACES LOOP CR ." YOU SHOULD SEE TWO SEPARATE LINES:" CR S" LINE 1" TYPE CR S" LINE 2" TYPE CR ." YOU SHOULD SEE THE NUMBER RANGES OF SIGNED AND UNSIGNED NUMBERS:" CR ." SIGNED: " MIN-INT . MAX-INT . CR ." UNSIGNED: " 0 U. MAX-UINT U. CR ; T{ OUTPUT-TEST -> }T 0 [if] \ ------------------------------------------------------------------------ TESTING INPUT: ACCEPT CREATE ABUF 50 CHARS ALLOT : ACCEPT-TEST CR ." PLEASE TYPE UP TO 80 CHARACTERS:" CR ABUF 50 ACCEPT CR ." RECEIVED: " [CHAR] " EMIT ABUF SWAP TYPE [CHAR] " EMIT CR ; T{ ACCEPT-TEST -> }T [then] \ ------------------------------------------------------------------------ TESTING DICTIONARY SEARCH RULES T{ : GDX 123 ; : GDX GDX 234 ; -> }T T{ GDX -> 123 234 }T CR .( End of Core word set tests) CR \ To test the ANS Forth Core Extension word set \ This program was written by Gerry Jackson in 2006, with contributions from \ others where indicated, and is in the public domain - it can be distributed \ and/or modified in any way but please retain this notice. \ This program is distributed in the hope that it will be useful, \ but WITHOUT ANY WARRANTY; without even the implied warranty of \ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. \ The tests are not claimed to be comprehensive or correct \ ------------------------------------------------------------------------------ \ Version 0.13 28 October 2015 \ Replace and with FALSE and TRUE to avoid \ dependence on Core tests \ Moved SAVE-INPUT and RESTORE-INPUT tests in a file to filetest.fth \ Use of 2VARIABLE (from optional wordset) replaced with CREATE. \ Minor lower to upper case conversions. \ Calls to COMPARE replaced by S= (in utilities.fth) to avoid use \ of a word from an optional word set. \ UNUSED tests revised as UNUSED UNUSED = may return FALSE when an \ implementation has the data stack sharing unused dataspace. \ Double number input dependency removed from the HOLDS tests. \ Minor case sensitivities removed in definition names. \ 0.11 25 April 2015 \ Added tests for PARSE-NAME HOLDS BUFFER: \ S\" tests added \ DEFER IS ACTION-OF DEFER! DEFER@ tests added \ Empty CASE statement test added \ [COMPILE] tests removed because it is obsolescent in Forth 2012 \ 0.10 1 August 2014 \ Added tests contributed by James Bowman for: \ <> U> 0<> 0> NIP TUCK ROLL PICK 2>R 2R@ 2R> \ HEX WITHIN UNUSED AGAIN MARKER \ Added tests for: \ .R U.R ERASE PAD REFILL SOURCE-ID \ Removed ABORT from NeverExecuted to enable Win32 \ to continue after failure of RESTORE-INPUT. \ Removed max-intx which is no longer used. \ 0.7 6 June 2012 Extra CASE test added \ 0.6 1 April 2012 Tests placed in the public domain. \ SAVE-INPUT & RESTORE-INPUT tests, position \ of T{ moved so that tests work with ttester.fs \ CONVERT test deleted - obsolete word removed from Forth 200X \ IMMEDIATE VALUEs tested \ RECURSE with :NONAME tested \ PARSE and .( tested \ Parsing behaviour of C" added \ 0.5 14 September 2011 Removed the double [ELSE] from the \ initial SAVE-INPUT & RESTORE-INPUT test \ 0.4 30 November 2009 max-int replaced with max-intx to \ avoid redefinition warnings. \ 0.3 6 March 2009 { and } replaced with T{ and }T \ CONVERT test now independent of cell size \ 0.2 20 April 2007 ANS Forth words changed to upper case \ Tests qd3 to qd6 by Reinhold Straub \ 0.1 Oct 2006 First version released \ ----------------------------------------------------------------------------- \ The tests are based on John Hayes test program for the core word set \ Words tested in this file are: \ .( .R 0<> 0> 2>R 2R> 2R@ :NONAME <> ?DO AGAIN C" CASE COMPILE, ENDCASE \ ENDOF ERASE FALSE HEX MARKER NIP OF PAD PARSE PICK REFILL \ RESTORE-INPUT ROLL SAVE-INPUT SOURCE-ID TO TRUE TUCK U.R U> UNUSED \ VALUE WITHIN [COMPILE] \ Words not tested or partially tested: \ \ because it has been extensively used already and is, hence, unnecessary \ REFILL and SOURCE-ID from the user input device which are not possible \ when testing from a file such as this one \ UNUSED (partially tested) as the value returned is system dependent \ Obsolescent words #TIB CONVERT EXPECT QUERY SPAN TIB as they have been \ removed from the Forth 2012 standard \ Results from words that output to the user output device have to visually \ checked for correctness. These are .R U.R .( \ ----------------------------------------------------------------------------- \ Assumptions & dependencies: \ - tester.fr (or ttester.fs), errorreport.fth and utilities.fth have been \ included prior to this file \ - the Core word set available \ ----------------------------------------------------------------------------- TESTING Core Extension words DECIMAL TESTING TRUE FALSE T{ TRUE -> 0 INVERT }T T{ FALSE -> 0 }T \ ----------------------------------------------------------------------------- TESTING <> U> (contributed by James Bowman) T{ 0 0 <> -> FALSE }T T{ 1 1 <> -> FALSE }T T{ -1 -1 <> -> FALSE }T T{ 1 0 <> -> TRUE }T T{ -1 0 <> -> TRUE }T T{ 0 1 <> -> TRUE }T T{ 0 -1 <> -> TRUE }T T{ 0 1 U> -> FALSE }T T{ 1 2 U> -> FALSE }T T{ 0 MID-UINT U> -> FALSE }T T{ 0 MAX-UINT U> -> FALSE }T T{ MID-UINT MAX-UINT U> -> FALSE }T T{ 0 0 U> -> FALSE }T T{ 1 1 U> -> FALSE }T T{ 1 0 U> -> TRUE }T T{ 2 1 U> -> TRUE }T T{ MID-UINT 0 U> -> TRUE }T T{ MAX-UINT 0 U> -> TRUE }T T{ MAX-UINT MID-UINT U> -> TRUE }T \ ----------------------------------------------------------------------------- TESTING 0<> 0> (contributed by James Bowman) T{ 0 0<> -> FALSE }T T{ 1 0<> -> TRUE }T T{ 2 0<> -> TRUE }T T{ -1 0<> -> TRUE }T T{ MAX-UINT 0<> -> TRUE }T T{ MIN-INT 0<> -> TRUE }T T{ MAX-INT 0<> -> TRUE }T T{ 0 0> -> FALSE }T T{ -1 0> -> FALSE }T T{ MIN-INT 0> -> FALSE }T T{ 1 0> -> TRUE }T T{ MAX-INT 0> -> TRUE }T \ ----------------------------------------------------------------------------- TESTING NIP TUCK ROLL PICK (contributed by James Bowman) T{ 1 2 NIP -> 2 }T T{ 1 2 3 NIP -> 1 3 }T T{ 1 2 TUCK -> 2 1 2 }T T{ 1 2 3 TUCK -> 1 3 2 3 }T T{ : RO5 100 200 300 400 500 ; -> }T T{ RO5 3 ROLL -> 100 300 400 500 200 }T T{ RO5 2 ROLL -> RO5 ROT }T T{ RO5 1 ROLL -> RO5 SWAP }T T{ RO5 0 ROLL -> RO5 }T T{ RO5 2 PICK -> 100 200 300 400 500 300 }T T{ RO5 1 PICK -> RO5 OVER }T T{ RO5 0 PICK -> RO5 DUP }T \ ----------------------------------------------------------------------------- TESTING 2>R 2R@ 2R> (contributed by James Bowman) T{ : RR0 2>R 100 R> R> ; -> }T T{ 300 400 RR0 -> 100 400 300 }T T{ 200 300 400 RR0 -> 200 100 400 300 }T T{ : RR1 2>R 100 2R@ R> R> ; -> }T T{ 300 400 RR1 -> 100 300 400 400 300 }T T{ 200 300 400 RR1 -> 200 100 300 400 400 300 }T T{ : RR2 2>R 100 2R> ; -> }T T{ 300 400 RR2 -> 100 300 400 }T T{ 200 300 400 RR2 -> 200 100 300 400 }T \ ----------------------------------------------------------------------------- TESTING HEX (contributed by James Bowman) T{ BASE @ HEX BASE @ DECIMAL BASE @ - SWAP BASE ! -> 6 }T \ ----------------------------------------------------------------------------- TESTING WITHIN (contributed by James Bowman) T{ 0 0 0 WITHIN -> FALSE }T T{ 0 0 MID-UINT WITHIN -> TRUE }T T{ 0 0 MID-UINT+1 WITHIN -> TRUE }T T{ 0 0 MAX-UINT WITHIN -> TRUE }T T{ 0 MID-UINT 0 WITHIN -> FALSE }T T{ 0 MID-UINT MID-UINT WITHIN -> FALSE }T T{ 0 MID-UINT MID-UINT+1 WITHIN -> FALSE }T T{ 0 MID-UINT MAX-UINT WITHIN -> FALSE }T T{ 0 MID-UINT+1 0 WITHIN -> FALSE }T T{ 0 MID-UINT+1 MID-UINT WITHIN -> TRUE }T T{ 0 MID-UINT+1 MID-UINT+1 WITHIN -> FALSE }T T{ 0 MID-UINT+1 MAX-UINT WITHIN -> FALSE }T T{ 0 MAX-UINT 0 WITHIN -> FALSE }T T{ 0 MAX-UINT MID-UINT WITHIN -> TRUE }T T{ 0 MAX-UINT MID-UINT+1 WITHIN -> TRUE }T T{ 0 MAX-UINT MAX-UINT WITHIN -> FALSE }T T{ MID-UINT 0 0 WITHIN -> FALSE }T T{ MID-UINT 0 MID-UINT WITHIN -> FALSE }T T{ MID-UINT 0 MID-UINT+1 WITHIN -> TRUE }T T{ MID-UINT 0 MAX-UINT WITHIN -> TRUE }T T{ MID-UINT MID-UINT 0 WITHIN -> TRUE }T T{ MID-UINT MID-UINT MID-UINT WITHIN -> FALSE }T T{ MID-UINT MID-UINT MID-UINT+1 WITHIN -> TRUE }T T{ MID-UINT MID-UINT MAX-UINT WITHIN -> TRUE }T T{ MID-UINT MID-UINT+1 0 WITHIN -> FALSE }T T{ MID-UINT MID-UINT+1 MID-UINT WITHIN -> FALSE }T T{ MID-UINT MID-UINT+1 MID-UINT+1 WITHIN -> FALSE }T T{ MID-UINT MID-UINT+1 MAX-UINT WITHIN -> FALSE }T T{ MID-UINT MAX-UINT 0 WITHIN -> FALSE }T T{ MID-UINT MAX-UINT MID-UINT WITHIN -> FALSE }T T{ MID-UINT MAX-UINT MID-UINT+1 WITHIN -> TRUE }T T{ MID-UINT MAX-UINT MAX-UINT WITHIN -> FALSE }T T{ MID-UINT+1 0 0 WITHIN -> FALSE }T T{ MID-UINT+1 0 MID-UINT WITHIN -> FALSE }T T{ MID-UINT+1 0 MID-UINT+1 WITHIN -> FALSE }T T{ MID-UINT+1 0 MAX-UINT WITHIN -> TRUE }T T{ MID-UINT+1 MID-UINT 0 WITHIN -> TRUE }T T{ MID-UINT+1 MID-UINT MID-UINT WITHIN -> FALSE }T T{ MID-UINT+1 MID-UINT MID-UINT+1 WITHIN -> FALSE }T T{ MID-UINT+1 MID-UINT MAX-UINT WITHIN -> TRUE }T T{ MID-UINT+1 MID-UINT+1 0 WITHIN -> TRUE }T T{ MID-UINT+1 MID-UINT+1 MID-UINT WITHIN -> TRUE }T T{ MID-UINT+1 MID-UINT+1 MID-UINT+1 WITHIN -> FALSE }T T{ MID-UINT+1 MID-UINT+1 MAX-UINT WITHIN -> TRUE }T T{ MID-UINT+1 MAX-UINT 0 WITHIN -> FALSE }T T{ MID-UINT+1 MAX-UINT MID-UINT WITHIN -> FALSE }T T{ MID-UINT+1 MAX-UINT MID-UINT+1 WITHIN -> FALSE }T T{ MID-UINT+1 MAX-UINT MAX-UINT WITHIN -> FALSE }T T{ MAX-UINT 0 0 WITHIN -> FALSE }T T{ MAX-UINT 0 MID-UINT WITHIN -> FALSE }T T{ MAX-UINT 0 MID-UINT+1 WITHIN -> FALSE }T T{ MAX-UINT 0 MAX-UINT WITHIN -> FALSE }T T{ MAX-UINT MID-UINT 0 WITHIN -> TRUE }T T{ MAX-UINT MID-UINT MID-UINT WITHIN -> FALSE }T T{ MAX-UINT MID-UINT MID-UINT+1 WITHIN -> FALSE }T T{ MAX-UINT MID-UINT MAX-UINT WITHIN -> FALSE }T T{ MAX-UINT MID-UINT+1 0 WITHIN -> TRUE }T T{ MAX-UINT MID-UINT+1 MID-UINT WITHIN -> TRUE }T T{ MAX-UINT MID-UINT+1 MID-UINT+1 WITHIN -> FALSE }T T{ MAX-UINT MID-UINT+1 MAX-UINT WITHIN -> FALSE }T T{ MAX-UINT MAX-UINT 0 WITHIN -> TRUE }T T{ MAX-UINT MAX-UINT MID-UINT WITHIN -> TRUE }T T{ MAX-UINT MAX-UINT MID-UINT+1 WITHIN -> TRUE }T T{ MAX-UINT MAX-UINT MAX-UINT WITHIN -> FALSE }T T{ MIN-INT MIN-INT MIN-INT WITHIN -> FALSE }T T{ MIN-INT MIN-INT 0 WITHIN -> TRUE }T T{ MIN-INT MIN-INT 1 WITHIN -> TRUE }T T{ MIN-INT MIN-INT MAX-INT WITHIN -> TRUE }T T{ MIN-INT 0 MIN-INT WITHIN -> FALSE }T T{ MIN-INT 0 0 WITHIN -> FALSE }T T{ MIN-INT 0 1 WITHIN -> FALSE }T T{ MIN-INT 0 MAX-INT WITHIN -> FALSE }T T{ MIN-INT 1 MIN-INT WITHIN -> FALSE }T T{ MIN-INT 1 0 WITHIN -> TRUE }T T{ MIN-INT 1 1 WITHIN -> FALSE }T T{ MIN-INT 1 MAX-INT WITHIN -> FALSE }T T{ MIN-INT MAX-INT MIN-INT WITHIN -> FALSE }T T{ MIN-INT MAX-INT 0 WITHIN -> TRUE }T T{ MIN-INT MAX-INT 1 WITHIN -> TRUE }T T{ MIN-INT MAX-INT MAX-INT WITHIN -> FALSE }T T{ 0 MIN-INT MIN-INT WITHIN -> FALSE }T T{ 0 MIN-INT 0 WITHIN -> FALSE }T T{ 0 MIN-INT 1 WITHIN -> TRUE }T T{ 0 MIN-INT MAX-INT WITHIN -> TRUE }T T{ 0 0 MIN-INT WITHIN -> TRUE }T T{ 0 0 0 WITHIN -> FALSE }T T{ 0 0 1 WITHIN -> TRUE }T T{ 0 0 MAX-INT WITHIN -> TRUE }T T{ 0 1 MIN-INT WITHIN -> FALSE }T T{ 0 1 0 WITHIN -> FALSE }T T{ 0 1 1 WITHIN -> FALSE }T T{ 0 1 MAX-INT WITHIN -> FALSE }T T{ 0 MAX-INT MIN-INT WITHIN -> FALSE }T T{ 0 MAX-INT 0 WITHIN -> FALSE }T T{ 0 MAX-INT 1 WITHIN -> TRUE }T T{ 0 MAX-INT MAX-INT WITHIN -> FALSE }T T{ 1 MIN-INT MIN-INT WITHIN -> FALSE }T T{ 1 MIN-INT 0 WITHIN -> FALSE }T T{ 1 MIN-INT 1 WITHIN -> FALSE }T T{ 1 MIN-INT MAX-INT WITHIN -> TRUE }T T{ 1 0 MIN-INT WITHIN -> TRUE }T T{ 1 0 0 WITHIN -> FALSE }T T{ 1 0 1 WITHIN -> FALSE }T T{ 1 0 MAX-INT WITHIN -> TRUE }T T{ 1 1 MIN-INT WITHIN -> TRUE }T T{ 1 1 0 WITHIN -> TRUE }T T{ 1 1 1 WITHIN -> FALSE }T T{ 1 1 MAX-INT WITHIN -> TRUE }T T{ 1 MAX-INT MIN-INT WITHIN -> FALSE }T T{ 1 MAX-INT 0 WITHIN -> FALSE }T T{ 1 MAX-INT 1 WITHIN -> FALSE }T T{ 1 MAX-INT MAX-INT WITHIN -> FALSE }T T{ MAX-INT MIN-INT MIN-INT WITHIN -> FALSE }T T{ MAX-INT MIN-INT 0 WITHIN -> FALSE }T T{ MAX-INT MIN-INT 1 WITHIN -> FALSE }T T{ MAX-INT MIN-INT MAX-INT WITHIN -> FALSE }T T{ MAX-INT 0 MIN-INT WITHIN -> TRUE }T T{ MAX-INT 0 0 WITHIN -> FALSE }T T{ MAX-INT 0 1 WITHIN -> FALSE }T T{ MAX-INT 0 MAX-INT WITHIN -> FALSE }T T{ MAX-INT 1 MIN-INT WITHIN -> TRUE }T T{ MAX-INT 1 0 WITHIN -> TRUE }T T{ MAX-INT 1 1 WITHIN -> FALSE }T T{ MAX-INT 1 MAX-INT WITHIN -> FALSE }T T{ MAX-INT MAX-INT MIN-INT WITHIN -> TRUE }T T{ MAX-INT MAX-INT 0 WITHIN -> TRUE }T T{ MAX-INT MAX-INT 1 WITHIN -> TRUE }T T{ MAX-INT MAX-INT MAX-INT WITHIN -> FALSE }T \ ----------------------------------------------------------------------------- TESTING UNUSED (contributed by James Bowman & Peter Knaggs) VARIABLE UNUSED0 T{ UNUSED DROP -> }T T{ ALIGN UNUSED UNUSED0 ! 0 , UNUSED CELL+ UNUSED0 @ = -> TRUE }T T{ UNUSED UNUSED0 ! 0 C, UNUSED CHAR+ UNUSED0 @ = -> TRUE }T \ aligned -> unaligned T{ UNUSED UNUSED0 ! 0 C, UNUSED CHAR+ UNUSED0 @ = -> TRUE }T \ unaligned -> ? \ ----------------------------------------------------------------------------- TESTING AGAIN (contributed by James Bowman) T{ : AG0 701 BEGIN DUP 7 MOD 0= IF EXIT THEN 1+ AGAIN ; -> }T T{ AG0 -> 707 }T \ ----------------------------------------------------------------------------- TESTING MARKER (contributed by James Bowman) T{ : MA? BL WORD FIND NIP 0<> ; -> }T T{ MARKER MA0 -> }T T{ : MA1 111 ; -> }T T{ MARKER MA2 -> }T T{ : MA1 222 ; -> }T T{ MA? MA0 MA? MA1 MA? MA2 -> TRUE TRUE TRUE }T T{ MA1 MA2 MA1 -> 222 111 }T T{ MA? MA0 MA? MA1 MA? MA2 -> TRUE TRUE FALSE }T T{ MA0 -> }T T{ MA? MA0 MA? MA1 MA? MA2 -> FALSE FALSE FALSE }T \ ----------------------------------------------------------------------------- TESTING ?DO : QD ?DO I LOOP ; T{ 789 789 QD -> }T T{ -9876 -9876 QD -> }T T{ 5 0 QD -> 0 1 2 3 4 }T : QD1 ?DO I 10 +LOOP ; T{ 50 1 QD1 -> 1 11 21 31 41 }T T{ 50 0 QD1 -> 0 10 20 30 40 }T : QD2 ?DO I 3 > IF LEAVE ELSE I THEN LOOP ; T{ 5 -1 QD2 -> -1 0 1 2 3 }T : QD3 ?DO I 1 +LOOP ; T{ 4 4 QD3 -> }T T{ 4 1 QD3 -> 1 2 3 }T T{ 2 -1 QD3 -> -1 0 1 }T : QD4 ?DO I -1 +LOOP ; T{ 4 4 QD4 -> }T T{ 1 4 QD4 -> 4 3 2 1 }T T{ -1 2 QD4 -> 2 1 0 -1 }T : QD5 ?DO I -10 +LOOP ; T{ 1 50 QD5 -> 50 40 30 20 10 }T T{ 0 50 QD5 -> 50 40 30 20 10 0 }T T{ -25 10 QD5 -> 10 0 -10 -20 }T VARIABLE ITERS VARIABLE INCRMNT : QD6 ( limit start increment -- ) INCRMNT ! 0 ITERS ! ?DO 1 ITERS +! I ITERS @ 6 = IF LEAVE THEN INCRMNT @ +LOOP ITERS @ ; T{ 4 4 -1 QD6 -> 0 }T T{ 1 4 -1 QD6 -> 4 3 2 1 4 }T T{ 4 1 -1 QD6 -> 1 0 -1 -2 -3 -4 6 }T T{ 4 1 0 QD6 -> 1 1 1 1 1 1 6 }T T{ 0 0 0 QD6 -> 0 }T T{ 1 4 0 QD6 -> 4 4 4 4 4 4 6 }T T{ 1 4 1 QD6 -> 4 5 6 7 8 9 6 }T T{ 4 1 1 QD6 -> 1 2 3 3 }T T{ 4 4 1 QD6 -> 0 }T T{ 2 -1 -1 QD6 -> -1 -2 -3 -4 -5 -6 6 }T T{ -1 2 -1 QD6 -> 2 1 0 -1 4 }T T{ 2 -1 0 QD6 -> -1 -1 -1 -1 -1 -1 6 }T T{ -1 2 0 QD6 -> 2 2 2 2 2 2 6 }T T{ -1 2 1 QD6 -> 2 3 4 5 6 7 6 }T T{ 2 -1 1 QD6 -> -1 0 1 3 }T \ ----------------------------------------------------------------------------- TESTING BUFFER: T{ 8 BUFFER: BUF:TEST -> }T T{ BUF:TEST DUP ALIGNED = -> TRUE }T T{ 111 BUF:TEST ! 222 BUF:TEST CELL+ ! -> }T T{ BUF:TEST @ BUF:TEST CELL+ @ -> 111 222 }T \ ----------------------------------------------------------------------------- TESTING VALUE TO T{ 111 VALUE VAL1 -999 VALUE VAL2 -> }T T{ VAL1 -> 111 }T T{ VAL2 -> -999 }T T{ 222 TO VAL1 -> }T T{ VAL1 -> 222 }T T{ : VD1 VAL1 ; -> }T T{ VD1 -> 222 }T T{ : VD2 TO VAL2 ; -> }T T{ VAL2 -> -999 }T T{ -333 VD2 -> }T T{ VAL2 -> -333 }T T{ VAL1 -> 222 }T T{ 123 VALUE VAL3 IMMEDIATE VAL3 -> 123 }T T{ : VD3 VAL3 LITERAL ; VD3 -> 123 }T \ ----------------------------------------------------------------------------- TESTING CASE OF ENDOF ENDCASE : CS1 CASE 1 OF 111 ENDOF 2 OF 222 ENDOF 3 OF 333 ENDOF >R 999 R> ENDCASE ; T{ 1 CS1 -> 111 }T T{ 2 CS1 -> 222 }T T{ 3 CS1 -> 333 }T T{ 4 CS1 -> 999 }T \ Nested CASE's : CS2 >R CASE -1 OF CASE R@ 1 OF 100 ENDOF 2 OF 200 ENDOF >R -300 R> ENDCASE ENDOF -2 OF CASE R@ 1 OF -99 ENDOF >R -199 R> ENDCASE ENDOF >R 299 R> ENDCASE R> DROP ; T{ -1 1 CS2 -> 100 }T T{ -1 2 CS2 -> 200 }T T{ -1 3 CS2 -> -300 }T T{ -2 1 CS2 -> -99 }T T{ -2 2 CS2 -> -199 }T T{ 0 2 CS2 -> 299 }T \ Boolean short circuiting using CASE : CS3 ( N1 -- N2 ) CASE 1- FALSE OF 11 ENDOF 1- FALSE OF 22 ENDOF 1- FALSE OF 33 ENDOF 44 SWAP ENDCASE ; T{ 1 CS3 -> 11 }T T{ 2 CS3 -> 22 }T T{ 3 CS3 -> 33 }T T{ 9 CS3 -> 44 }T \ Empty CASE statements with/without default T{ : CS4 CASE ENDCASE ; 1 CS4 -> }T T{ : CS5 CASE 2 SWAP ENDCASE ; 1 CS5 -> 2 }T T{ : CS6 CASE 1 OF ENDOF 2 ENDCASE ; 1 CS6 -> }T T{ : CS7 CASE 3 OF ENDOF 2 ENDCASE ; 1 CS7 -> 1 }T \ ----------------------------------------------------------------------------- TESTING :NONAME RECURSE VARIABLE NN1 VARIABLE NN2 :NONAME 1234 ; NN1 ! :NONAME 9876 ; NN2 ! T{ NN1 @ EXECUTE -> 1234 }T T{ NN2 @ EXECUTE -> 9876 }T T{ :NONAME ( n -- 0,1,..n ) DUP IF DUP >R 1- RECURSE R> THEN ; CONSTANT RN1 -> }T T{ 0 RN1 EXECUTE -> 0 }T T{ 4 RN1 EXECUTE -> 0 1 2 3 4 }T :NONAME ( n -- n1 ) \ Multiple RECURSEs in one definition 1- DUP CASE 0 OF EXIT ENDOF 1 OF 11 SWAP RECURSE ENDOF 2 OF 22 SWAP RECURSE ENDOF 3 OF 33 SWAP RECURSE ENDOF DROP ABS RECURSE EXIT ENDCASE ; CONSTANT RN2 T{ 1 RN2 EXECUTE -> 0 }T T{ 2 RN2 EXECUTE -> 11 0 }T T{ 4 RN2 EXECUTE -> 33 22 11 0 }T T{ 25 RN2 EXECUTE -> 33 22 11 0 }T \ ----------------------------------------------------------------------------- TESTING C" T{ : CQ1 C" 123" ; -> }T T{ CQ1 COUNT EVALUATE -> 123 }T T{ : CQ2 C" " ; -> }T T{ CQ2 COUNT EVALUATE -> }T T{ : CQ3 C" 2345"COUNT EVALUATE ; CQ3 -> 2345 }T \ ----------------------------------------------------------------------------- TESTING COMPILE, :NONAME DUP + ; CONSTANT DUP+ T{ : Q DUP+ COMPILE, ; -> }T T{ : AS1 [ Q ] ; -> }T T{ 123 AS1 -> 246 }T \ ----------------------------------------------------------------------------- \ Cannot automatically test SAVE-INPUT and RESTORE-INPUT from a console source TESTING SAVE-INPUT and RESTORE-INPUT with a string source VARIABLE SI_INC 0 SI_INC ! : SI1 SI_INC @ >IN +! 15 SI_INC ! ; : S$ S" SAVE-INPUT SI1 RESTORE-INPUT 12345" ; T{ S$ EVALUATE SI_INC @ -> 0 2345 15 }T \ ----------------------------------------------------------------------------- TESTING .( CR CR .( Output from .() T{ CR .( You should see -9876: ) -9876 . -> }T T{ CR .( and again: ).( -9876)CR -> }T CR CR .( On the next 2 lines you should see First then Second messages:) T{ : DOTP CR ." Second message via ." [CHAR] " EMIT \ Check .( is immediate [ CR ] .( First message via .( ) ; DOTP -> }T CR CR T{ : IMM? BL WORD FIND NIP ; IMM? .( -> 1 }T \ ----------------------------------------------------------------------------- TESTING .R and U.R - has to handle different cell sizes \ Create some large integers just below/above MAX and Min INTs MAX-INT 73 79 */ CONSTANT LI1 MIN-INT 71 73 */ CONSTANT LI2 LI1 0 <# #S #> NIP CONSTANT LENLI1 : (.R&U.R) ( u1 u2 -- ) \ u1 <= string length, u2 is required indentation TUCK + >R LI1 OVER SPACES . CR R@ LI1 SWAP .R CR LI2 OVER SPACES . CR R@ 1+ LI2 SWAP .R CR LI1 OVER SPACES U. CR R@ LI1 SWAP U.R CR LI2 SWAP SPACES U. CR R> LI2 SWAP U.R CR ; : .R&U.R ( -- ) CR ." You should see lines duplicated:" CR ." indented by 0 spaces" CR 0 0 (.R&U.R) CR ." indented by 0 spaces" CR LENLI1 0 (.R&U.R) CR \ Just fits required width ." indented by 5 spaces" CR LENLI1 5 (.R&U.R) CR ; CR CR .( Output from .R and U.R) T{ .R&U.R -> }T \ ----------------------------------------------------------------------------- TESTING PAD ERASE \ Must handle different size characters i.e. 1 CHARS >= 1 84 CONSTANT CHARS/PAD \ Minimum size of PAD in chars CHARS/PAD CHARS CONSTANT AUS/PAD : CHECKPAD ( caddr u ch -- f ) \ f = TRUE if u chars = ch SWAP 0 ?DO OVER I CHARS + C@ OVER <> IF 2DROP UNLOOP FALSE EXIT THEN LOOP 2DROP TRUE ; T{ PAD DROP -> }T T{ 0 INVERT PAD C! -> }T T{ PAD C@ CONSTANT MAXCHAR -> }T T{ PAD CHARS/PAD 2DUP MAXCHAR FILL MAXCHAR CHECKPAD -> TRUE }T T{ PAD CHARS/PAD 2DUP CHARS ERASE 0 CHECKPAD -> TRUE }T T{ PAD CHARS/PAD 2DUP MAXCHAR FILL PAD 0 ERASE MAXCHAR CHECKPAD -> TRUE }T T{ PAD 43 CHARS + 9 CHARS ERASE -> }T T{ PAD 43 MAXCHAR CHECKPAD -> TRUE }T T{ PAD 43 CHARS + 9 0 CHECKPAD -> TRUE }T T{ PAD 52 CHARS + CHARS/PAD 52 - MAXCHAR CHECKPAD -> TRUE }T \ Check that use of WORD and pictured numeric output do not corrupt PAD \ Minimum size of buffers for these are 33 chars and (2*n)+2 chars respectively \ where n is number of bits per cell PAD CHARS/PAD ERASE 2 BASE ! MAX-UINT MAX-UINT <# #S CHAR 1 DUP HOLD HOLD #> 2DROP DECIMAL BL WORD 12345678123456781234567812345678 DROP T{ PAD CHARS/PAD 0 CHECKPAD -> TRUE }T \ ----------------------------------------------------------------------------- TESTING PARSE T{ CHAR | PARSE 1234| DUP ROT ROT EVALUATE -> 4 1234 }T T{ CHAR ^ PARSE 23 45 ^ DUP ROT ROT EVALUATE -> 7 23 45 }T : PA1 [CHAR] $ PARSE DUP >R PAD SWAP CHARS MOVE PAD R> ; T{ PA1 3456 DUP ROT ROT EVALUATE -> 4 3456 }T T{ CHAR A PARSE A SWAP DROP -> 0 }T T{ CHAR Z PARSE SWAP DROP -> 0 }T T{ CHAR " PARSE 4567 "DUP ROT ROT EVALUATE -> 5 4567 }T \ ----------------------------------------------------------------------------- TESTING PARSE-NAME (Forth 2012) \ Adapted from the PARSE-NAME RfD tests \ XXX this was missing from the test suite, added! : STR1 S" abcd" ; : STR2 S" abcde" ; T{ PARSE-NAME abcd STR1 S= -> TRUE }T \ No leading spaces T{ PARSE-NAME abcde STR2 S= -> TRUE }T \ Leading spaces \ Test empty parse area, new lines are necessary T{ PARSE-NAME NIP -> 0 }T \ Empty parse area with spaces after PARSE-NAME T{ PARSE-NAME NIP -> 0 }T T{ : PARSE-NAME-TEST ( "name1" "name2" -- n ) PARSE-NAME PARSE-NAME S= ; -> }T T{ PARSE-NAME-TEST abcd abcd -> TRUE }T T{ PARSE-NAME-TEST abcd abcd -> TRUE }T \ Leading spaces T{ PARSE-NAME-TEST abcde abcdf -> FALSE }T T{ PARSE-NAME-TEST abcdf abcde -> FALSE }T T{ PARSE-NAME-TEST abcde abcde -> TRUE }T \ Parse to end of line T{ PARSE-NAME-TEST abcde abcde -> TRUE }T \ Leading and trailing spaces \ ----------------------------------------------------------------------------- TESTING DEFER DEFER@ DEFER! IS ACTION-OF (Forth 2012) \ Adapted from the Forth 200X RfD tests T{ DEFER DEFER1 -> }T T{ : MY-DEFER DEFER ; -> }T T{ : IS-DEFER1 IS DEFER1 ; -> }T T{ : ACTION-DEFER1 ACTION-OF DEFER1 ; -> }T T{ : DEF! DEFER! ; -> }T T{ : DEF@ DEFER@ ; -> }T T{ ' * ' DEFER1 DEFER! -> }T T{ 2 3 DEFER1 -> 6 }T T{ ' DEFER1 DEFER@ -> ' * }T T{ ' DEFER1 DEF@ -> ' * }T T{ ACTION-OF DEFER1 -> ' * }T T{ ACTION-DEFER1 -> ' * }T T{ ' + IS DEFER1 -> }T T{ 1 2 DEFER1 -> 3 }T T{ ' DEFER1 DEFER@ -> ' + }T T{ ' DEFER1 DEF@ -> ' + }T T{ ACTION-OF DEFER1 -> ' + }T T{ ACTION-DEFER1 -> ' + }T T{ ' - IS-DEFER1 -> }T T{ 1 2 DEFER1 -> -1 }T T{ ' DEFER1 DEFER@ -> ' - }T T{ ' DEFER1 DEF@ -> ' - }T T{ ACTION-OF DEFER1 -> ' - }T T{ ACTION-DEFER1 -> ' - }T T{ MY-DEFER DEFER2 -> }T T{ ' DUP IS DEFER2 -> }T T{ 1 DEFER2 -> 1 1 }T \ ----------------------------------------------------------------------------- TESTING HOLDS (Forth 2012) : HTEST S" Testing HOLDS" ; : HTEST2 S" works" ; : HTEST3 S" Testing HOLDS works 123" ; T{ 0 0 <# HTEST HOLDS #> HTEST S= -> TRUE }T T{ 123 0 <# #S BL HOLD HTEST2 HOLDS BL HOLD HTEST HOLDS #> HTEST3 S= -> TRUE }T T{ : HLD HOLDS ; -> }T T{ 0 0 <# HTEST HLD #> HTEST S= -> TRUE }T \ ----------------------------------------------------------------------------- TESTING REFILL SOURCE-ID \ REFILL and SOURCE-ID from the user input device can't be tested from a file, \ can only be tested from a string via EVALUATE T{ : RF1 S" REFILL" EVALUATE ; RF1 -> FALSE }T T{ : SID1 S" SOURCE-ID" EVALUATE ; SID1 -> -1 }T \ ------------------------------------------------------------------------------ TESTING S\" (Forth 2012 compilation mode) \ Extended the Forth 200X RfD tests \ Note this tests the Core Ext definition of S\" which has unedfined \ interpretation semantics. S\" in interpretation mode is tested in the tests on \ the File-Access word set T{ : SSQ1 S\" abc" S" abc" S= ; -> }T \ No escapes T{ SSQ1 -> TRUE }T T{ : SSQ2 S\" " ; SSQ2 SWAP DROP -> 0 }T \ Empty string T{ : SSQ3 S\" \a\b\e\f\l\m\q\r\t\v\x0F0\x1Fa\xaBx\z\"\\" ; -> }T T{ SSQ3 SWAP DROP -> 20 }T \ String length T{ SSQ3 DROP C@ -> 7 }T \ \a BEL Bell T{ SSQ3 DROP 1 CHARS + C@ -> 8 }T \ \b BS Backspace T{ SSQ3 DROP 2 CHARS + C@ -> 27 }T \ \e ESC Escape T{ SSQ3 DROP 3 CHARS + C@ -> 12 }T \ \f FF Form feed T{ SSQ3 DROP 4 CHARS + C@ -> 10 }T \ \l LF Line feed T{ SSQ3 DROP 5 CHARS + C@ -> 13 }T \ \m CR of CR/LF pair T{ SSQ3 DROP 6 CHARS + C@ -> 10 }T \ LF of CR/LF pair T{ SSQ3 DROP 7 CHARS + C@ -> 34 }T \ \q " Double Quote T{ SSQ3 DROP 8 CHARS + C@ -> 13 }T \ \r CR Carriage Return T{ SSQ3 DROP 9 CHARS + C@ -> 9 }T \ \t TAB Horizontal Tab T{ SSQ3 DROP 10 CHARS + C@ -> 11 }T \ \v VT Vertical Tab T{ SSQ3 DROP 11 CHARS + C@ -> 15 }T \ \x0F Given Char T{ SSQ3 DROP 12 CHARS + C@ -> 48 }T \ 0 0 Digit follow on T{ SSQ3 DROP 13 CHARS + C@ -> 31 }T \ \x1F Given Char T{ SSQ3 DROP 14 CHARS + C@ -> 97 }T \ a a Hex follow on T{ SSQ3 DROP 15 CHARS + C@ -> 171 }T \ \xaB Insensitive Given Char T{ SSQ3 DROP 16 CHARS + C@ -> 120 }T \ x x Non hex follow on T{ SSQ3 DROP 17 CHARS + C@ -> 0 }T \ \z NUL No Character T{ SSQ3 DROP 18 CHARS + C@ -> 34 }T \ \" " Double Quote T{ SSQ3 DROP 19 CHARS + C@ -> 92 }T \ \\ \ Back Slash \ The above does not test \n as this is a system dependent value. \ Check it displays a new line CR .( The next test should display:) CR .( One line...) CR .( another line) T{ : SSQ4 S\" \nOne line...\nanother line\n" TYPE ; SSQ4 -> }T \ Test bare escapable characters appear as themselves T{ : SSQ5 S\" abeflmnqrtvxz" S" abeflmnqrtvxz" S= ; SSQ5 -> TRUE }T T{ : SSQ6 S\" a\""2DROP 1111 ; SSQ6 -> 1111 }T \ Parsing behaviour T{ : SSQ7 S\" 111 : SSQ8 S\\\" 222\" EVALUATE ; SSQ8 333" EVALUATE ; -> }T T{ SSQ7 -> 111 222 333 }T T{ : SSQ9 S\" 11 : SSQ10 S\\\" \\x32\\x32\" EVALUATE ; SSQ10 33" EVALUATE ; -> }T T{ SSQ9 -> 11 22 33 }T \ ----------------------------------------------------------------------------- CORE-EXT-ERRORS SET-ERROR-COUNT CR .( End of Core Extension word tests) CR