VolksForth/8086/msdos/tests/coreplus.fth

\ Additional tests on the the ANS Forth Core word set

\ This program was written by Gerry Jackson in 2007, 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

\ ------------------------------------------------------------------------------
\ The tests are based on John Hayes test program for the core word set
\
\ This file provides some more tests on Core words where the original Hayes
\ tests are thought to be incomplete
\
\ Words tested in this file are:
\     DO I +LOOP RECURSE ELSE >IN IMMEDIATE FIND IF...BEGIN...REPEAT ALLOT DOES>
\ and
\     Parsing behaviour
\     Number prefixes # $ % and 'A' character input
\     Definition names
\ ------------------------------------------------------------------------------
\ Assumptions and dependencies:
\     - tester.fr or ttester.fs has been loaded prior to this file
\     - core.fr has been loaded so that constants <TRUE> MAX-INT, MIN-INT and
\       MAX-UINT are defined
\ ------------------------------------------------------------------------------

DECIMAL

TESTING DO +LOOP with run-time increment, negative increment, infinite loop
\ Contributed by Reinhold Straub

VARIABLE ITERATIONS
VARIABLE INCREMENT
: GD7 ( LIMIT START INCREMENT -- )
   INCREMENT !
   0 ITERATIONS !
   DO
      1 ITERATIONS +!
      I
      ITERATIONS @  6 = IF LEAVE THEN
      INCREMENT @
   +LOOP ITERATIONS @
;

T{  4  4 -1 GD7 -> 4 1 }T
T{  1  4 -1 GD7 -> 4 3 2 1 4 }T
T{  4  1 -1 GD7 -> 1 0 -1 -2 -3 -4 6 }T
T{  4  1  0 GD7 -> 1 1 1 1 1 1 6 }T
T{  0  0  0 GD7 -> 0 0 0 0 0 0 6 }T
T{  1  4  0 GD7 -> 4 4 4 4 4 4 6 }T
T{  1  4  1 GD7 -> 4 5 6 7 8 9 6 }T
T{  4  1  1 GD7 -> 1 2 3 3 }T
T{  4  4  1 GD7 -> 4 5 6 7 8 9 6 }T
T{  2 -1 -1 GD7 -> -1 -2 -3 -4 -5 -6 6 }T
T{ -1  2 -1 GD7 -> 2 1 0 -1 4 }T
T{  2 -1  0 GD7 -> -1 -1 -1 -1 -1 -1 6 }T
T{ -1  2  0 GD7 -> 2 2 2 2 2 2 6 }T
T{ -1  2  1 GD7 -> 2 3 4 5 6 7 6 }T
T{  2 -1  1 GD7 -> -1 0 1 3 }T
T{ -20 30 -10 GD7 -> 30 20 10 0 -10 -20 6 }T
T{ -20 31 -10 GD7 -> 31 21 11 1 -9 -19 6 }T
T{ -20 29 -10 GD7 -> 29 19 9 -1 -11 5 }T

\ ------------------------------------------------------------------------------
TESTING DO +LOOP with large and small increments

\ Contributed by Andrew Haley

MAX-UINT 8 RSHIFT 1+ CONSTANT USTEP
USTEP NEGATE CONSTANT -USTEP
MAX-INT 7 RSHIFT 1+ CONSTANT STEP
STEP NEGATE CONSTANT -STEP

VARIABLE BUMP

T{ : GD8 BUMP ! DO 1+ BUMP @ +LOOP ; -> }T

T{ 0 MAX-UINT 0 USTEP GD8 -> 256 }T
T{ 0 0 MAX-UINT -USTEP GD8 -> 256 }T

T{ 0 MAX-INT MIN-INT STEP GD8 -> 256 }T
T{ 0 MIN-INT MAX-INT -STEP GD8 -> 256 }T

\ Two's complement arithmetic, wraps around modulo wordsize
\ Only tested if the Forth system does wrap around, use of conditional
\ compilation deliberately avoided

MAX-INT 1+ MIN-INT = CONSTANT +WRAP?
MIN-INT 1- MAX-INT = CONSTANT -WRAP?
MAX-UINT 1+ 0=       CONSTANT +UWRAP?
0 1- MAX-UINT =      CONSTANT -UWRAP?

: GD9  ( n limit start step f result -- )
   >R IF GD8 ELSE 2DROP 2DROP R@ THEN -> R> }T
;

T{ 0 0 0  USTEP +UWRAP? 256 GD9
T{ 0 0 0 -USTEP -UWRAP?   1 GD9
T{ 0 MIN-INT MAX-INT  STEP +WRAP? 1 GD9
T{ 0 MAX-INT MIN-INT -STEP -WRAP? 1 GD9

\ ------------------------------------------------------------------------------
TESTING DO +LOOP with maximum and minimum increments

: (-MI) MAX-INT DUP NEGATE + 0= IF MAX-INT NEGATE ELSE -32767 THEN ;
(-MI) CONSTANT -MAX-INT

T{ 0 1 0 MAX-INT GD8  -> 1 }T
T{ 0 -MAX-INT NEGATE -MAX-INT OVER GD8  -> 2 }T

T{ 0 MAX-INT  0 MAX-INT GD8  -> 1 }T
T{ 0 MAX-INT  1 MAX-INT GD8  -> 1 }T
T{ 0 MAX-INT -1 MAX-INT GD8  -> 2 }T
T{ 0 MAX-INT DUP 1- MAX-INT GD8  -> 1 }T

T{ 0 MIN-INT 1+   0 MIN-INT GD8  -> 1 }T
T{ 0 MIN-INT 1+  -1 MIN-INT GD8  -> 1 }T
T{ 0 MIN-INT 1+   1 MIN-INT GD8  -> 2 }T
T{ 0 MIN-INT 1+ DUP MIN-INT GD8  -> 1 }T

\ ------------------------------------------------------------------------------
\ TESTING +LOOP setting I to an arbitrary value

\ The specification for +LOOP permits the loop index I to be set to any value
\ including a value outside the range given to the corresponding  DO.

\ SET-I is a helper to set I in a DO ... +LOOP to a given value
\ n2 is the value of I in a DO ... +LOOP
\ n3 is a test value
\ If n2=n3 then return n1-n2 else return 1
: SET-I  ( n1 n2 n3 -- n1-n2 | 1 )
   OVER = IF - ELSE 2DROP 1 THEN
;

: -SET-I ( n1 n2 n3 -- n1-n2 | -1 )
   SET-I DUP 1 = IF NEGATE THEN
;

: PL1 20 1 DO I 18 I 3 SET-I +LOOP ;
T{ PL1 -> 1 2 3 18 19 }T
: PL2 20 1 DO I 20 I 2 SET-I +LOOP ;
T{ PL2 -> 1 2 }T
: PL3 20 5 DO I 19 I 2 SET-I DUP 1 = IF DROP 0 I 6 SET-I THEN +LOOP ;
T{ PL3 -> 5 6 0 1 2 19 }T
: PL4 20 1 DO I MAX-INT I 4 SET-I +LOOP ;
T{ PL4 -> 1 2 3 4 }T
: PL5 -20 -1 DO I -19 I -3 -SET-I +LOOP ;
T{ PL5 -> -1 -2 -3 -19 -20 }T
: PL6 -20 -1 DO I -21 I -4 -SET-I +LOOP ;
T{ PL6 -> -1 -2 -3 -4 }T
: PL7 -20 -1 DO I MIN-INT I -5 -SET-I +LOOP ;
T{ PL7 -> -1 -2 -3 -4 -5 }T
: PL8 -20 -5 DO I -20 I -2 -SET-I DUP -1 = IF DROP 0 I -6 -SET-I THEN +LOOP ;
T{ PL8 -> -5 -6 0 -1 -2 -20 }T

\ ------------------------------------------------------------------------------
TESTING multiple RECURSEs in one colon definition

: ACK ( m n -- u )    \ Ackermann function, from Rosetta Code
   OVER 0= IF  NIP 1+ EXIT  THEN       \ ack(0, n) = n+1
   SWAP 1- SWAP                        ( -- m-1 n )
   DUP  0= IF  1+  RECURSE EXIT  THEN  \ ack(m, 0) = ack(m-1, 1)
   1- OVER 1+ SWAP RECURSE RECURSE     \ ack(m, n) = ack(m-1, ack(m,n-1))
;

T{ 0 0 ACK ->  1 }T
T{ 3 0 ACK ->  5 }T
T{ 2 4 ACK -> 11 }T

\ ------------------------------------------------------------------------------
\vf TESTING multiple ELSE's in an IF statement
\ Discussed on comp.lang.forth and accepted as valid ANS Forth

\vf : MELSE IF 1 ELSE 2 ELSE 3 ELSE 4 ELSE 5 THEN ;
\vf T{ 0 MELSE -> 2 4 }T
\vf T{ -1 MELSE -> 1 3 5 }T

\ ------------------------------------------------------------------------------
TESTING manipulation of >IN in interpreter mode

T{ 12345 DEPTH OVER 9 < 34 AND + 3 + >IN ! -> 12345 2345 345 45 5 }T
T{ 14145 8115 ?DUP 0= 34 AND >IN +! TUCK MOD 14 >IN ! GCD CALCULATION -> 15 }T

\ ------------------------------------------------------------------------------
TESTING IMMEDIATE with CONSTANT  VARIABLE and CREATE [ ... DOES> ]

T{ 123 CONSTANT IW1 IMMEDIATE IW1 -> 123 }T
T{ : IW2 IW1 LITERAL ; IW2 -> 123 }T
T{ VARIABLE IW3 IMMEDIATE 234 IW3 ! IW3 @ -> 234 }T
T{ : IW4 IW3 [ @ ] LITERAL ; IW4 -> 234 }T
T{ :NONAME [ 345 ] IW3 [ ! ] ; DROP IW3 @ -> 345 }T
T{ CREATE IW5 456 , IMMEDIATE -> }T
T{ :NONAME IW5 [ @ IW3 ! ] ; DROP IW3 @ -> 456 }T
T{ : IW6 CREATE , IMMEDIATE DOES> @ 1+ ; -> }T
T{ 111 IW6 IW7 IW7 -> 112 }T
T{ : IW8 IW7 LITERAL 1+ ; IW8 -> 113 }T
T{ : IW9 CREATE , DOES> @ 2 + IMMEDIATE ; -> }T
: FIND-IW BL WORD FIND NIP ;  ( -- 0 | 1 | -1 )
T{ 222 IW9 IW10 FIND-IW IW10 -> -1 }T   \ IW10 is not immediate
T{ IW10 FIND-IW IW10 -> 224 1 }T        \ IW10 becomes immediate

\ ------------------------------------------------------------------------------
TESTING that IMMEDIATE doesn't toggle a flag

VARIABLE IT1 0 IT1 !
: IT2 1234 IT1 ! ; IMMEDIATE IMMEDIATE
T{ : IT3 IT2 ; IT1 @ -> 1234 }T

\ ------------------------------------------------------------------------------
TESTING parsing behaviour of S" ." and (
\ which should parse to just beyond the terminating character no space needed

T{ : GC5 S" A string"2DROP ; GC5 -> }T
T{ ( A comment)1234 -> 1234 }T
T{ : PB1 CR ." You should see 2345: "." 2345"( A comment) CR ; PB1 -> }T

\ ------------------------------------------------------------------------------
TESTING number prefixes # $ % and 'c' character input
\ Adapted from the Forth 200X Draft 14.5 document

VARIABLE OLD-BASE
DECIMAL BASE @ OLD-BASE !
T{ &1289 -> 1289 }T  \ vf: s/#/&/
T{ -&1289 -> -1289 }T  \ vf: s/#-/-&/
T{ $12eF -> 4847 }T
T{ -$12eF -> -4847 }T  \ vf: s/$-/-$/
T{ %10010110 -> 150 }T
T{ -%10010110 -> -150 }T  \ vf: s/%-/-%/
\vf T{ 'z' -> 122 }T
\vf T{ 'Z' -> 90 }T
\ Check BASE is unchanged
T{ BASE @ OLD-BASE @ = -> <TRUE> }T

\ Repeat in Hex mode
16 OLD-BASE ! 16 BASE !
T{ &1289 -> 509 }T  \ vf: s/#/&/
T{ -&1289 -> -509 }T  \ vf: s/#/&/
T{ $12eF -> 12EF }T
T{ -$12eF -> -12EF }T  \ vf: s/$-/-$/
T{ %10010110 -> 96 }T
T{ -%10010110 -> -96 }T  \ vf: s/%-/-%/
\vf T{ 'z' -> 7a }T
\vf T{ 'Z' -> 5a }T
\ Check BASE is unchanged
T{ BASE @ OLD-BASE @ = -> <TRUE> }T   \ 2

DECIMAL
\ Check number prefixes in compile mode
\ vf: s/#/&/ s/$-/-$/ s/'''/ascii '/
T{ : nmp  &8327 -$2cbe %011010111 ascii ' ; nmp -> 8327 -11454 215 39 }T

\ ------------------------------------------------------------------------------
TESTING definition names
\ should support {1..31} graphical characters
: !"#$%&'()*+,-./0123456789:;<=>? 1 ;
T{ !"#$%&'()*+,-./0123456789:;<=>? -> 1 }T
: @ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^ 2 ;
T{ @ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^ -> 2 }T
: _`abcdefghijklmnopqrstuvwxyz{|} 3 ;
T{ _`abcdefghijklmnopqrstuvwxyz{|} -> 3 }T
: _`abcdefghijklmnopqrstuvwxyz{|~ 4 ;     \ Last character different
T{ _`abcdefghijklmnopqrstuvwxyz{|~ -> 4 }T
T{ _`abcdefghijklmnopqrstuvwxyz{|} -> 3 }T

\ ------------------------------------------------------------------------------
TESTING FIND with a zero length string and a non-existent word

CREATE EMPTYSTRING 0 C,
: EMPTYSTRING-FIND-CHECK ( c-addr 0 | xt 1 | xt -1 -- t|f )
    DUP IF ." FIND returns a TRUE value for an empty string!" CR THEN
    0= SWAP EMPTYSTRING = = ;
T{ EMPTYSTRING FIND EMPTYSTRING-FIND-CHECK -> <TRUE> }T

CREATE NON-EXISTENT-WORD   \ Same as in exceptiontest.fth
       15 C, CHAR $ C, CHAR $ C, CHAR Q C, CHAR W C, CHAR E C, CHAR Q C,
   CHAR W C, CHAR E C, CHAR Q C, CHAR W C, CHAR E C, CHAR R C, CHAR T C,
   CHAR $ C, CHAR $ C,
T{ NON-EXISTENT-WORD FIND -> NON-EXISTENT-WORD 0 }T

\ ------------------------------------------------------------------------------
\vf TESTING IF ... BEGIN ... REPEAT (unstructured)

\vf T{ : UNS1 DUP 0 > IF 9 SWAP BEGIN 1+ DUP 3 > IF EXIT THEN REPEAT ; -> }T
\vf T{ -6 UNS1 -> -6 }T
\vf T{  1 UNS1 -> 9 4 }T

\ ------------------------------------------------------------------------------
TESTING DOES> doesn't cause a problem with a CREATEd address

: MAKE-2CONST DOES> 2@ ;
T{ CREATE 2K 3 , 2K , MAKE-2CONST 2K -> ' 2K >BODY 3 }T

\ ------------------------------------------------------------------------------
TESTING ALLOT ( n -- ) where n <= 0

T{ HERE 5 ALLOT -5 ALLOT HERE = -> <TRUE> }T
T{ HERE 0 ALLOT HERE = -> <TRUE> }T

\ ------------------------------------------------------------------------------

CR .( End of additional Core tests) CR
Copying over the Hayes tester tests from C64 to msdos VolksForth. Names are adapted to DOS 8.3 file names, PETSCII adaptions of core.fth are reverted (DOS uses ASCII), the input test is disabled, since no way was yet found to inject keystrokes into dosbox. And some tweaks were applied to ans-shim.fth and the golden files to make the first tests (preliminary & core) to pass. 2022-01-16 20:16:48 +00:00			`\ Additional tests on the the ANS Forth Core word set`

			`\ This program was written by Gerry Jackson in 2007, 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`

			`\ ------------------------------------------------------------------------------`
			`\ The tests are based on John Hayes test program for the core word set`
			`\`
			`\ This file provides some more tests on Core words where the original Hayes`
			`\ tests are thought to be incomplete`
			`\`
			`\ Words tested in this file are:`
			`\ DO I +LOOP RECURSE ELSE >IN IMMEDIATE FIND IF...BEGIN...REPEAT ALLOT DOES>`
			`\ and`
			`\ Parsing behaviour`
			`\ Number prefixes # $ % and 'A' character input`
			`\ Definition names`
			`\ ------------------------------------------------------------------------------`
			`\ Assumptions and dependencies:`
			`\ - tester.fr or ttester.fs has been loaded prior to this file`
			`\ - core.fr has been loaded so that constants <TRUE> MAX-INT, MIN-INT and`
			`\ MAX-UINT are defined`
			`\ ------------------------------------------------------------------------------`

			`DECIMAL`

			`TESTING DO +LOOP with run-time increment, negative increment, infinite loop`
			`\ Contributed by Reinhold Straub`

			`VARIABLE ITERATIONS`
			`VARIABLE INCREMENT`
			`: GD7 ( LIMIT START INCREMENT -- )`
			`INCREMENT !`
			`0 ITERATIONS !`
			`DO`
			`1 ITERATIONS +!`
			`I`
			`ITERATIONS @ 6 = IF LEAVE THEN`
			`INCREMENT @`
			`+LOOP ITERATIONS @`
			`;`

			`T{ 4 4 -1 GD7 -> 4 1 }T`
			`T{ 1 4 -1 GD7 -> 4 3 2 1 4 }T`
			`T{ 4 1 -1 GD7 -> 1 0 -1 -2 -3 -4 6 }T`
			`T{ 4 1 0 GD7 -> 1 1 1 1 1 1 6 }T`
			`T{ 0 0 0 GD7 -> 0 0 0 0 0 0 6 }T`
			`T{ 1 4 0 GD7 -> 4 4 4 4 4 4 6 }T`
			`T{ 1 4 1 GD7 -> 4 5 6 7 8 9 6 }T`
			`T{ 4 1 1 GD7 -> 1 2 3 3 }T`
			`T{ 4 4 1 GD7 -> 4 5 6 7 8 9 6 }T`
			`T{ 2 -1 -1 GD7 -> -1 -2 -3 -4 -5 -6 6 }T`
			`T{ -1 2 -1 GD7 -> 2 1 0 -1 4 }T`
			`T{ 2 -1 0 GD7 -> -1 -1 -1 -1 -1 -1 6 }T`
			`T{ -1 2 0 GD7 -> 2 2 2 2 2 2 6 }T`
			`T{ -1 2 1 GD7 -> 2 3 4 5 6 7 6 }T`
			`T{ 2 -1 1 GD7 -> -1 0 1 3 }T`
			`T{ -20 30 -10 GD7 -> 30 20 10 0 -10 -20 6 }T`
			`T{ -20 31 -10 GD7 -> 31 21 11 1 -9 -19 6 }T`
			`T{ -20 29 -10 GD7 -> 29 19 9 -1 -11 5 }T`

			`\ ------------------------------------------------------------------------------`
			`TESTING DO +LOOP with large and small increments`

			`\ Contributed by Andrew Haley`

			`MAX-UINT 8 RSHIFT 1+ CONSTANT USTEP`
			`USTEP NEGATE CONSTANT -USTEP`
			`MAX-INT 7 RSHIFT 1+ CONSTANT STEP`
			`STEP NEGATE CONSTANT -STEP`

			`VARIABLE BUMP`

			`T{ : GD8 BUMP ! DO 1+ BUMP @ +LOOP ; -> }T`

			`T{ 0 MAX-UINT 0 USTEP GD8 -> 256 }T`
			`T{ 0 0 MAX-UINT -USTEP GD8 -> 256 }T`

			`T{ 0 MAX-INT MIN-INT STEP GD8 -> 256 }T`
			`T{ 0 MIN-INT MAX-INT -STEP GD8 -> 256 }T`

			`\ Two's complement arithmetic, wraps around modulo wordsize`
			`\ Only tested if the Forth system does wrap around, use of conditional`
			`\ compilation deliberately avoided`

			`MAX-INT 1+ MIN-INT = CONSTANT +WRAP?`
			`MIN-INT 1- MAX-INT = CONSTANT -WRAP?`
			`MAX-UINT 1+ 0= CONSTANT +UWRAP?`
			`0 1- MAX-UINT = CONSTANT -UWRAP?`

			`: GD9 ( n limit start step f result -- )`
			`>R IF GD8 ELSE 2DROP 2DROP R@ THEN -> R> }T`
			`;`

			`T{ 0 0 0 USTEP +UWRAP? 256 GD9`
			`T{ 0 0 0 -USTEP -UWRAP? 1 GD9`
			`T{ 0 MIN-INT MAX-INT STEP +WRAP? 1 GD9`
			`T{ 0 MAX-INT MIN-INT -STEP -WRAP? 1 GD9`

			`\ ------------------------------------------------------------------------------`
			`TESTING DO +LOOP with maximum and minimum increments`

			`: (-MI) MAX-INT DUP NEGATE + 0= IF MAX-INT NEGATE ELSE -32767 THEN ;`
			`(-MI) CONSTANT -MAX-INT`

			`T{ 0 1 0 MAX-INT GD8 -> 1 }T`
			`T{ 0 -MAX-INT NEGATE -MAX-INT OVER GD8 -> 2 }T`

			`T{ 0 MAX-INT 0 MAX-INT GD8 -> 1 }T`
			`T{ 0 MAX-INT 1 MAX-INT GD8 -> 1 }T`
			`T{ 0 MAX-INT -1 MAX-INT GD8 -> 2 }T`
			`T{ 0 MAX-INT DUP 1- MAX-INT GD8 -> 1 }T`

			`T{ 0 MIN-INT 1+ 0 MIN-INT GD8 -> 1 }T`
			`T{ 0 MIN-INT 1+ -1 MIN-INT GD8 -> 1 }T`
			`T{ 0 MIN-INT 1+ 1 MIN-INT GD8 -> 2 }T`
			`T{ 0 MIN-INT 1+ DUP MIN-INT GD8 -> 1 }T`

			`\ ------------------------------------------------------------------------------`
			`\ TESTING +LOOP setting I to an arbitrary value`

			`\ The specification for +LOOP permits the loop index I to be set to any value`
			`\ including a value outside the range given to the corresponding DO.`

			`\ SET-I is a helper to set I in a DO ... +LOOP to a given value`
			`\ n2 is the value of I in a DO ... +LOOP`
			`\ n3 is a test value`
			`\ If n2=n3 then return n1-n2 else return 1`
			`: SET-I ( n1 n2 n3 -- n1-n2 \| 1 )`
			`OVER = IF - ELSE 2DROP 1 THEN`
			`;`

			`: -SET-I ( n1 n2 n3 -- n1-n2 \| -1 )`
			`SET-I DUP 1 = IF NEGATE THEN`
			`;`

			`: PL1 20 1 DO I 18 I 3 SET-I +LOOP ;`
			`T{ PL1 -> 1 2 3 18 19 }T`
			`: PL2 20 1 DO I 20 I 2 SET-I +LOOP ;`
			`T{ PL2 -> 1 2 }T`
			`: PL3 20 5 DO I 19 I 2 SET-I DUP 1 = IF DROP 0 I 6 SET-I THEN +LOOP ;`
			`T{ PL3 -> 5 6 0 1 2 19 }T`
			`: PL4 20 1 DO I MAX-INT I 4 SET-I +LOOP ;`
			`T{ PL4 -> 1 2 3 4 }T`
			`: PL5 -20 -1 DO I -19 I -3 -SET-I +LOOP ;`
			`T{ PL5 -> -1 -2 -3 -19 -20 }T`
			`: PL6 -20 -1 DO I -21 I -4 -SET-I +LOOP ;`
			`T{ PL6 -> -1 -2 -3 -4 }T`
			`: PL7 -20 -1 DO I MIN-INT I -5 -SET-I +LOOP ;`
			`T{ PL7 -> -1 -2 -3 -4 -5 }T`
			`: PL8 -20 -5 DO I -20 I -2 -SET-I DUP -1 = IF DROP 0 I -6 -SET-I THEN +LOOP ;`
			`T{ PL8 -> -5 -6 0 -1 -2 -20 }T`

			`\ ------------------------------------------------------------------------------`
			`TESTING multiple RECURSEs in one colon definition`

			`: ACK ( m n -- u ) \ Ackermann function, from Rosetta Code`
			`OVER 0= IF NIP 1+ EXIT THEN \ ack(0, n) = n+1`
			`SWAP 1- SWAP ( -- m-1 n )`
			`DUP 0= IF 1+ RECURSE EXIT THEN \ ack(m, 0) = ack(m-1, 1)`
			`1- OVER 1+ SWAP RECURSE RECURSE \ ack(m, n) = ack(m-1, ack(m,n-1))`
			`;`

			`T{ 0 0 ACK -> 1 }T`
			`T{ 3 0 ACK -> 5 }T`
			`T{ 2 4 ACK -> 11 }T`

			`\ ------------------------------------------------------------------------------`
			`\vf TESTING multiple ELSE's in an IF statement`
			`\ Discussed on comp.lang.forth and accepted as valid ANS Forth`

			`\vf : MELSE IF 1 ELSE 2 ELSE 3 ELSE 4 ELSE 5 THEN ;`
			`\vf T{ 0 MELSE -> 2 4 }T`
			`\vf T{ -1 MELSE -> 1 3 5 }T`

			`\ ------------------------------------------------------------------------------`
			`TESTING manipulation of >IN in interpreter mode`

			`T{ 12345 DEPTH OVER 9 < 34 AND + 3 + >IN ! -> 12345 2345 345 45 5 }T`
			`T{ 14145 8115 ?DUP 0= 34 AND >IN +! TUCK MOD 14 >IN ! GCD CALCULATION -> 15 }T`

			`\ ------------------------------------------------------------------------------`
			`TESTING IMMEDIATE with CONSTANT VARIABLE and CREATE [ ... DOES> ]`

			`T{ 123 CONSTANT IW1 IMMEDIATE IW1 -> 123 }T`
			`T{ : IW2 IW1 LITERAL ; IW2 -> 123 }T`
			`T{ VARIABLE IW3 IMMEDIATE 234 IW3 ! IW3 @ -> 234 }T`
			`T{ : IW4 IW3 [ @ ] LITERAL ; IW4 -> 234 }T`
			`T{ :NONAME [ 345 ] IW3 [ ! ] ; DROP IW3 @ -> 345 }T`
			`T{ CREATE IW5 456 , IMMEDIATE -> }T`
			`T{ :NONAME IW5 [ @ IW3 ! ] ; DROP IW3 @ -> 456 }T`
			`T{ : IW6 CREATE , IMMEDIATE DOES> @ 1+ ; -> }T`
			`T{ 111 IW6 IW7 IW7 -> 112 }T`
			`T{ : IW8 IW7 LITERAL 1+ ; IW8 -> 113 }T`
			`T{ : IW9 CREATE , DOES> @ 2 + IMMEDIATE ; -> }T`
			`: FIND-IW BL WORD FIND NIP ; ( -- 0 \| 1 \| -1 )`
			`T{ 222 IW9 IW10 FIND-IW IW10 -> -1 }T \ IW10 is not immediate`
			`T{ IW10 FIND-IW IW10 -> 224 1 }T \ IW10 becomes immediate`

			`\ ------------------------------------------------------------------------------`
			`TESTING that IMMEDIATE doesn't toggle a flag`

			`VARIABLE IT1 0 IT1 !`
			`: IT2 1234 IT1 ! ; IMMEDIATE IMMEDIATE`
			`T{ : IT3 IT2 ; IT1 @ -> 1234 }T`

			`\ ------------------------------------------------------------------------------`
			`TESTING parsing behaviour of S" ." and (`
			`\ which should parse to just beyond the terminating character no space needed`

			`T{ : GC5 S" A string"2DROP ; GC5 -> }T`
			`T{ ( A comment)1234 -> 1234 }T`
			`T{ : PB1 CR ." You should see 2345: "." 2345"( A comment) CR ; PB1 -> }T`

			`\ ------------------------------------------------------------------------------`
			`TESTING number prefixes # $ % and 'c' character input`
			`\ Adapted from the Forth 200X Draft 14.5 document`

			`VARIABLE OLD-BASE`
			`DECIMAL BASE @ OLD-BASE !`
			`T{ &1289 -> 1289 }T \ vf: s/#/&/`
			`T{ -&1289 -> -1289 }T \ vf: s/#-/-&/`
			`T{ $12eF -> 4847 }T`
			`T{ -$12eF -> -4847 }T \ vf: s/$-/-$/`
			`T{ %10010110 -> 150 }T`
			`T{ -%10010110 -> -150 }T \ vf: s/%-/-%/`
			`\vf T{ 'z' -> 122 }T`
			`\vf T{ 'Z' -> 90 }T`
			`\ Check BASE is unchanged`
			`T{ BASE @ OLD-BASE @ = -> <TRUE> }T`

			`\ Repeat in Hex mode`
			`16 OLD-BASE ! 16 BASE !`
			`T{ &1289 -> 509 }T \ vf: s/#/&/`
			`T{ -&1289 -> -509 }T \ vf: s/#/&/`
			`T{ $12eF -> 12EF }T`
			`T{ -$12eF -> -12EF }T \ vf: s/$-/-$/`
			`T{ %10010110 -> 96 }T`
			`T{ -%10010110 -> -96 }T \ vf: s/%-/-%/`
			`\vf T{ 'z' -> 7a }T`
			`\vf T{ 'Z' -> 5a }T`
			`\ Check BASE is unchanged`
			`T{ BASE @ OLD-BASE @ = -> <TRUE> }T \ 2`

			`DECIMAL`
			`\ Check number prefixes in compile mode`
			`\ vf: s/#/&/ s/$-/-$/ s/'''/ascii '/`
			`T{ : nmp &8327 -$2cbe %011010111 ascii ' ; nmp -> 8327 -11454 215 39 }T`

			`\ ------------------------------------------------------------------------------`
			`TESTING definition names`
			`\ should support {1..31} graphical characters`
			`: !"#$%&'()*+,-./0123456789:;<=>? 1 ;`
			`T{ !"#$%&'()*+,-./0123456789:;<=>? -> 1 }T`
			`: @ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^ 2 ;`
			`T{ @ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^ -> 2 }T`
			: _`abcdefghijklmnopqrstuvwxyz{\|} 3 ;
			T{ _`abcdefghijklmnopqrstuvwxyz{\|} -> 3 }T
			: _`abcdefghijklmnopqrstuvwxyz{\|~ 4 ; \ Last character different
			T{ _`abcdefghijklmnopqrstuvwxyz{\|~ -> 4 }T
			T{ _`abcdefghijklmnopqrstuvwxyz{\|} -> 3 }T

			`\ ------------------------------------------------------------------------------`
			`TESTING FIND with a zero length string and a non-existent word`

			`CREATE EMPTYSTRING 0 C,`
			`: EMPTYSTRING-FIND-CHECK ( c-addr 0 \| xt 1 \| xt -1 -- t\|f )`
			`DUP IF ." FIND returns a TRUE value for an empty string!" CR THEN`
			`0= SWAP EMPTYSTRING = = ;`
			`T{ EMPTYSTRING FIND EMPTYSTRING-FIND-CHECK -> <TRUE> }T`

			`CREATE NON-EXISTENT-WORD \ Same as in exceptiontest.fth`
			`15 C, CHAR $ C, CHAR $ C, CHAR Q C, CHAR W C, CHAR E C, CHAR Q C,`
			`CHAR W C, CHAR E C, CHAR Q C, CHAR W C, CHAR E C, CHAR R C, CHAR T C,`
			`CHAR $ C, CHAR $ C,`
			`T{ NON-EXISTENT-WORD FIND -> NON-EXISTENT-WORD 0 }T`

			`\ ------------------------------------------------------------------------------`
			`\vf TESTING IF ... BEGIN ... REPEAT (unstructured)`

			`\vf T{ : UNS1 DUP 0 > IF 9 SWAP BEGIN 1+ DUP 3 > IF EXIT THEN REPEAT ; -> }T`
			`\vf T{ -6 UNS1 -> -6 }T`
			`\vf T{ 1 UNS1 -> 9 4 }T`

			`\ ------------------------------------------------------------------------------`
			`TESTING DOES> doesn't cause a problem with a CREATEd address`

			`: MAKE-2CONST DOES> 2@ ;`
			`T{ CREATE 2K 3 , 2K , MAKE-2CONST 2K -> ' 2K >BODY 3 }T`

			`\ ------------------------------------------------------------------------------`
			`TESTING ALLOT ( n -- ) where n <= 0`

			`T{ HERE 5 ALLOT -5 ALLOT HERE = -> <TRUE> }T`
			`T{ HERE 0 ALLOT HERE = -> <TRUE> }T`

			`\ ------------------------------------------------------------------------------`

			`CR .( End of additional Core tests) CR`