\ planckforth - \ Copyright (C) 2021 nineties \ test/tester.fs and test codes are base on \ https://github.com/gerryjackson/forth2012-test-suite testing Core Extension words decimal testing true false T{ true -> 1 }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) skip T{ : RR0 2>r 100 r> r> ; -> }T skip T{ 300 400 RR0 -> 100 400 300 }T skip T{ 200 300 400 RR0 -> 200 100 400 300 }T skip T{ : RR1 2>r 100 2r@ r> r> ; -> }T skip T{ 300 400 RR1 -> 100 300 400 400 300 }T skip T{ 200 300 400 RR1 -> 200 100 300 400 400 300 }T skip skip T{ : RR2 2>r 100 2r> ; -> }T skip T{ 300 400 RR2 -> 100 300 400 }T skip 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 skip T{ unused drop -> }T skip T{ align unused unused0 ! 0 , unused CELL+ unused0 @ = -> true }T skip T{ unused unused0 ! 0 C, unused char+ unused0 @ = -> true }T \ aligned -> unaligned skip 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? word throw find 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: skip T{ 8 buffer: BUF:test -> }T skip T{ BUF:test dup ALIGNED = -> true }T skip T{ 111 BUF:test ! 222 BUF:test CELL+ ! -> }T skip 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" skip T{ : CQ1 C" 123" ; -> }T skip T{ CQ1 count evaluate -> 123 }T skip T{ : CQ2 C" " ; -> }T skip T{ CQ2 count evaluate -> }T skip 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" ; skip 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 skip T{ : IMM? word throw 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) skip 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 ; skip T{ pad drop -> }T skip T{ 0 invert pad C! -> }T skip T{ pad c@ constant MAXCHAR -> }T skip T{ pad chars/pad 2DUP MAXCHAR FILL MAXCHAR checkpad -> true }T skip T{ pad chars/pad 2DUP chars erase 0 checkpad -> true }T skip T{ pad chars/pad 2DUP MAXCHAR FILL pad 0 erase MAXCHAR checkpad -> true }T skip T{ pad 43 chars + 9 chars erase -> }T skip T{ pad 43 MAXCHAR checkpad -> true }T skip T{ pad 43 chars + 9 0 checkpad -> true }T skip 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 skip T{ pad chars/pad 0 checkpad -> true }T \ ----------------------------------------------------------------------------- testing parse skip T{ char | parse 1234| dup rot rot evaluate -> 4 1234 }T skip T{ char ^ parse 23 45 ^ dup rot rot evaluate -> 7 23 45 }T \ : PA1 [char] $ parse dup >r pad swap chars MOVE pad r> ; skip T{ PA1 3456 skip dup rot rot evaluate -> 4 3456 }T skip T{ char A parse A swap drop -> 0 }T skip T{ char Z parse skip swap drop -> 0 }T skip T{ char " parse 4567 "dup rot rot evaluate -> 5 4567 }T \ ----------------------------------------------------------------------------- testing parse-name (Forth 2012) \ Adapted from the parse-name RfD tests skip T{ parse-name abcd STR1 S= -> true }T \ No leading spaces skip T{ parse-name abcde STR2 S= -> true }T \ Leading spaces \ Test empty parse area, new lines are necessary skip T{ parse-name skip nip -> 0 }T \ Empty parse area with spaces after parse-name skip T{ parse-name skip nip -> 0 }T skip T{ : parse-name-test ( "name1" "name2" -- n ) skip parse-name parse-name S= ; -> }T skip T{ parse-name-test abcd abcd -> true }T skip T{ parse-name-test abcd abcd -> true }T \ Leading spaces skip T{ parse-name-test abcde abcdf -> false }T skip T{ parse-name-test abcdf abcde -> false }T skip T{ parse-name-test abcde abcde skip -> true }T \ Parse to end of line skip T{ parse-name-test abcde abcde skip -> true }T \ Leading and trailing spaces \ ----------------------------------------------------------------------------- testing defer defer@ defer! is action-of (Forth 2012) \ Adapted from the Forth 200X RfD tests skip T{ defer defer1 -> }T skip T{ : MY-defer defer ; -> }T skip T{ : is-defer1 is defer1 ; -> }T skip T{ : action-defer1 action-of defer1 ; -> }T skip T{ : DEF! defer! ; -> }T skip T{ : DEF@ defer@ ; -> }T skip T{ ' * ' defer1 defer! -> }T skip T{ 2 3 defer1 -> 6 }T skip T{ ' defer1 defer@ -> ' * }T skip T{ ' defer1 DEF@ -> ' * }T skip T{ action-of defer1 -> ' * }T skip T{ action-defer1 -> ' * }T skip T{ ' + is defer1 -> }T skip T{ 1 2 defer1 -> 3 }T skip T{ ' defer1 defer@ -> ' + }T skip T{ ' defer1 DEF@ -> ' + }T skip T{ action-of defer1 -> ' + }T skip T{ action-defer1 -> ' + }T skip T{ ' - is-defer1 -> }T skip T{ 1 2 defer1 -> -1 }T skip T{ ' defer1 defer@ -> ' - }T skip T{ ' defer1 DEF@ -> ' - }T skip T{ action-of defer1 -> ' - }T skip T{ action-defer1 -> ' - }T skip T{ MY-defer defer2 -> }T skip T{ ' dup is defer2 -> }T skip T{ 1 defer2 -> 1 1 }T \ ----------------------------------------------------------------------------- testing holds (Forth 2012) : htest s" Testing holds" ; : htest2 s" works" ; : htest3 s" Testing holds works 123" ; skip T{ 0 0 <# htest holds #> htest S= -> true }T skip T{ 123 0 <# #S bl hold htest2 holds bl hold htest holds #> skip htest3 S= -> true }T skip T{ : HLD holds ; -> }T skip 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 skip T{ : RF1 s" refill" evaluate ; RF1 -> false }T skip 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 skip T{ : SSQ1 s\" abc" s" abc" S= ; -> }T \ No escapes skip T{ SSQ1 -> true }T skip T{ : SSQ2 s\" " ; SSQ2 swap drop -> 0 }T \ Empty string skip T{ : SSQ3 s\" \a\b\e\f\l\m\q\r\t\v\x0F0\x1Fa\xaBx\z\"\\" ; -> }T skip T{ SSQ3 swap drop -> 20 }T \ String length skip T{ SSQ3 drop c@ -> 7 }T \ \a BEL Bell skip T{ SSQ3 drop 1 chars + c@ -> 8 }T \ \b BS Backspace skip T{ SSQ3 drop 2 chars + c@ -> 27 }T \ \e ESC Escape skip T{ SSQ3 drop 3 chars + c@ -> 12 }T \ \f FF Form feed skip T{ SSQ3 drop 4 chars + c@ -> 10 }T \ \l LF Line feed skip T{ SSQ3 drop 5 chars + c@ -> 13 }T \ \m cr of cr/LF pair skip T{ SSQ3 drop 6 chars + c@ -> 10 }T \ LF of cr/LF pair skip T{ SSQ3 drop 7 chars + c@ -> 34 }T \ \q " Double Quote skip T{ SSQ3 drop 8 chars + c@ -> 13 }T \ \r cr Carriage Return skip T{ SSQ3 drop 9 chars + c@ -> 9 }T \ \t TAB Horizontal Tab skip T{ SSQ3 drop 10 chars + c@ -> 11 }T \ \v VT Vertical Tab skip T{ SSQ3 drop 11 chars + c@ -> 15 }T \ \x0F Given Char skip T{ SSQ3 drop 12 chars + c@ -> 48 }T \ 0 0 Digit follow on skip T{ SSQ3 drop 13 chars + c@ -> 31 }T \ \x1F Given Char skip T{ SSQ3 drop 14 chars + c@ -> 97 }T \ a a Hex follow on skip T{ SSQ3 drop 15 chars + c@ -> 171 }T \ \xaB Insensitive Given Char skip T{ SSQ3 drop 16 chars + c@ -> 120 }T \ x x Non hex follow on skip T{ SSQ3 drop 17 chars + c@ -> 0 }T \ \z NUL No Character skip T{ SSQ3 drop 18 chars + c@ -> 34 }T \ \" " Double Quote skip 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) skip T{ : SSQ4 s\" \nOne line...\nanotherLine\n" TYPE ; SSQ4 -> }T skip \ Test bare escapable characters appear as themselves skip T{ : SSQ5 s\" abeflmnqrtvxz" s" abeflmnqrtvxz" S= ; SSQ5 -> true }T skip T{ : SSQ6 s\" a\""2drop 1111 ; SSQ6 -> 1111 }T \ Parsing behaviour skip T{ : SSQ7 s\" 111 : SSQ8 S\\\" 222\" evaluate ; SSQ8 333" evaluate ; -> }T skip T{ SSQ7 -> 111 222 333 }T skip T{ : SSQ9 s\" 11 : SSQ10 S\\\" \\x32\\x32\" evaluate ; SSQ10 33" evaluate ; -> }T skip T{ SSQ9 -> 11 22 33 }T \ ----------------------------------------------------------------------------- cr .( End of Core Extension word tests) cr