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merge into: coop:loops/prolog
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coop:main coop:loops/prolog coop:loops/smalltalk coop:loops/haskell coop:loops/hs coop:loops/erlang coop:loops/forth coop:loops/lua coop:architecture coop:wasm coop:macros coop:sx coop:exorcism coop:cssx coop:decoupling coop:sexpression coop:relations
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pull from: coop:loops/forth
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coop:loops/prolog coop:loops/smalltalk coop:loops/haskell coop:loops/hs coop:loops/erlang coop:loops/forth coop:loops/lua coop:architecture coop:main coop:wasm coop:macros coop:sx coop:exorcism coop:cssx coop:decoupling coop:sexpression coop:relations

23 Commits
loops/prol ... loops/fort

Author SHA1 Message Date
giles
55f3024743 forth: JIT cooperation hooks (vm-eligible flag + call-count + forth-hot-words)
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2026-04-25 04:57:49 +00:00
giles
0d6d0bf439 forth: TCO at colon-def endings (no extra frame on tail-call ops)
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2026-04-25 04:29:57 +00:00
giles
f6e333dd19 forth: inline primitive calls in colon-def body (skip forth-execute-word)
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2026-04-25 04:00:24 +00:00
giles
c28333adb3 forth: \, POSTPONE-imm split, >NUMBER, DOES> — Hayes 486→618 (97%)
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2026-04-25 03:33:13 +00:00
giles
1b2935828c forth: String word set COMPARE/SEARCH/SLITERAL (+9)
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2026-04-25 02:53:46 +00:00
giles
64af162b5d forth: File Access word set (in-memory backing, Hayes unchanged)
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2026-04-25 02:24:55 +00:00
giles
8ca2fe3564 forth: WITHIN/ABORT/ABORT"/EXIT/UNLOOP (+7; Hayes 486/638, 76%)
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2026-04-25 01:55:38 +00:00
giles
b1a7852045 forth: [, ], STATE, EVALUATE (+5; Hayes 463→477, 74%)
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2026-04-25 01:23:23 +00:00
giles
89a879799a forth: parsing/dictionary '/[']/EXECUTE/LITERAL/POSTPONE/WORD/FIND/>BODY (Hayes 463/638, 72%)
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2026-04-25 00:55:34 +00:00
giles
47f66ad1be forth: pictured numeric output <#/#/#S/#>/HOLD/SIGN + U./U.R/.R (Hayes 448/638, 70%)
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2026-04-25 00:23:04 +00:00
giles
c726a9e0fe forth: double-cell ops D+/D-/DNEGATE/DABS/D=/D</D0=/D0</DMAX/DMIN (+18)
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2026-04-24 23:52:43 +00:00
giles
b6810e90ab forth: mixed/double-cell math (S>D M* UM* UM/MOD FM/MOD SM/REM */ */MOD); Hayes 342→446 (69%)
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2026-04-24 23:25:43 +00:00
giles
3ab01b271d forth: Phase 5 memory + unsigned compare (Hayes 268→342, 53%)
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2026-04-24 22:56:26 +00:00
giles
8e1466032a forth: LSHIFT/RSHIFT + 32-bit arith truncation + early binding (Hayes 174→268)
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2026-04-24 22:26:58 +00:00
giles
387a6e7f5d forth: SP@ / SP! (+4; Hayes 174/590)
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2026-04-24 21:07:10 +00:00
giles
acf9c273a2 forth: BASE/DECIMAL/HEX/BIN/OCTAL (+9; Hayes 174/590)
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2026-04-24 20:40:11 +00:00
giles
35ce18eb97 forth: CHAR/[CHAR]/KEY/ACCEPT (+7; Hayes 174/590)
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2026-04-24 20:12:31 +00:00
giles
1c975f229d forth: Phase 4 strings — S"/C"/."/TYPE/COUNT/CMOVE/FILL/BLANK (+16; Hayes 168/590)
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2026-04-24 19:45:40 +00:00
giles
0e509af0a2 forth: Hayes conformance runner + baseline scoreboard (165/590, 28%)
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2026-04-24 19:13:45 +00:00
giles
a47b3e5420 forth: vendor Gerry Jackson's forth2012-test-suite (Hayes Core + Ext)
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2026-04-24 18:25:39 +00:00
giles
e066e14267 forth: DO/LOOP/+LOOP/I/J/LEAVE + return stack words (+16)
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2026-04-24 17:58:37 +00:00
giles
bb16477fd4 forth: BEGIN/UNTIL/WHILE/REPEAT/AGAIN (+9)
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2026-04-24 17:33:25 +00:00
giles
b2939c1922 forth: IF/ELSE/THEN + PC-driven body runner (+18)
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2026-04-24 17:03:41 +00:00
15 changed files with 5351 additions and 55 deletions
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14
lib/forth/ans-tests/README.md Normal file
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ANS Forth conformance tests — vendored from
https://github.com/gerryjackson/forth2012-test-suite (master, commit-locked
on first fetch: 2026-04-24).
Files in this directory are pristine copies of upstream — do not edit them.
They are consumed by the conformance runner in `lib/forth/conformance.sh`.
- `tester.fr` — John Hayes' test harness (`T{ ... -> ... }T`). (C) 1995
Johns Hopkins APL, distributable under its notice.
- `core.fr` — Core word set tests (Hayes, ~1000 lines).
- `coreexttest.fth` — Core Extension tests (Gerry Jackson).
Only `core.fr` is expected to run green end-to-end for Phase 3; the others
stay parked until later phases.

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\ 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 0.15 1 August 2025 Added two tests to VALUE
\ 0.14 21 July 2022 Updated first line of BUFFER: test as recommended
\ in issue 32
\ 0.13 28 October 2015
\ Replace <FALSE> and <TRUE> 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{ 2 CELLS 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{ 444 TO VAL1 -> }T
T{ VD1 -> 444 }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
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...\nanotherLine\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

66
lib/forth/ans-tests/tester.fr Normal file
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\ 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 \ ( 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
;
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 ;

1092
lib/forth/compiler.sx
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170
lib/forth/conformance.sh Executable file
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#!/usr/bin/env bash
# Run the Hayes/Gerry-Jackson Core conformance suite against our Forth
# interpreter and emit scoreboard.json + scoreboard.md.
#
# Method:
# 1. Preprocess lib/forth/ans-tests/core.fr — strip \ comments, ( ... )
# comments, and TESTING … metadata lines.
# 2. Split into chunks ending at each `}T` so an error in one test
# chunk doesn't abort the run.
# 3. Emit an SX file that exposes those chunks as a list.
# 4. Run our Forth + hayes-runner under sx_server; record pass/fail/error.
set -e
FORTH_DIR="$(cd "$(dirname "$0")" && pwd)"
ROOT="$(cd "$FORTH_DIR/../.." && pwd)"
SX_SERVER="${SX_SERVER:-/root/rose-ash/hosts/ocaml/_build/default/bin/sx_server.exe}"
SOURCE="$FORTH_DIR/ans-tests/core.fr"
OUT_JSON="$FORTH_DIR/scoreboard.json"
OUT_MD="$FORTH_DIR/scoreboard.md"
TMP="$(mktemp -d)"
PREPROC="$TMP/preproc.forth"
CHUNKS_SX="$TMP/chunks.sx"
cd "$ROOT"
# 1. preprocess
awk '
{
line = $0
# protect POSTPONE \ so the comment-strip below leaves the literal \ alone
gsub(/POSTPONE[ \t]+\\/, "POSTPONE @@BS@@", line)
# strip leading/embedded \ line comments (must be \ followed by space or EOL)
gsub(/(^|[ \t])\\([ \t].*|$)/, " ", line)
# strip ( ... ) block comments that sit on one line
gsub(/\([^)]*\)/, " ", line)
# strip TESTING … metadata lines (rest of line, incl. bare TESTING)
sub(/TESTING([ \t].*)?$/, " ", line)
# restore the protected backslash
gsub(/@@BS@@/, "\\", line)
print line
}' "$SOURCE" > "$PREPROC"
# 2 + 3: split into chunks at each `}T` and emit as a SX file
#
# Cap chunks via MAX_CHUNKS env (default 638 = full Hayes Core). Lower
# it temporarily if later tests regress into an infinite loop while you
# are iterating on primitives.
MAX_CHUNKS="${MAX_CHUNKS:-638}"
MAX_CHUNKS="$MAX_CHUNKS" python3 - "$PREPROC" "$CHUNKS_SX" <<'PY'
import os, re, sys
preproc_path, out_path = sys.argv[1], sys.argv[2]
max_chunks = int(os.environ.get("MAX_CHUNKS", "590"))
text = open(preproc_path).read()
# keep the `}T` attached to the preceding chunk
parts = re.split(r'(\}T)', text)
chunks = []
buf = ""
for p in parts:
buf += p
if p == "}T":
s = buf.strip()
if s:
chunks.append(s)
buf = ""
if buf.strip():
chunks.append(buf.strip())
chunks = chunks[:max_chunks]
def esc(s):
s = s.replace('\\', '\\\\').replace('"', '\\"')
s = s.replace('\r', ' ').replace('\n', ' ')
s = re.sub(r'\s+', ' ', s).strip()
return s
with open(out_path, "w") as f:
f.write("(define hayes-chunks (list\n")
for c in chunks:
f.write(' "' + esc(c) + '"\n')
f.write("))\n\n")
f.write("(define\n")
f.write(" hayes-run-all\n")
f.write(" (fn\n")
f.write(" ()\n")
f.write(" (hayes-reset!)\n")
f.write(" (let ((s (hayes-boot)))\n")
f.write(" (for-each (fn (c) (hayes-run-chunk s c)) hayes-chunks))\n")
f.write(" (hayes-summary)))\n")
PY
# 4. run it
OUT=$(printf '(epoch 1)\n(load "lib/forth/runtime.sx")\n(epoch 2)\n(load "lib/forth/reader.sx")\n(epoch 3)\n(load "lib/forth/interpreter.sx")\n(epoch 4)\n(load "lib/forth/compiler.sx")\n(epoch 5)\n(load "lib/forth/hayes-runner.sx")\n(epoch 6)\n(load "%s")\n(epoch 7)\n(eval "(hayes-run-all)")\n' "$CHUNKS_SX" \
| timeout 180 "$SX_SERVER" 2>&1)
STATUS=$?
SUMMARY=$(printf '%s\n' "$OUT" | awk '/^\{:pass / {print; exit}')
PASS=$(printf '%s' "$SUMMARY" | sed -n 's/.*:pass \([0-9-]*\).*/\1/p')
FAIL=$(printf '%s' "$SUMMARY" | sed -n 's/.*:fail \([0-9-]*\).*/\1/p')
ERR=$(printf '%s' "$SUMMARY" | sed -n 's/.*:error \([0-9-]*\).*/\1/p')
TOTAL=$(printf '%s' "$SUMMARY" | sed -n 's/.*:total \([0-9-]*\).*/\1/p')
CHUNK_COUNT=$(grep -c '^ "' "$CHUNKS_SX" || echo 0)
TOTAL_AVAILABLE=$(grep -c '}T' "$PREPROC" || echo 0)
NOW="$(date -u +%Y-%m-%dT%H:%M:%SZ)"
if [ -z "$PASS" ]; then
PASS=0; FAIL=0; ERR=0; TOTAL=0
NOTE="runner halted before completing (timeout or SX error)"
else
NOTE="completed"
fi
PCT=0
if [ "$TOTAL" -gt 0 ]; then
PCT=$((PASS * 100 / TOTAL))
fi
cat > "$OUT_JSON" <<JSON
{
"source": "gerryjackson/forth2012-test-suite src/core.fr",
"generated_at": "$NOW",
"chunks_available": $TOTAL_AVAILABLE,
"chunks_fed": $CHUNK_COUNT,
"total": $TOTAL,
"pass": $PASS,
"fail": $FAIL,
"error": $ERR,
"percent": $PCT,
"note": "$NOTE"
}
JSON
cat > "$OUT_MD" <<MD
# Forth Hayes Core scoreboard
| metric | value |
| ----------------- | ----: |
| chunks available | $TOTAL_AVAILABLE |
| chunks fed | $CHUNK_COUNT |
| total | $TOTAL |
| pass | $PASS |
| fail | $FAIL |
| error | $ERR |
| percent | ${PCT}% |
- **Source**: \`gerryjackson/forth2012-test-suite\` \`src/core.fr\`
- **Generated**: $NOW
- **Note**: $NOTE
A "chunk" is any preprocessed segment ending at a \`}T\` (every Hayes test
is one chunk, plus the small declaration blocks between tests).
The runner catches raised errors at chunk boundaries so one bad chunk
does not abort the rest. \`error\` covers chunks that raised; \`fail\`
covers tests whose \`->\` / \`}T\` comparison mismatched.
### Chunk cap
\`conformance.sh\` processes the first \`\$MAX_CHUNKS\` chunks (default
**638**, i.e. the whole Hayes Core file). Lower the cap temporarily
while iterating on primitives if a regression re-opens an infinite
loop in later tests.
MD
echo "$SUMMARY"
echo "Scoreboard: $OUT_JSON"
echo " $OUT_MD"
if [ "$STATUS" -ne 0 ] && [ "$TOTAL" -eq 0 ]; then
exit 1
fi

158
lib/forth/hayes-runner.sx Normal file
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;; Hayes conformance test runner.
;; Installs T{ -> }T as Forth primitives that snapshot and compare dstack,
;; plus stub TESTING / HEX / DECIMAL so the Hayes Core file can stream
;; through the interpreter without halting on unsupported metadata words.
(define hayes-pass 0)
(define hayes-fail 0)
(define hayes-error 0)
(define hayes-start-depth 0)
(define hayes-actual (list))
(define hayes-actual-set false)
(define hayes-failures (list))
(define hayes-first-error "")
(define hayes-error-hist (dict))
(define
hayes-reset!
(fn
()
(set! hayes-pass 0)
(set! hayes-fail 0)
(set! hayes-error 0)
(set! hayes-start-depth 0)
(set! hayes-actual (list))
(set! hayes-actual-set false)
(set! hayes-failures (list))
(set! hayes-first-error "")
(set! hayes-error-hist (dict))))
(define
hayes-slice
(fn
(state base)
(let
((n (- (forth-depth state) base)))
(if (<= n 0) (list) (take (get state "dstack") n)))))
(define
hayes-truncate!
(fn
(state base)
(let
((n (- (forth-depth state) base)))
(when (> n 0) (dict-set! state "dstack" (drop (get state "dstack") n))))))
(define
hayes-install!
(fn
(state)
(forth-def-prim!
state
"T{"
(fn
(s)
(set! hayes-start-depth (forth-depth s))
(set! hayes-actual-set false)
(set! hayes-actual (list))))
(forth-def-prim!
state
"->"
(fn
(s)
(set! hayes-actual (hayes-slice s hayes-start-depth))
(set! hayes-actual-set true)
(hayes-truncate! s hayes-start-depth)))
(forth-def-prim!
state
"}T"
(fn
(s)
(let
((expected (hayes-slice s hayes-start-depth)))
(hayes-truncate! s hayes-start-depth)
(if
(and hayes-actual-set (= expected hayes-actual))
(set! hayes-pass (+ hayes-pass 1))
(begin
(set! hayes-fail (+ hayes-fail 1))
(set!
hayes-failures
(concat
hayes-failures
(list
(dict
"kind"
"fail"
"expected"
(str expected)
"actual"
(str hayes-actual))))))))))
(forth-def-prim! state "TESTING" (fn (s) nil))
;; HEX/DECIMAL are real primitives now (runtime.sx) — no stub needed.
state))
(define
hayes-boot
(fn () (let ((s (forth-boot))) (hayes-install! s) (hayes-reset!) s)))
;; Run a single preprocessed chunk (string of Forth source) on the shared
;; state. Catch any raised error and move on — the chunk boundary is a
;; safe resume point.
(define
hayes-bump-error-key!
(fn
(err)
(let
((msg (str err)))
(let
((space-idx (index-of msg " ")))
(let
((key
(if
(> space-idx 0)
(substr msg 0 space-idx)
msg)))
(dict-set!
hayes-error-hist
key
(+ 1 (or (get hayes-error-hist key) 0))))))))
(define
hayes-run-chunk
(fn
(state src)
(guard
(err
((= 1 1)
(begin
(set! hayes-error (+ hayes-error 1))
(when
(= (len hayes-first-error) 0)
(set! hayes-first-error (str err)))
(hayes-bump-error-key! err)
(dict-set! state "dstack" (list))
(dict-set! state "rstack" (list))
(dict-set! state "compiling" false)
(dict-set! state "current-def" nil)
(dict-set! state "cstack" (list))
(dict-set! state "input" (list)))))
(forth-interpret state src))))
(define
hayes-summary
(fn
()
(dict
"pass"
hayes-pass
"fail"
hayes-fail
"error"
hayes-error
"total"
(+ (+ hayes-pass hayes-fail) hayes-error)
"first-error"
hayes-first-error
"error-hist"
hayes-error-hist)))

36
lib/forth/interpreter.sx
View File

@@ -5,7 +5,39 @@
(define
forth-execute-word
(fn (state word) (let ((body (get word "body"))) (body state))))
(fn
(state word)
(dict-set! word "call-count" (+ 1 (or (get word "call-count") 0)))
(let ((body (get word "body"))) (body state))))
(define
forth-hot-words
(fn
(state threshold)
(forth-hot-walk
(keys (get state "dict"))
(get state "dict")
threshold
(list))))
(define
forth-hot-walk
(fn
(names dict threshold acc)
(if
(= (len names) 0)
acc
(let
((n (first names)))
(let
((w (get dict n)))
(let
((c (or (get w "call-count") 0)))
(forth-hot-walk
(rest names)
dict
threshold
(if (>= c threshold) (cons (list n c) acc) acc))))))))
(define
forth-interpret-token
@@ -17,7 +49,7 @@
(not (nil? w))
(forth-execute-word state w)
(let
((n (forth-parse-number tok (get state "base"))))
((n (forth-parse-number tok (get (get state "vars") "base"))))
(if
(not (nil? n))
(forth-push state n)

871
lib/forth/runtime.sx
View File

@@ -18,10 +18,122 @@
(dict-set! s "output" "")
(dict-set! s "compiling" false)
(dict-set! s "current-def" nil)
(dict-set! s "base" 10)
(dict-set! s "vars" (dict))
(dict-set! (get s "vars") "base" 10)
(dict-set! s "cstack" (list))
(dict-set! s "mem" (dict))
(dict-set! s "here" 0)
(dict-set! s "hold" (list))
(dict-set! s "files" (dict))
(dict-set! s "by-path" (dict))
(dict-set! s "next-fileid" 1)
s)))
(define
forth-mem-write!
(fn (state addr u) (dict-set! (get state "mem") (str addr) u)))
(define
forth-mem-read
(fn
(state addr)
(or (get (get state "mem") (str addr)) 0)))
(define
forth-alloc-bytes!
(fn
(state n)
(let
((addr (get state "here")))
(dict-set! state "here" (+ addr n))
addr)))
(define
forth-mem-write-string!
(fn
(state addr s)
(let
((n (len s)))
(forth-mem-write-string-loop! state addr s 0 n))))
(define
forth-mem-write-string-loop!
(fn
(state addr s i n)
(when
(< i n)
(begin
(forth-mem-write! state (+ addr i) (char-code (substr s i 1)))
(forth-mem-write-string-loop! state addr s (+ i 1) n)))))
(define
forth-mem-read-string
(fn
(state addr n)
(forth-mem-read-string-loop state addr 0 n "")))
(define
forth-mem-read-string-loop
(fn
(state addr i n acc)
(if
(>= i n)
acc
(forth-mem-read-string-loop
state
addr
(+ i 1)
n
(str acc (char-from-code (forth-mem-read state (+ addr i))))))))
(define
forth-fill-loop
(fn
(state addr u char i)
(when
(< i u)
(begin
(forth-mem-write! state (+ addr i) char)
(forth-fill-loop state addr u char (+ i 1))))))
(define
forth-cmove-loop
(fn
(state src dst u i)
(when
(< i u)
(begin
(forth-mem-write! state (+ dst i) (forth-mem-read state (+ src i)))
(forth-cmove-loop state src dst u (+ i 1))))))
(define
forth-cmove-loop-desc
(fn
(state src dst u i)
(when
(>= i 0)
(begin
(forth-mem-write! state (+ dst i) (forth-mem-read state (+ src i)))
(forth-cmove-loop-desc state src dst u (- i 1))))))
(define
forth-cpush
(fn (state v) (dict-set! state "cstack" (cons v (get state "cstack")))))
(define
forth-cpop
(fn
(state)
(let
((cs (get state "cstack")))
(if
(= (len cs) 0)
(forth-error state "control stack underflow")
(let
((top (first cs)))
(dict-set! state "cstack" (rest cs))
top)))))
(define
forth-error
(fn (state msg) (dict-set! state "error" msg) (raise msg)))
@@ -81,6 +193,12 @@
forth-emit-str
(fn (state s) (dict-set! state "output" (str (get state "output") s))))
;; The body is always a plain SX lambda — primitives and colon-def
;; bodies alike — which means the SX VM's JIT-on-first-call can lift
;; the body directly into bytecode. We tag every word `:vm-eligible?
;; true` so downstream JIT cooperation (a tracing layer, a hot-call
;; counter) can pick out the JIT-friendly entries by metadata rather
;; than by inspecting the body shape.
(define
forth-make-word
(fn
@@ -90,6 +208,8 @@
(dict-set! w "kind" kind)
(dict-set! w "body" body)
(dict-set! w "immediate?" immediate?)
(dict-set! w "vm-eligible?" true)
(dict-set! w "call-count" 0)
w)))
(define
@@ -99,7 +219,8 @@
(dict-set!
(get state "dict")
(downcase name)
(forth-make-word "primitive" body false))))
(forth-make-word "primitive" body false))
(dict-set! state "last-defined" name)))
(define
forth-def-prim-imm!
@@ -108,7 +229,8 @@
(dict-set!
(get state "dict")
(downcase name)
(forth-make-word "primitive" body true))))
(forth-make-word "primitive" body true))
(dict-set! state "last-defined" name)))
(define
forth-lookup
@@ -166,6 +288,220 @@
(define forth-bits-width 32)
;; Truncate a number to the Forth 32-bit signed range (two's-complement).
;; Used by arithmetic primitives so wrap-around matches ANS semantics and
;; loop idioms that rely on MSB becoming 0 after enough shifts terminate.
(define
forth-clip
(fn
(n)
(forth-from-unsigned
(forth-to-unsigned n forth-bits-width)
forth-bits-width)))
;; Double-cell helpers. Single = 32-bit signed, double = 64-bit signed
;; represented on the data stack as (lo, hi) where hi is on top.
;; Reassembly converts the low cell as unsigned and the high cell as
;; signed (signed) or as unsigned (unsigned), then combines.
(define forth-2pow32 (pow 2 32))
(define forth-2pow64 (pow 2 64))
(define
forth-double-from-cells-u
(fn
(lo hi)
(+ (forth-to-unsigned lo 32) (* (forth-to-unsigned hi 32) forth-2pow32))))
(define
forth-double-from-cells-s
(fn (lo hi) (+ (forth-to-unsigned lo 32) (* hi forth-2pow32))))
(define
forth-double-push-u
(fn
(state d)
(let
((lo (mod d forth-2pow32)) (hi (floor (/ d forth-2pow32))))
(forth-push state (forth-from-unsigned lo 32))
(forth-push state (forth-from-unsigned hi 32)))))
(define
forth-num-to-string-loop
(fn
(u base acc)
(if
(= u 0)
acc
(let
((dig (mod u base)) (rest (floor (/ u base))))
(let
((ch
(if
(< dig 10)
(char-from-code (+ 48 dig))
(char-from-code (+ 55 dig)))))
(forth-num-to-string-loop rest base (str ch acc)))))))
(define
forth-num-to-string
(fn
(u base)
(if (= u 0) "0" (forth-num-to-string-loop u base ""))))
(define
forth-spaces-str
(fn
(n)
(if (<= n 0) "" (str " " (forth-spaces-str (- n 1))))))
(define
forth-join-hold
(fn
(parts)
(forth-join-hold-loop parts "")))
(define
forth-join-hold-loop
(fn
(parts acc)
(if
(= (len parts) 0)
acc
(forth-join-hold-loop (rest parts) (str acc (first parts))))))
(define
forth-pic-step
(fn
(state)
(let
((hi (forth-pop state)) (lo (forth-pop state)))
(let
((d (forth-double-from-cells-u lo hi))
(b (get (get state "vars") "base")))
(let
((dig (mod d b)) (rest (floor (/ d b))))
(let
((ch
(if
(< dig 10)
(char-from-code (+ 48 dig))
(char-from-code (+ 55 dig)))))
(dict-set! state "hold" (cons ch (get state "hold")))
(forth-double-push-u state rest)))))))
(define
forth-compare-bytes-loop
(fn
(state a1 u1 a2 u2 i)
(cond
((and (= i u1) (= i u2)) 0)
((= i u1) -1)
((= i u2) 1)
(else
(let
((b1 (forth-mem-read state (+ a1 i)))
(b2 (forth-mem-read state (+ a2 i))))
(cond
((< b1 b2) -1)
((> b1 b2) 1)
(else (forth-compare-bytes-loop state a1 u1 a2 u2 (+ i 1)))))))))
(define
forth-match-at
(fn
(state a1 start a2 u2 j)
(cond
((= j u2) true)
((not
(=
(forth-mem-read state (+ a1 (+ start j)))
(forth-mem-read state (+ a2 j))))
false)
(else (forth-match-at state a1 start a2 u2 (+ j 1))))))
(define
forth-search-bytes
(fn
(state a1 u1 a2 u2 i)
(cond
((= u2 0) 0)
((> (+ i u2) u1) -1)
((forth-match-at state a1 i a2 u2 0) i)
(else (forth-search-bytes state a1 u1 a2 u2 (+ i 1))))))
(define
forth-digit-of-byte
(fn
(c base)
(let
((v
(cond
((and (>= c 48) (<= c 57)) (- c 48))
((and (>= c 65) (<= c 90)) (- c 55))
((and (>= c 97) (<= c 122)) (- c 87))
(else -1))))
(if (or (< v 0) (>= v base)) -1 v))))
(define
forth-numparse-loop
(fn
(state addr u acc base)
(if
(= u 0)
(list acc addr u)
(let
((c (forth-mem-read state addr)))
(let
((dig (forth-digit-of-byte c base)))
(if
(< dig 0)
(list acc addr u)
(forth-numparse-loop
state
(+ addr 1)
(- u 1)
(+ (* acc base) dig)
base)))))))
(define
forth-pic-S-loop
(fn
(state)
(forth-pic-step state)
(let
((hi (forth-pop state)) (lo (forth-pop state)))
(if
(and (= lo 0) (= hi 0))
(begin (forth-push state 0) (forth-push state 0))
(begin
(forth-push state lo)
(forth-push state hi)
(forth-pic-S-loop state))))))
(define
forth-double-push-s
(fn
(state d)
(if
(>= d 0)
(forth-double-push-u state d)
(let
((q (- 0 d)))
(let
((qlo (mod q forth-2pow32)) (qhi (floor (/ q forth-2pow32))))
(if
(= qlo 0)
(begin
(forth-push state 0)
(forth-push state (forth-from-unsigned (- forth-2pow32 qhi) 32)))
(begin
(forth-push
state
(forth-from-unsigned (- forth-2pow32 qlo) 32))
(forth-push
state
(forth-from-unsigned (- (- forth-2pow32 qhi) 1) 32)))))))))
(define
forth-to-unsigned
(fn (n w) (let ((m (pow 2 w))) (mod (+ (mod n m) m) m))))
@@ -285,6 +621,19 @@
(s)
(let ((a (forth-peek s))) (when (not (= a 0)) (forth-push s a)))))
(forth-def-prim! state "DEPTH" (fn (s) (forth-push s (forth-depth s))))
(forth-def-prim! state "SP@" (fn (s) (forth-push s (forth-depth s))))
(forth-def-prim!
state
"SP!"
(fn
(s)
(let
((n (forth-pop s)))
(let
((cur (forth-depth s)))
(when
(> cur n)
(dict-set! s "dstack" (drop (get s "dstack") (- cur n))))))))
(forth-def-prim!
state
"PICK"
@@ -354,11 +703,17 @@
(forth-push s d)
(forth-push s a)
(forth-push s b))))
(forth-def-prim! state "+" (forth-binop (fn (a b) (+ a b))))
(forth-def-prim! state "-" (forth-binop (fn (a b) (- a b))))
(forth-def-prim! state "*" (forth-binop (fn (a b) (* a b))))
(forth-def-prim! state "/" (forth-binop forth-div))
(forth-def-prim! state "MOD" (forth-binop forth-mod))
(forth-def-prim! state "+" (forth-binop (fn (a b) (forth-clip (+ a b)))))
(forth-def-prim! state "-" (forth-binop (fn (a b) (forth-clip (- a b)))))
(forth-def-prim! state "*" (forth-binop (fn (a b) (forth-clip (* a b)))))
(forth-def-prim!
state
"/"
(forth-binop (fn (a b) (forth-clip (forth-div a b)))))
(forth-def-prim!
state
"MOD"
(forth-binop (fn (a b) (forth-clip (forth-mod a b)))))
(forth-def-prim!
state
"/MOD"
@@ -368,8 +723,8 @@
((b (forth-pop s)) (a (forth-pop s)))
(forth-push s (forth-mod a b))
(forth-push s (forth-div a b)))))
(forth-def-prim! state "NEGATE" (forth-unop (fn (a) (- 0 a))))
(forth-def-prim! state "ABS" (forth-unop abs))
(forth-def-prim! state "NEGATE" (forth-unop (fn (a) (forth-clip (- 0 a)))))
(forth-def-prim! state "ABS" (forth-unop (fn (a) (forth-clip (abs a)))))
(forth-def-prim!
state
"MIN"
@@ -378,12 +733,15 @@
state
"MAX"
(forth-binop (fn (a b) (if (> a b) a b))))
(forth-def-prim! state "1+" (forth-unop (fn (a) (+ a 1))))
(forth-def-prim! state "1-" (forth-unop (fn (a) (- a 1))))
(forth-def-prim! state "2+" (forth-unop (fn (a) (+ a 2))))
(forth-def-prim! state "2-" (forth-unop (fn (a) (- a 2))))
(forth-def-prim! state "2*" (forth-unop (fn (a) (* a 2))))
(forth-def-prim! state "2/" (forth-unop (fn (a) (floor (/ a 2)))))
(forth-def-prim! state "1+" (forth-unop (fn (a) (forth-clip (+ a 1)))))
(forth-def-prim! state "1-" (forth-unop (fn (a) (forth-clip (- a 1)))))
(forth-def-prim! state "2+" (forth-unop (fn (a) (forth-clip (+ a 2)))))
(forth-def-prim! state "2-" (forth-unop (fn (a) (forth-clip (- a 2)))))
(forth-def-prim! state "2*" (forth-unop (fn (a) (forth-clip (* a 2)))))
(forth-def-prim!
state
"2/"
(forth-unop (fn (a) (forth-clip (floor (/ a 2))))))
(forth-def-prim! state "=" (forth-cmp (fn (a b) (= a b))))
(forth-def-prim! state "<>" (forth-cmp (fn (a b) (not (= a b)))))
(forth-def-prim! state "<" (forth-cmp (fn (a b) (< a b))))
@@ -398,6 +756,30 @@
(forth-def-prim! state "OR" (forth-binop forth-bit-or))
(forth-def-prim! state "XOR" (forth-binop forth-bit-xor))
(forth-def-prim! state "INVERT" (forth-unop forth-bit-invert))
(forth-def-prim!
state
"LSHIFT"
(fn
(s)
(let
((u (forth-pop s)) (x (forth-pop s)))
(let
((ux (forth-to-unsigned x forth-bits-width)))
(let
((res (mod (* ux (pow 2 u)) (pow 2 forth-bits-width))))
(forth-push s (forth-from-unsigned res forth-bits-width)))))))
(forth-def-prim!
state
"RSHIFT"
(fn
(s)
(let
((u (forth-pop s)) (x (forth-pop s)))
(let
((ux (forth-to-unsigned x forth-bits-width)))
(let
((res (floor (/ ux (pow 2 u)))))
(forth-push s (forth-from-unsigned res forth-bits-width)))))))
(forth-def-prim!
state
"."
@@ -416,7 +798,7 @@
(forth-def-prim!
state
"EMIT"
(fn (s) (forth-emit-str s (code-char (forth-pop s)))))
(fn (s) (forth-emit-str s (char-from-code (forth-pop s)))))
(forth-def-prim! state "CR" (fn (s) (forth-emit-str s "\n")))
(forth-def-prim! state "SPACE" (fn (s) (forth-emit-str s " ")))
(forth-def-prim!
@@ -430,4 +812,459 @@
(> n 0)
(for-each (fn (_) (forth-emit-str s " ")) (range 0 n))))))
(forth-def-prim! state "BL" (fn (s) (forth-push s 32)))
(forth-def-prim!
state
"DECIMAL"
(fn (s) (dict-set! (get s "vars") "base" 10)))
(forth-def-prim!
state
"HEX"
(fn (s) (dict-set! (get s "vars") "base" 16)))
(forth-def-prim!
state
"OCTAL"
(fn (s) (dict-set! (get s "vars") "base" 8)))
(forth-def-prim! state "BASE" (fn (s) (forth-push s "base")))
(forth-def-prim! state "I" (fn (s) (forth-push s (forth-rpeek s))))
(forth-def-prim!
state
"J"
(fn (s) (forth-push s (nth (get s "rstack") 2))))
(forth-def-prim! state ">R" (fn (s) (forth-rpush s (forth-pop s))))
(forth-def-prim! state "R>" (fn (s) (forth-push s (forth-rpop s))))
(forth-def-prim! state "R@" (fn (s) (forth-push s (forth-rpeek s))))
(forth-def-prim!
state
"2>R"
(fn
(s)
(let
((b (forth-pop s)) (a (forth-pop s)))
(forth-rpush s a)
(forth-rpush s b))))
(forth-def-prim!
state
"2R>"
(fn
(s)
(let
((b (forth-rpop s)) (a (forth-rpop s)))
(forth-push s a)
(forth-push s b))))
(forth-def-prim!
state
"2R@"
(fn
(s)
(let
((rs (get s "rstack")))
(when
(< (len rs) 2)
(forth-error s "return stack underflow"))
(forth-push s (nth rs 1))
(forth-push s (nth rs 0)))))
(forth-def-prim!
state
"C@"
(fn
(s)
(let ((addr (forth-pop s))) (forth-push s (forth-mem-read s addr)))))
(forth-def-prim!
state
"C!"
(fn
(s)
(let
((addr (forth-pop s)) (v (forth-pop s)))
(forth-mem-write! s addr v))))
(forth-def-prim! state "CHAR+" (fn (s) (forth-push s (+ (forth-pop s) 1))))
(forth-def-prim! state "CHARS" (fn (s) nil))
(forth-def-prim!
state
"TYPE"
(fn
(s)
(let
((u (forth-pop s)) (addr (forth-pop s)))
(forth-emit-str s (forth-mem-read-string s addr u)))))
(forth-def-prim!
state
"COUNT"
(fn
(s)
(let
((addr (forth-pop s)))
(let
((u (forth-mem-read s addr)))
(forth-push s (+ addr 1))
(forth-push s u)))))
(forth-def-prim!
state
"FILL"
(fn
(s)
(let
((char (forth-pop s)) (u (forth-pop s)) (addr (forth-pop s)))
(forth-fill-loop s addr u char 0))))
(forth-def-prim!
state
"BLANK"
(fn
(s)
(let
((u (forth-pop s)) (addr (forth-pop s)))
(forth-fill-loop s addr u 32 0))))
(forth-def-prim!
state
"CMOVE"
(fn
(s)
(let
((u (forth-pop s)) (dst (forth-pop s)) (src (forth-pop s)))
(forth-cmove-loop s src dst u 0))))
(forth-def-prim!
state
"CMOVE>"
(fn
(s)
(let
((u (forth-pop s)) (dst (forth-pop s)) (src (forth-pop s)))
(forth-cmove-loop-desc s src dst u (- u 1)))))
(forth-def-prim!
state
"MOVE"
(fn
(s)
(let
((u (forth-pop s)) (dst (forth-pop s)) (src (forth-pop s)))
(if
(or (<= dst src) (>= dst (+ src u)))
(forth-cmove-loop s src dst u 0)
(forth-cmove-loop-desc s src dst u (- u 1))))))
(forth-def-prim!
state
"S>D"
(fn
(s)
(let
((n (forth-pop s)))
(forth-push s n)
(forth-push s (if (< n 0) -1 0)))))
(forth-def-prim! state "D>S" (fn (s) (forth-pop s)))
(forth-def-prim!
state
"M*"
(fn
(s)
(let
((b (forth-pop s)) (a (forth-pop s)))
(forth-double-push-s s (* a b)))))
(forth-def-prim!
state
"UM*"
(fn
(s)
(let
((b (forth-pop s)) (a (forth-pop s)))
(forth-double-push-u
s
(* (forth-to-unsigned a 32) (forth-to-unsigned b 32))))))
(forth-def-prim!
state
"UM/MOD"
(fn
(s)
(let
((u1 (forth-pop s)) (hi (forth-pop s)) (lo (forth-pop s)))
(let
((d (forth-double-from-cells-u lo hi))
(divisor (forth-to-unsigned u1 32)))
(when (= divisor 0) (forth-error s "division by zero"))
(let
((q (floor (/ d divisor))) (r (mod d divisor)))
(forth-push s (forth-from-unsigned r 32))
(forth-push s (forth-from-unsigned q 32)))))))
(forth-def-prim!
state
"FM/MOD"
(fn
(s)
(let
((n (forth-pop s)) (hi (forth-pop s)) (lo (forth-pop s)))
(let
((d (forth-double-from-cells-s lo hi)))
(when (= n 0) (forth-error s "division by zero"))
(let
((q (floor (/ d n))))
(let
((r (- d (* q n))))
(forth-push s (forth-clip r))
(forth-push s (forth-clip q))))))))
(forth-def-prim!
state
"SM/REM"
(fn
(s)
(let
((n (forth-pop s)) (hi (forth-pop s)) (lo (forth-pop s)))
(let
((d (forth-double-from-cells-s lo hi)))
(when (= n 0) (forth-error s "division by zero"))
(let
((q (forth-trunc (/ d n))))
(let
((r (- d (* q n))))
(forth-push s (forth-clip r))
(forth-push s (forth-clip q))))))))
(forth-def-prim!
state
"*/"
(fn
(s)
(let
((n3 (forth-pop s)) (n2 (forth-pop s)) (n1 (forth-pop s)))
(when (= n3 0) (forth-error s "division by zero"))
(forth-push s (forth-clip (forth-trunc (/ (* n1 n2) n3)))))))
(forth-def-prim!
state
"*/MOD"
(fn
(s)
(let
((n3 (forth-pop s)) (n2 (forth-pop s)) (n1 (forth-pop s)))
(when (= n3 0) (forth-error s "division by zero"))
(let
((d (* n1 n2)))
(let
((q (forth-trunc (/ d n3))))
(let
((r (- d (* q n3))))
(forth-push s (forth-clip r))
(forth-push s (forth-clip q))))))))
(forth-def-prim!
state
"D+"
(fn
(s)
(let
((hi2 (forth-pop s))
(lo2 (forth-pop s))
(hi1 (forth-pop s))
(lo1 (forth-pop s)))
(forth-double-push-s
s
(+
(forth-double-from-cells-s lo1 hi1)
(forth-double-from-cells-s lo2 hi2))))))
(forth-def-prim!
state
"D-"
(fn
(s)
(let
((hi2 (forth-pop s))
(lo2 (forth-pop s))
(hi1 (forth-pop s))
(lo1 (forth-pop s)))
(forth-double-push-s
s
(-
(forth-double-from-cells-s lo1 hi1)
(forth-double-from-cells-s lo2 hi2))))))
(forth-def-prim!
state
"DNEGATE"
(fn
(s)
(let
((hi (forth-pop s)) (lo (forth-pop s)))
(forth-double-push-s
s
(- 0 (forth-double-from-cells-s lo hi))))))
(forth-def-prim!
state
"DABS"
(fn
(s)
(let
((hi (forth-pop s)) (lo (forth-pop s)))
(forth-double-push-s s (abs (forth-double-from-cells-s lo hi))))))
(forth-def-prim!
state
"D="
(fn
(s)
(let
((hi2 (forth-pop s))
(lo2 (forth-pop s))
(hi1 (forth-pop s))
(lo1 (forth-pop s)))
(forth-push s (if (and (= lo1 lo2) (= hi1 hi2)) -1 0)))))
(forth-def-prim!
state
"D<"
(fn
(s)
(let
((hi2 (forth-pop s))
(lo2 (forth-pop s))
(hi1 (forth-pop s))
(lo1 (forth-pop s)))
(forth-push
s
(if
(<
(forth-double-from-cells-s lo1 hi1)
(forth-double-from-cells-s lo2 hi2))
-1
0)))))
(forth-def-prim!
state
"D0="
(fn
(s)
(let
((hi (forth-pop s)) (lo (forth-pop s)))
(forth-push s (if (and (= lo 0) (= hi 0)) -1 0)))))
(forth-def-prim!
state
"D0<"
(fn
(s)
(let
((hi (forth-pop s)) (lo (forth-pop s)))
(forth-push s (if (< hi 0) -1 0)))))
(forth-def-prim!
state
"DMAX"
(fn
(s)
(let
((hi2 (forth-pop s))
(lo2 (forth-pop s))
(hi1 (forth-pop s))
(lo1 (forth-pop s)))
(let
((d1 (forth-double-from-cells-s lo1 hi1))
(d2 (forth-double-from-cells-s lo2 hi2)))
(forth-double-push-s s (if (> d1 d2) d1 d2))))))
(forth-def-prim!
state
"DMIN"
(fn
(s)
(let
((hi2 (forth-pop s))
(lo2 (forth-pop s))
(hi1 (forth-pop s))
(lo1 (forth-pop s)))
(let
((d1 (forth-double-from-cells-s lo1 hi1))
(d2 (forth-double-from-cells-s lo2 hi2)))
(forth-double-push-s s (if (< d1 d2) d1 d2))))))
(forth-def-prim! state "<#" (fn (s) (dict-set! s "hold" (list))))
(forth-def-prim!
state
"HOLD"
(fn
(s)
(let
((c (forth-pop s)))
(dict-set!
s
"hold"
(cons (char-from-code c) (get s "hold"))))))
(forth-def-prim!
state
"SIGN"
(fn
(s)
(let
((n (forth-pop s)))
(when
(< n 0)
(dict-set! s "hold" (cons "-" (get s "hold")))))))
(forth-def-prim!
state
"#"
(fn
(s)
(let
((hi (forth-pop s)) (lo (forth-pop s)))
(let
((d (forth-double-from-cells-u lo hi))
(b (get (get s "vars") "base")))
(let
((dig (mod d b)) (rest (floor (/ d b))))
(let
((ch
(if
(< dig 10)
(char-from-code (+ 48 dig))
(char-from-code (+ 55 dig)))))
(dict-set! s "hold" (cons ch (get s "hold")))
(forth-double-push-u s rest)))))))
(forth-def-prim!
state
"#S"
(fn
(s)
(forth-pic-S-loop s)))
(forth-def-prim!
state
"#>"
(fn
(s)
(forth-pop s)
(forth-pop s)
(let
((str-out (forth-join-hold (get s "hold"))))
(let
((addr (forth-alloc-bytes! s (len str-out))))
(forth-mem-write-string! s addr str-out)
(forth-push s addr)
(forth-push s (len str-out))))))
(forth-def-prim!
state
"U."
(fn
(s)
(let
((u (forth-to-unsigned (forth-pop s) 32))
(b (get (get s "vars") "base")))
(forth-emit-str s (str (forth-num-to-string u b) " ")))))
(forth-def-prim!
state
"U.R"
(fn
(s)
(let
((width (forth-pop s))
(u (forth-to-unsigned (forth-pop s) 32))
(b (get (get s "vars") "base")))
(let
((digits (forth-num-to-string u b)))
(forth-emit-str
s
(forth-spaces-str (- width (len digits))))
(forth-emit-str s digits)))))
(forth-def-prim!
state
".R"
(fn
(s)
(let
((width (forth-pop s))
(n (forth-pop s))
(b (get (get s "vars") "base")))
(let
((sign-prefix (if (< n 0) "-" ""))
(abs-digits
(forth-num-to-string (forth-to-unsigned (abs n) 32) b)))
(let
((digits (str sign-prefix abs-digits)))
(forth-emit-str
s
(forth-spaces-str (- width (len digits))))
(forth-emit-str s digits))))))
state))

12
lib/forth/scoreboard.json Normal file
View File

@@ -0,0 +1,12 @@
{
"source": "gerryjackson/forth2012-test-suite src/core.fr",
"generated_at": "2026-04-25T04:57:22Z",
"chunks_available": 638,
"chunks_fed": 638,
"total": 638,
"pass": 618,
"fail": 14,
"error": 6,
"percent": 96,
"note": "completed"
}

28
lib/forth/scoreboard.md Normal file
View File

@@ -0,0 +1,28 @@
# Forth Hayes Core scoreboard
| metric | value |
| ----------------- | ----: |
| chunks available | 638 |
| chunks fed | 638 |
| total | 638 |
| pass | 618 |
| fail | 14 |
| error | 6 |
| percent | 96% |
- **Source**: `gerryjackson/forth2012-test-suite` `src/core.fr`
- **Generated**: 2026-04-25T04:57:22Z
- **Note**: completed
A "chunk" is any preprocessed segment ending at a `}T` (every Hayes test
is one chunk, plus the small declaration blocks between tests).
The runner catches raised errors at chunk boundaries so one bad chunk
does not abort the rest. `error` covers chunks that raised; `fail`
covers tests whose `->` / `}T` comparison mismatched.
### Chunk cap
`conformance.sh` processes the first `$MAX_CHUNKS` chunks (default
**638**, i.e. the whole Hayes Core file). Lower the cap temporarily
while iterating on primitives if a regression re-opens an infinite
loop in later tests.

239
lib/forth/tests/test-phase3.sx Normal file
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;; Phase 3 — control flow (IF/ELSE/THEN, BEGIN/UNTIL/WHILE/REPEAT/AGAIN,
;; DO/LOOP, return stack). Grows as each control construct lands.
(define forth-p3-passed 0)
(define forth-p3-failed 0)
(define forth-p3-failures (list))
(define
forth-p3-assert
(fn
(label expected actual)
(if
(= expected actual)
(set! forth-p3-passed (+ forth-p3-passed 1))
(begin
(set! forth-p3-failed (+ forth-p3-failed 1))
(set!
forth-p3-failures
(concat
forth-p3-failures
(list
(str label ": expected " (str expected) " got " (str actual)))))))))
(define
forth-p3-check-stack
(fn
(label src expected)
(let ((r (forth-run src))) (forth-p3-assert label expected (nth r 2)))))
(define
forth-p3-if-tests
(fn
()
(forth-p3-check-stack
"IF taken (-1)"
": Q -1 IF 10 THEN ; Q"
(list 10))
(forth-p3-check-stack
"IF not taken (0)"
": Q 0 IF 10 THEN ; Q"
(list))
(forth-p3-check-stack
"IF with non-zero truthy"
": Q 42 IF 10 THEN ; Q"
(list 10))
(forth-p3-check-stack
"IF ELSE — true branch"
": Q -1 IF 10 ELSE 20 THEN ; Q"
(list 10))
(forth-p3-check-stack
"IF ELSE — false branch"
": Q 0 IF 10 ELSE 20 THEN ; Q"
(list 20))
(forth-p3-check-stack
"IF consumes flag"
": Q IF 1 ELSE 2 THEN ; 0 Q"
(list 2))
(forth-p3-check-stack
"absolute value via IF"
": ABS2 DUP 0 < IF NEGATE THEN ; -7 ABS2"
(list 7))
(forth-p3-check-stack
"abs leaves positive alone"
": ABS2 DUP 0 < IF NEGATE THEN ; 7 ABS2"
(list 7))
(forth-p3-check-stack
"sign: negative"
": SIGN DUP 0 < IF DROP -1 ELSE DROP 1 THEN ; -3 SIGN"
(list -1))
(forth-p3-check-stack
"sign: positive"
": SIGN DUP 0 < IF DROP -1 ELSE DROP 1 THEN ; 3 SIGN"
(list 1))
(forth-p3-check-stack
"nested IF (both true)"
": Q 1 IF 1 IF 10 ELSE 20 THEN ELSE 30 THEN ; Q"
(list 10))
(forth-p3-check-stack
"nested IF (inner false)"
": Q 1 IF 0 IF 10 ELSE 20 THEN ELSE 30 THEN ; Q"
(list 20))
(forth-p3-check-stack
"nested IF (outer false)"
": Q 0 IF 0 IF 10 ELSE 20 THEN ELSE 30 THEN ; Q"
(list 30))
(forth-p3-check-stack
"IF before other ops"
": Q 1 IF 5 ELSE 6 THEN 2 * ; Q"
(list 10))
(forth-p3-check-stack
"IF in chained def"
": POS? 0 > ;
: DOUBLE-IF-POS DUP POS? IF 2 * THEN ;
3 DOUBLE-IF-POS"
(list 6))
(forth-p3-check-stack
"empty then branch"
": Q 1 IF THEN 99 ; Q"
(list 99))
(forth-p3-check-stack
"empty else branch"
": Q 0 IF 99 ELSE THEN ; Q"
(list))
(forth-p3-check-stack
"sequential IF blocks"
": Q -1 IF 1 THEN -1 IF 2 THEN ; Q"
(list 1 2))))
(define
forth-p3-loop-tests
(fn
()
(forth-p3-check-stack
"BEGIN UNTIL (countdown to zero)"
": CD BEGIN 1- DUP 0 = UNTIL ; 3 CD"
(list 0))
(forth-p3-check-stack
"BEGIN UNTIL — single pass (UNTIL true immediately)"
": Q BEGIN -1 UNTIL 42 ; Q"
(list 42))
(forth-p3-check-stack
"BEGIN UNTIL — accumulate sum 1+2+3"
": SUM3 0 3 BEGIN TUCK + SWAP 1- DUP 0 = UNTIL DROP ; SUM3"
(list 6))
(forth-p3-check-stack
"BEGIN WHILE REPEAT — triangular sum 5"
": TRI 0 5 BEGIN DUP 0 > WHILE TUCK + SWAP 1- REPEAT DROP ; TRI"
(list 15))
(forth-p3-check-stack
"BEGIN WHILE REPEAT — zero iterations"
": TRI 0 0 BEGIN DUP 0 > WHILE TUCK + SWAP 1- REPEAT DROP ; TRI"
(list 0))
(forth-p3-check-stack
"BEGIN WHILE REPEAT — one iteration"
": TRI 0 1 BEGIN DUP 0 > WHILE TUCK + SWAP 1- REPEAT DROP ; TRI"
(list 1))
(forth-p3-check-stack
"nested BEGIN UNTIL"
": INNER BEGIN 1- DUP 0 = UNTIL DROP ;
: OUTER BEGIN 3 INNER 1- DUP 0 = UNTIL ;
2 OUTER"
(list 0))
(forth-p3-check-stack
"BEGIN UNTIL after colon prefix"
": TEN 10 ;
: CD TEN BEGIN 1- DUP 0 = UNTIL ;
CD"
(list 0))
(forth-p3-check-stack
"WHILE inside IF branch"
": Q 1 IF 0 3 BEGIN DUP 0 > WHILE TUCK + SWAP 1- REPEAT DROP ELSE 99 THEN ; Q"
(list 6))))
(define
forth-p3-do-tests
(fn
()
(forth-p3-check-stack
"DO LOOP — simple sum 0..4"
": SUM 0 5 0 DO I + LOOP ; SUM"
(list 10))
(forth-p3-check-stack
"DO LOOP — 10..14 sum using I"
": SUM 0 15 10 DO I + LOOP ; SUM"
(list 60))
(forth-p3-check-stack
"DO LOOP — limit = start runs one pass"
": SUM 0 5 5 DO I + LOOP ; SUM"
(list 5))
(forth-p3-check-stack
"DO LOOP — count iterations"
": COUNT 0 4 0 DO 1+ LOOP ; COUNT"
(list 4))
(forth-p3-check-stack
"DO LOOP — nested, I inner / J outer"
": MATRIX 0 3 0 DO 3 0 DO I J + + LOOP LOOP ; MATRIX"
(list 18))
(forth-p3-check-stack
"DO LOOP — I used in arithmetic"
": DBL 0 5 1 DO I 2 * + LOOP ; DBL"
(list 20))
(forth-p3-check-stack
"+LOOP — count by 2"
": Q 0 10 0 DO I + 2 +LOOP ; Q"
(list 20))
(forth-p3-check-stack
"+LOOP — count by 3"
": Q 0 10 0 DO I + 3 +LOOP ; Q"
(list 18))
(forth-p3-check-stack
"+LOOP — negative step"
": Q 0 0 10 DO I + -1 +LOOP ; Q"
(list 55))
(forth-p3-check-stack
"LEAVE — early exit at I=3"
": Q 0 10 0 DO I 3 = IF LEAVE THEN I + LOOP ; Q"
(list 3))
(forth-p3-check-stack
"LEAVE — in nested loop exits only inner"
": Q 0 3 0 DO 5 0 DO I 2 = IF LEAVE THEN I + LOOP LOOP ; Q"
(list 3))
(forth-p3-check-stack
"DO LOOP preserves outer stack"
": Q 99 5 0 DO I + LOOP ; Q"
(list 109))
(forth-p3-check-stack
">R R>"
": Q 7 >R 11 R> ; Q"
(list 11 7))
(forth-p3-check-stack
">R R@ R>"
": Q 7 >R R@ R> ; Q"
(list 7 7))
(forth-p3-check-stack
"2>R 2R>"
": Q 1 2 2>R 99 2R> ; Q"
(list 99 1 2))
(forth-p3-check-stack
"2>R 2R@ 2R>"
": Q 3 4 2>R 2R@ 2R> ; Q"
(list 3 4 3 4))))
(define
forth-p3-run-all
(fn
()
(set! forth-p3-passed 0)
(set! forth-p3-failed 0)
(set! forth-p3-failures (list))
(forth-p3-if-tests)
(forth-p3-loop-tests)
(forth-p3-do-tests)
(dict
"passed"
forth-p3-passed
"failed"
forth-p3-failed
"failures"
forth-p3-failures)))

268
lib/forth/tests/test-phase4.sx Normal file
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;; Phase 4 — strings + more Core.
;; Uses the byte-memory model on state ("mem" dict + "here" cursor).
(define forth-p4-passed 0)
(define forth-p4-failed 0)
(define forth-p4-failures (list))
(define
forth-p4-assert
(fn
(label expected actual)
(if
(= expected actual)
(set! forth-p4-passed (+ forth-p4-passed 1))
(begin
(set! forth-p4-failed (+ forth-p4-failed 1))
(set!
forth-p4-failures
(concat
forth-p4-failures
(list
(str label ": expected " (str expected) " got " (str actual)))))))))
(define
forth-p4-check-output
(fn
(label src expected)
(let ((r (forth-run src))) (forth-p4-assert label expected (nth r 1)))))
(define
forth-p4-check-stack-size
(fn
(label src expected-n)
(let
((r (forth-run src)))
(forth-p4-assert label expected-n (len (nth r 2))))))
(define
forth-p4-check-top
(fn
(label src expected)
(let
((r (forth-run src)))
(let
((stk (nth r 2)))
(forth-p4-assert label expected (nth stk (- (len stk) 1)))))))
(define
forth-p4-check-typed
(fn
(label src expected)
(forth-p4-check-output label (str src " TYPE") expected)))
(define
forth-p4-string-tests
(fn
()
(forth-p4-check-typed
"S\" + TYPE — hello"
"S\" HELLO\""
"HELLO")
(forth-p4-check-typed
"S\" + TYPE — two words"
"S\" HELLO WORLD\""
"HELLO WORLD")
(forth-p4-check-typed
"S\" + TYPE — empty"
"S\" \""
"")
(forth-p4-check-typed
"S\" + TYPE — single char"
"S\" X\""
"X")
(forth-p4-check-stack-size
"S\" pushes (addr len)"
"S\" HI\""
2)
(forth-p4-check-top
"S\" length is correct"
"S\" HELLO\""
5)
(forth-p4-check-output
".\" prints at interpret time"
".\" HELLO\""
"HELLO")
(forth-p4-check-output
".\" in colon def"
": GREET .\" HI \" ; GREET GREET"
"HI HI ")))
(define
forth-p4-count-tests
(fn
()
(forth-p4-check-typed
"C\" + COUNT + TYPE"
"C\" ABC\" COUNT"
"ABC")
(forth-p4-check-typed
"C\" then COUNT leaves right len"
"C\" HI THERE\" COUNT"
"HI THERE")))
(define
forth-p4-fill-tests
(fn
()
(forth-p4-check-typed
"FILL overwrites prefix bytes"
"S\" ABCDE\" 2DUP DROP 3 65 FILL"
"AAADE")
(forth-p4-check-typed
"BLANK sets spaces"
"S\" XYZAB\" 2DUP DROP 3 BLANK"
" AB")))
(define
forth-p4-cmove-tests
(fn
()
(forth-p4-check-output
"CMOVE copies HELLO forward"
": MKH 72 0 C! 69 1 C! 76 2 C! 76 3 C! 79 4 C! ;
: T MKH 0 10 5 CMOVE 10 5 TYPE ; T"
"HELLO")
(forth-p4-check-output
"CMOVE> copies overlapping backward"
": MKA 65 0 C! 66 1 C! 67 2 C! ;
: T MKA 0 1 2 CMOVE> 0 3 TYPE ; T"
"AAB")
(forth-p4-check-output
"MOVE picks direction for overlap"
": MKA 65 0 C! 66 1 C! 67 2 C! ;
: T MKA 0 1 2 MOVE 0 3 TYPE ; T"
"AAB")))
(define
forth-p4-charplus-tests
(fn
()
(forth-p4-check-top
"CHAR+ increments"
"5 CHAR+"
6)))
(define
forth-p4-char-tests
(fn
()
(forth-p4-check-top "CHAR A -> 65" "CHAR A" 65)
(forth-p4-check-top "CHAR x -> 120" "CHAR x" 120)
(forth-p4-check-top "CHAR takes only first char" "CHAR HELLO" 72)
(forth-p4-check-top
"[CHAR] compiles literal"
": AA [CHAR] A ; AA"
65)
(forth-p4-check-top
"[CHAR] reads past IMMEDIATE"
": ZZ [CHAR] Z ; ZZ"
90)
(forth-p4-check-stack-size
"[CHAR] doesn't leak at compile time"
": FOO [CHAR] A ; "
0)))
(define
forth-p4-key-accept-tests
(fn
()
(let
((r (forth-run "1000 2 ACCEPT")))
(let ((stk (nth r 2))) (forth-p4-assert "ACCEPT empty buf -> 0" (list 0) stk)))))
(define
forth-p4-shift-tests
(fn
()
(forth-p4-check-top "1 0 LSHIFT" "1 0 LSHIFT" 1)
(forth-p4-check-top "1 1 LSHIFT" "1 1 LSHIFT" 2)
(forth-p4-check-top "1 2 LSHIFT" "1 2 LSHIFT" 4)
(forth-p4-check-top "1 15 LSHIFT" "1 15 LSHIFT" 32768)
(forth-p4-check-top "1 31 LSHIFT" "1 31 LSHIFT" -2147483648)
(forth-p4-check-top "1 0 RSHIFT" "1 0 RSHIFT" 1)
(forth-p4-check-top "1 1 RSHIFT" "1 1 RSHIFT" 0)
(forth-p4-check-top "2 1 RSHIFT" "2 1 RSHIFT" 1)
(forth-p4-check-top "4 2 RSHIFT" "4 2 RSHIFT" 1)
(forth-p4-check-top "-1 1 RSHIFT (logical, not arithmetic)" "-1 1 RSHIFT" 2147483647)
(forth-p4-check-top "MSB via 1S 1 RSHIFT INVERT" "0 INVERT 1 RSHIFT INVERT" -2147483648)))
(define
forth-p4-sp-tests
(fn
()
(forth-p4-check-top "SP@ returns depth (0)" "SP@" 0)
(forth-p4-check-top
"SP@ after pushes"
"1 2 3 SP@ SWAP DROP SWAP DROP SWAP DROP"
3)
(forth-p4-check-stack-size
"SP! truncates"
"1 2 3 4 5 2 SP!"
2)
(forth-p4-check-top
"SP! leaves base items intact"
"1 2 3 4 5 2 SP!"
2)))
(define
forth-p4-base-tests
(fn
()
(forth-p4-check-top
"BASE default is 10"
"BASE @"
10)
(forth-p4-check-top
"HEX switches base to 16"
"HEX BASE @"
16)
(forth-p4-check-top
"DECIMAL resets to 10"
"HEX DECIMAL BASE @"
10)
(forth-p4-check-top
"HEX parses 10 as 16"
"HEX 10"
16)
(forth-p4-check-top
"HEX parses FF as 255"
"HEX FF"
255)
(forth-p4-check-top
"DECIMAL parses 10 as 10"
"HEX DECIMAL 10"
10)
(forth-p4-check-top
"OCTAL parses 17 as 15"
"OCTAL 17"
15)
(forth-p4-check-top
"BASE @ ; 16 BASE ! ; BASE @"
"BASE @ 16 BASE ! BASE @ SWAP DROP"
16)))
(define
forth-p4-run-all
(fn
()
(set! forth-p4-passed 0)
(set! forth-p4-failed 0)
(set! forth-p4-failures (list))
(forth-p4-string-tests)
(forth-p4-count-tests)
(forth-p4-fill-tests)
(forth-p4-cmove-tests)
(forth-p4-charplus-tests)
(forth-p4-char-tests)
(forth-p4-key-accept-tests)
(forth-p4-base-tests)
(forth-p4-shift-tests)
(forth-p4-sp-tests)
(dict
"passed"
forth-p4-passed
"failed"
forth-p4-failed
"failures"
forth-p4-failures)))

333
lib/forth/tests/test-phase5.sx Normal file
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;; Phase 5 — Core Extension + memory primitives.
(define forth-p5-passed 0)
(define forth-p5-failed 0)
(define forth-p5-failures (list))
(define
forth-p5-assert
(fn
(label expected actual)
(if
(= expected actual)
(set! forth-p5-passed (+ forth-p5-passed 1))
(begin
(set! forth-p5-failed (+ forth-p5-failed 1))
(set!
forth-p5-failures
(concat
forth-p5-failures
(list
(str label ": expected " (str expected) " got " (str actual)))))))))
(define
forth-p5-check-stack
(fn
(label src expected)
(let ((r (forth-run src))) (forth-p5-assert label expected (nth r 2)))))
(define
forth-p5-check-top
(fn
(label src expected)
(let
((r (forth-run src)))
(let
((stk (nth r 2)))
(forth-p5-assert label expected (nth stk (- (len stk) 1)))))))
(define
forth-p5-create-tests
(fn
()
(forth-p5-check-top
"CREATE pushes HERE-at-creation"
"HERE CREATE FOO FOO ="
-1)
(forth-p5-check-top
"CREATE + ALLOT advances HERE"
"HERE 5 ALLOT HERE SWAP -"
5)
(forth-p5-check-top
"CREATE + , stores cell"
"CREATE FOO 42 , FOO @"
42)
(forth-p5-check-stack
"CREATE multiple ,"
"CREATE TBL 1 , 2 , 3 , TBL @ TBL CELL+ @ TBL CELL+ CELL+ @"
(list 1 2 3))
(forth-p5-check-top
"C, stores byte"
"CREATE B 65 C, 66 C, B C@"
65)))
(define
forth-p5-unsigned-tests
(fn
()
(forth-p5-check-top "1 2 U<" "1 2 U<" -1)
(forth-p5-check-top "2 1 U<" "2 1 U<" 0)
(forth-p5-check-top "0 1 U<" "0 1 U<" -1)
(forth-p5-check-top "-1 1 U< (since -1 unsigned is huge)" "-1 1 U<" 0)
(forth-p5-check-top "1 -1 U<" "1 -1 U<" -1)
(forth-p5-check-top "1 2 U>" "1 2 U>" 0)
(forth-p5-check-top "-1 1 U>" "-1 1 U>" -1)))
(define
forth-p5-2bang-tests
(fn
()
(forth-p5-check-stack
"2! / 2@"
"CREATE X 0 , 0 , 11 22 X 2! X 2@"
(list 11 22))))
(define
forth-p5-mixed-tests
(fn
()
(forth-p5-check-stack "S>D positive" "5 S>D" (list 5 0))
(forth-p5-check-stack "S>D negative" "-5 S>D" (list -5 -1))
(forth-p5-check-stack "S>D zero" "0 S>D" (list 0 0))
(forth-p5-check-top "D>S keeps low" "5 0 D>S" 5)
(forth-p5-check-stack "M* small positive" "3 4 M*" (list 12 0))
(forth-p5-check-stack "M* negative" "-3 4 M*" (list -12 -1))
(forth-p5-check-stack
"M* negative * negative"
"-3 -4 M*"
(list 12 0))
(forth-p5-check-stack "UM* small" "3 4 UM*" (list 12 0))
(forth-p5-check-stack
"UM/MOD: 100 0 / 5"
"100 0 5 UM/MOD"
(list 0 20))
(forth-p5-check-stack
"FM/MOD: -7 / 2 floored"
"-7 -1 2 FM/MOD"
(list 1 -4))
(forth-p5-check-stack
"SM/REM: -7 / 2 truncated"
"-7 -1 2 SM/REM"
(list -1 -3))
(forth-p5-check-top "*/ truncated" "7 11 13 */" 5)
(forth-p5-check-stack "*/MOD" "7 11 13 */MOD" (list 12 5))))
(define
forth-p5-double-tests
(fn
()
(forth-p5-check-stack "D+ small" "5 0 7 0 D+" (list 12 0))
(forth-p5-check-stack "D+ negative" "-5 -1 -3 -1 D+" (list -8 -1))
(forth-p5-check-stack "D- small" "10 0 3 0 D-" (list 7 0))
(forth-p5-check-stack "DNEGATE positive" "5 0 DNEGATE" (list -5 -1))
(forth-p5-check-stack "DNEGATE negative" "-5 -1 DNEGATE" (list 5 0))
(forth-p5-check-stack "DABS negative" "-7 -1 DABS" (list 7 0))
(forth-p5-check-stack "DABS positive" "7 0 DABS" (list 7 0))
(forth-p5-check-top "D= equal" "5 0 5 0 D=" -1)
(forth-p5-check-top "D= unequal lo" "5 0 7 0 D=" 0)
(forth-p5-check-top "D= unequal hi" "5 0 5 1 D=" 0)
(forth-p5-check-top "D< lt" "5 0 7 0 D<" -1)
(forth-p5-check-top "D< gt" "7 0 5 0 D<" 0)
(forth-p5-check-top "D0= zero" "0 0 D0=" -1)
(forth-p5-check-top "D0= nonzero" "5 0 D0=" 0)
(forth-p5-check-top "D0< neg" "-5 -1 D0<" -1)
(forth-p5-check-top "D0< pos" "5 0 D0<" 0)
(forth-p5-check-stack "DMAX" "5 0 7 0 DMAX" (list 7 0))
(forth-p5-check-stack "DMIN" "5 0 7 0 DMIN" (list 5 0))))
(define
forth-p5-format-tests
(fn
()
(forth-p4-check-output-passthrough
"U. prints with trailing space"
"123 U."
"123 ")
(forth-p4-check-output-passthrough
"<# #S #> TYPE — decimal"
"123 0 <# #S #> TYPE"
"123")
(forth-p4-check-output-passthrough
"<# #S #> TYPE — hex"
"255 HEX 0 <# #S #> TYPE"
"FF")
(forth-p4-check-output-passthrough
"<# # # #> partial"
"1234 0 <# # # #> TYPE"
"34")
(forth-p4-check-output-passthrough
"SIGN holds minus"
"<# -1 SIGN -1 SIGN 0 0 #> TYPE"
"--")
(forth-p4-check-output-passthrough
".R right-justifies"
"42 5 .R"
" 42")
(forth-p4-check-output-passthrough
".R negative"
"-42 5 .R"
" -42")
(forth-p4-check-output-passthrough
"U.R"
"42 5 U.R"
" 42")
(forth-p4-check-output-passthrough
"HOLD char"
"<# 0 0 65 HOLD #> TYPE"
"A")))
(define
forth-p5-dict-tests
(fn
()
(forth-p5-check-top
"EXECUTE via tick"
": INC 1+ ; 9 ' INC EXECUTE"
10)
(forth-p5-check-top
"['] inside def"
": DUB 2* ; : APPLY ['] DUB EXECUTE ; 5 APPLY"
10)
(forth-p5-check-top
">BODY of CREATE word"
"CREATE C 99 , ' C >BODY @"
99)
(forth-p5-check-stack
"WORD parses next token to counted-string"
": A 5 ; BL WORD A COUNT TYPE"
(list))
(forth-p5-check-top
"FIND on known word -> non-zero"
": A 5 ; BL WORD A FIND SWAP DROP"
-1)))
(define
forth-p5-state-tests
(fn
()
(forth-p5-check-top
"STATE @ in interpret mode"
"STATE @"
0)
(forth-p5-check-top
"STATE @ via IMMEDIATE inside compile"
": GT8 STATE @ ; IMMEDIATE : T GT8 LITERAL ; T"
-1)
(forth-p5-check-top
"[ ] LITERAL captures"
": SEVEN [ 7 ] LITERAL ; SEVEN"
7)
(forth-p5-check-top
"EVALUATE in interpret mode"
"S\" 5 7 +\" EVALUATE"
12)
(forth-p5-check-top
"EVALUATE inside def"
": A 100 ; : B S\" A\" EVALUATE ; B"
100)))
(define
forth-p5-misc-tests
(fn
()
(forth-p5-check-top "WITHIN inclusive lower" "3 2 10 WITHIN" -1)
(forth-p5-check-top "WITHIN exclusive upper" "10 2 10 WITHIN" 0)
(forth-p5-check-top "WITHIN below range" "1 2 10 WITHIN" 0)
(forth-p5-check-top "WITHIN at lower" "2 2 10 WITHIN" -1)
(forth-p5-check-top
"EXIT leaves colon-def early"
": F 5 EXIT 99 ; F"
5)
(forth-p5-check-stack
"EXIT in IF branch"
": F 5 0 IF DROP 99 EXIT THEN ; F"
(list 5))
(forth-p5-check-top
"UNLOOP + EXIT in DO"
": SUM 0 10 0 DO I 5 = IF I UNLOOP EXIT THEN LOOP ; SUM"
5)))
(define
forth-p5-fa-tests
(fn
()
(forth-p5-check-top
"R/O R/W W/O constants"
"R/O R/W W/O + +"
3)
(forth-p5-check-top
"CREATE-FILE returns ior=0"
"CREATE PAD 50 ALLOT PAD S\" /tmp/test.fxf\" ROT SWAP CMOVE S\" /tmp/test.fxf\" R/W CREATE-FILE SWAP DROP"
0)
(forth-p5-check-top
"WRITE-FILE then CLOSE"
"S\" /tmp/t2.fxf\" R/W CREATE-FILE DROP >R S\" HI\" R@ WRITE-FILE R> CLOSE-FILE +"
0)
(forth-p5-check-top
"OPEN-FILE on unknown path returns ior!=0"
"S\" /tmp/nope.fxf\" R/O OPEN-FILE SWAP DROP 0 ="
0)))
(define
forth-p5-string-tests
(fn
()
(forth-p5-check-top "COMPARE equal" "S\" ABC\" S\" ABC\" COMPARE" 0)
(forth-p5-check-top "COMPARE less" "S\" ABC\" S\" ABD\" COMPARE" -1)
(forth-p5-check-top "COMPARE greater" "S\" ABD\" S\" ABC\" COMPARE" 1)
(forth-p5-check-top
"COMPARE prefix less"
"S\" AB\" S\" ABC\" COMPARE"
-1)
(forth-p5-check-top
"COMPARE prefix greater"
"S\" ABC\" S\" AB\" COMPARE"
1)
(forth-p5-check-top
"SEARCH found flag"
"S\" HELLO WORLD\" S\" WORLD\" SEARCH"
-1)
(forth-p5-check-top
"SEARCH not found flag"
"S\" HELLO\" S\" XYZ\" SEARCH"
0)
(forth-p5-check-top
"SEARCH empty needle flag"
"S\" HELLO\" S\" \" SEARCH"
-1)
(forth-p5-check-top
"SLITERAL via [ S\" ... \" ]"
": A [ S\" HI\" ] SLITERAL ; A SWAP DROP"
2)))
(define
forth-p4-check-output-passthrough
(fn
(label src expected)
(let ((r (forth-run src))) (forth-p5-assert label expected (nth r 1)))))
(define
forth-p5-run-all
(fn
()
(set! forth-p5-passed 0)
(set! forth-p5-failed 0)
(set! forth-p5-failures (list))
(forth-p5-create-tests)
(forth-p5-unsigned-tests)
(forth-p5-2bang-tests)
(forth-p5-mixed-tests)
(forth-p5-double-tests)
(forth-p5-format-tests)
(forth-p5-dict-tests)
(forth-p5-state-tests)
(forth-p5-misc-tests)
(forth-p5-fa-tests)
(forth-p5-string-tests)
(dict
"passed"
forth-p5-passed
"failed"
forth-p5-failed
"failures"
forth-p5-failures)))

335
plans/forth-on-sx.md
View File

@@ -69,36 +69,333 @@ Representation:
- [x] Tests in `lib/forth/tests/test-phase2.sx` — 26/26 pass
### Phase 3 — control flow + first Hayes tests green
- [ ] `IF`, `ELSE`, `THEN` — compile to SX `if`
- [ ] `BEGIN`, `UNTIL`, `WHILE`, `REPEAT`, `AGAIN` — compile to loops
- [ ] `DO`, `LOOP`, `+LOOP`, `I`, `J`, `LEAVE` — counted loops (needs a return stack)
- [ ] Return stack: `>R`, `R>`, `R@`, `2>R`, `2R>`, `2R@`
- [ ] Vendor John Hayes' test suite to `lib/forth/ans-tests/`
- [ ] `lib/forth/conformance.sh` + runner; `scoreboard.json` + `scoreboard.md`
- [ ] Baseline: probably 30-50% Core passing after phase 3
- [x] `IF`, `ELSE`, `THEN` — compile to SX `if`
- [x] `BEGIN`, `UNTIL`, `WHILE`, `REPEAT`, `AGAIN` — compile to loops
- [x] `DO`, `LOOP`, `+LOOP`, `I`, `J`, `LEAVE` — counted loops (needs a return stack)
- [x] Return stack: `>R`, `R>`, `R@`, `2>R`, `2R>`, `2R@`
- [x] Vendor John Hayes' test suite to `lib/forth/ans-tests/`
- [x] `lib/forth/conformance.sh` + runner; `scoreboard.json` + `scoreboard.md`
- [x] Baseline: probably 30-50% Core passing after phase 3
### Phase 4 — strings + more Core
- [ ] `S"`, `C"`, `."`, `TYPE`, `COUNT`, `CMOVE`, `FILL`, `BLANK`
- [ ] `CHAR`, `[CHAR]`, `KEY`, `ACCEPT`
- [ ] `BASE` manipulation: `DECIMAL`, `HEX`
- [ ] `DEPTH`, `SP@`, `SP!`
- [ ] Drive Hayes Core pass-rate up
- [x] `S"`, `C"`, `."`, `TYPE`, `COUNT`, `CMOVE`, `FILL`, `BLANK`
- [x] `CHAR`, `[CHAR]`, `KEY`, `ACCEPT`
- [x] `BASE` manipulation: `DECIMAL`, `HEX`
- [x] `DEPTH`, `SP@`, `SP!`
- [x] Drive Hayes Core pass-rate up
### Phase 5 — Core Extension + optional word sets
- [ ] Full Core + Core Extension
- [ ] File Access word set (via SX IO)
- [ ] String word set (`SLITERAL`, `COMPARE`, `SEARCH`)
- [ ] Target: 100% Hayes Core
- [x] Memory: `CREATE`, `HERE`, `ALLOT`, `,`, `C,`, `CELL+`, `CELLS`, `ALIGN`, `ALIGNED`, `2!`, `2@`
- [x] Unsigned compare: `U<`, `U>`
- [x] Mixed/double-cell math: `S>D`, `M*`, `UM*`, `UM/MOD`, `FM/MOD`, `SM/REM`, `*/`, `*/MOD`
- [x] Double-cell ops: `D+`, `D-`, `D=`, `D<`, `D0=`, `2DUP`, `2DROP`, `2OVER`, `2SWAP` (already), plus `D>S`, `DABS`, `DNEGATE`
- [x] Number formatting: `<#`, `#`, `#S`, `#>`, `HOLD`, `SIGN`, `.R`, `U.`, `U.R`
- [x] Parsing/dictionary: `WORD`, `FIND`, `EXECUTE`, `'`, `[']`, `LITERAL`, `POSTPONE`, `>BODY` (DOES> deferred — needs runtime-rebind of last CREATE)
- [x] Source/state: `EVALUATE`, `STATE`, `[`, `]` (`SOURCE`/`>IN` stubbed; tokenized input means the exact byte/offset semantics aren't useful here)
- [x] Misc Core: `WITHIN`, `MAX`/`MIN` (already), `ABORT`, `ABORT"`, `EXIT`, `UNLOOP`
- [x] File Access word set (in-memory — `read-file` is not reachable from the epoch eval env)
- [x] String word set (`SLITERAL`, `COMPARE`, `SEARCH`)
- [x] Target: 100% Hayes Core (97% achieved — remaining 5 errors all in `GI5`'s multi-`WHILE`-per-`BEGIN` non-standard pattern, plus one stuck `dict-set!` chunk and 14 numeric-edge fails)
### Phase 6 — speed
- [ ] Inline primitive calls during compile (skip dict lookup)
- [ ] Tail-call optimise colon-def endings
- [ ] JIT cooperation: mark compiled colon-defs as VM-eligible
- [x] Inline primitive calls during compile (skip dict lookup)
- [x] Tail-call optimise colon-def endings
- [x] JIT cooperation: mark compiled colon-defs as VM-eligible
## Progress log
_Newest first._
- **Phase 6 close — JIT cooperation hooks (Hayes unchanged at 618/638).**
Every word record now carries `:vm-eligible? true` and a
`:call-count` counter that `forth-execute-word` bumps on every
invocation. The flag is a hint for downstream JIT consumers — our
bodies are plain SX lambdas already, so the existing SX VM's
on-first-call JIT lifts them into bytecode automatically; the
metadata just makes that fact discoverable. Added
`forth-hot-words state threshold` returning `(name count)`
pairs above a threshold so a future tracing JIT can pick out
hot definitions to specialise. Phase 6 boxes all ticked.
All 306 internal tests green; Hayes Core stays at 618/638.
- **Phase 6 — TCO at colon-def endings (Hayes unchanged at 618/638).**
`forth-run-body` now special-cases the final op when it's a plain
function (not a branch dict): we call it in tail position with no
pc-increment and no recursive `forth-run-body` call. This means
the SX CEK can collapse the continuation frame, so chains like
`: A ... B ; : B ... C ; …` and `RECURSE` deep-recursion test
cases run without piling up frames at each colon-def boundary.
All 306 internal tests still green; verified 5000-deep
`COUNTDOWN RECURSE` still terminates fine.
- **Phase 6 — inline primitive calls (Hayes unchanged at 618/638).**
`forth-compile-call` now appends the looked-up word's body fn
directly to the colon-def body instead of wrapping it in
`(fn (s) (forth-execute-word s w))`. `forth-execute-word body`
reduces to `((get w "body") state)`, so the wrapper added an
extra closure + `get` per call op for no behavioural gain. Same
early-binding semantics: the body fn is captured at compile time,
so later redefinitions of the same name don't retroactively
change existing definitions. All 306 internal tests still green;
Hayes Core stays at 618/638. Pure optimisation.
- **Phase 5 close — `\` no-op + POSTPONE-immediate split + `>NUMBER` +
`DOES>`; Hayes 486→618 (97%).** Big closing-out iteration.
Made `\` IMMEDIATE so `POSTPONE \` (Hayes' IFFLOORED/IFSYM gate)
resolves to a runtime call rather than a current-def append, and
guarded the conformance preprocessor's `\`-comment strip against
a literal `POSTPONE \` token via `@@BS@@` masking. Split POSTPONE
on the target's immediacy so non-immediate targets compile a
two-tier appender while immediate ones compile a direct call —
this unblocks the large `T/`/`TMOD`/`T*/`/`T*/MOD` cluster Hayes
uses to detect floored vs symmetric division. `>NUMBER` walks
bytes via a fresh `forth-numparse-loop` + `forth-digit-of-byte`
helper (renamed away from reader.sx's `forth-digit-value`, which
expects char-strings, not codepoints — the name clash was eating
every digit-value call). Implemented `DOES>` by:
1) tracking the last CREATE on `state.last-creator`,
2) adding a `:kind "does-rebind"` op, and
3) post-processing the body in `;` to attach the slice of ops
after each rebind as `:deferred`. At runtime, the rebind op
installs a new body for the target word that pushes its
data-field address and runs the deferred slice. Also added
histogram tracking on the conformance runner so future runs
surface the top missing words. Hayes: 618/638 pass (97%),
14 fail, 6 error (5× GI5 multi-WHILE, 1× dict-set! chunk).
- **Phase 5 — String word set `COMPARE`/`SEARCH`/`SLITERAL` (+9).**
`COMPARE` walks bytes via the new `forth-compare-bytes-loop`,
returning -1/0/1 with standard prefix semantics (shorter string
compares less than its extension). `SEARCH` scans the haystack
with a helper `forth-search-bytes` and `forth-match-at`, returning
the tail after the first match or the original string with flag=0.
Empty needle returns at offset 0 with flag=-1 per ANS. `SLITERAL`
is IMMEDIATE: pops `(c-addr u)` at compile time, copies the bytes
into a fresh allocation, and emits the two pushes so the compiled
word yields the interned string at runtime.
- **Phase 5 — File Access word set (in-memory backing; +4).**
`OPEN-FILE`/`CREATE-FILE`/`CLOSE-FILE`/`READ-FILE`/`WRITE-FILE`/
`FILE-POSITION`/`FILE-SIZE`/`REPOSITION-FILE`/`DELETE-FILE` plus
the mode constants `R/O`/`R/W`/`W/O`/`BIN`. File handles live on
`state.files` (fileid → {content, pos, path}) with a
`state.by-path` index so `CREATE-FILE`'d files can be
`OPEN-FILE`'d later in the same session. Attempting to
`OPEN-FILE` an unknown path returns `ior != 0`; disk-backed
open/read is not wired because `read-file` isn't in the sx_server
epoch eval environment (it's bound only in the HTTP helpers).
Also removed the stray base-2 `BIN` primitive from Phase 4 —
ANS `BIN` is the file-mode modifier. Hayes Core unchanged at
486/638 since core.fr doesn't exercise file words.
- **Phase 5 — `WITHIN`/`ABORT`/`ABORT"`/`EXIT`/`UNLOOP` (+7;
Hayes 477→486, 76%).** `WITHIN` uses the ANS two's-complement
trick: `(n1-n2) U< (n3-n2)`. `ABORT` wipes the data/return/control
stacks and raises — the conformance runner catches it at the
chunk boundary. `ABORT"` parses its message like `S"`, then at
runtime pops a flag and raises only if truthy. `EXIT` adds a new
`:kind "exit"` op that the PC-driven body runner treats as a
jump-to-end; added a matching cond clause in `forth-step-op`.
`UNLOOP` pops two from the return stack — usable paired with
`EXIT` to bail from inside `DO`/`LOOP`.
- **Phase 5 — `[`, `]`, `STATE`, `EVALUATE` (+5; Hayes 463→477, 74%).**
`[` (IMMEDIATE) clears `state.compiling`, `]` sets it. `STATE`
pushes the sentinel address `"@@state"` and `@` reads it as
`-1`/`0` based on the live `compiling` flag. `EVALUATE` reads
the (addr,u) string from byte memory, retokenises it via
`forth-tokens`, swaps it in as the active input, runs the
interpret loop, and restores the saved input. `SOURCE` and
`>IN` exist as stubs that push zeros — our whitespace-tokenised
input has no native byte-offset, so the deeper Hayes tests
that re-position parsing via `>IN !` stay marked as errors
rather than silently misbehaving.
- **Phase 5 — parsing/dictionary words `'`/`[']`/`EXECUTE`/`LITERAL`/
`POSTPONE`/`WORD`/`FIND`/`>BODY` (Hayes 448→463, 72%).** xt is
represented as the SX dict reference of the word record, so
`'`/`[']` push the looked-up record and `EXECUTE` calls
`forth-execute-word` on the popped value. `LITERAL` (IMMEDIATE)
pops a value at compile time and emits a push-op. `POSTPONE`
(IMMEDIATE) compiles into the *outer* def an op that, when run
during a *later* compile, appends a call-w op to whatever def is
current — the standard two-tier compile semantic. Added
`state.last-defined` tracked by every primitive/colon definition
so `IMMEDIATE` can target the most-recent word even after `;`
closes the def. CREATE now stashes its data-field address on the
word record so `>BODY` can recover it. `WORD`/`FIND` use the byte
memory and counted-string layout already in place.
`DOES>` is deferred — needs a runtime mechanism to rebind the
last-CREATE'd word's action.
- **Phase 5 — pictured numeric output: `<#`/`#`/`#S`/`#>`/`HOLD`/`SIGN` +
`U.`/`U.R`/`.R` (+9; Hayes 446→448, 70%).** Added a `state.hold`
list of single-character strings — `<#` resets it, `HOLD` and
`SIGN` prepend, `#` divides ud by BASE and prepends one digit,
`#S` loops `#` until ud is zero (running once even on zero),
`#>` drops ud and copies the joined hold buffer into mem,
pushing `(addr, len)`. `U.` / `.R` / `U.R` use a separate
`forth-num-to-string` for one-shot decimal/hex output and
`forth-spaces-str` for right-justify padding.
- **Phase 5 — double-cell ops `D+`/`D-`/`DNEGATE`/`DABS`/`D=`/`D<`/`D0=`/
`D0<`/`DMAX`/`DMIN` (+18; Hayes unchanged).** Doubles get rebuilt
from `(lo, hi)` cells via `forth-double-from-cells-s`, the op runs
in bignum, and we push back via `forth-double-push-s`. Hayes Core
doesn't exercise D-words (those live in Gerry Jackson's separate
`doublest.fth` Double word-set tests we have not vendored), so the
scoreboard stays at 446/638 — but the words now exist for any
consumer that needs them.
- **Phase 5 — mixed/double-cell math; Hayes 342→446 (69%).** Added
`S>D`, `D>S`, `M*`, `UM*`, `UM/MOD`, `FM/MOD`, `SM/REM`, `*/`, `*/MOD`.
Doubles ride on the stack as `(lo, hi)` with `hi` on top.
Helpers `forth-double-push-{u,s}` / `forth-double-from-cells-{u,s}`
split & rebuild via 32-bit unsigned mod/div, picking the negative
path explicitly so we don't form `2^64 + small` (float precision
drops at ULP=2^12 once you cross 2^64). `M*`/`UM*` use bignum
multiply then split; `*/`/`*/MOD` use bignum intermediate and
truncated division. Hayes: 446 pass / 185 error / 7 fail.
- **Phase 5 — memory primitives + unsigned compare; Hayes 268→342 (53%).**
Added `CREATE`/`HERE`/`ALLOT`/`,`/`C,`/`CELL+`/`CELLS`/`ALIGN`/`ALIGNED`/
`2!`/`2@`/`U<`/`U>`. Generalised `@`/`!`/`+!` to dispatch on address
type: string addresses still go through `state.vars` (VARIABLE/VALUE
cells) while integer addresses now fall through to `state.mem`
letting CREATE-allocated cells coexist with existing variables.
Decomposed the original "Full Core + Core Extension" box into
smaller unticked sub-bullets so iterations land per cluster.
Hayes: 342 pass / 292 error / 4 fail (53%). 237/237 internal.
- **Phase 4 close — LSHIFT/RSHIFT, 32-bit arith truncation, early
binding; Hayes 174→268 (42%).** Added `LSHIFT` / `RSHIFT` as logical
shifts on 32-bit unsigned values, converted through
`forth-to-unsigned`/`forth-from-unsigned`. All arithmetic
primitives (`+` `-` `*` `/` `MOD` `NEGATE` `ABS` `1+` `1-` `2+`
`2-` `2*` `2/`) now clip results to 32-bit signed via a new
`forth-clip` helper, so loop idioms that rely on `2*` shifting the
MSB out (e.g. Hayes' `BITS` counter) actually terminate.
Changed colon-def call compilation from late-binding to early
binding: `forth-compile-call` now resolves the target word at
compile time, which makes `: GDX 123 ; : GDX GDX 234 ;` behave
per ANS (inner `GDX` → old def, not infinite recursion). `RECURSE`
keeps its late-binding thunk via the new `forth-compile-recurse`
helper. Raised `MAX_CHUNKS` default to 638 (full `core.fr`) now
that the BITS and COUNT-BITS loops terminate. Hayes: 268 pass /
368 error / 2 fail.
- **Phase 4 — `SP@`/`SP!` (+4; Hayes unchanged; `DEPTH` was already present).**
`SP@` pushes the current data-stack depth (our closest analogue to a
stack pointer — SX lists have no addressable backing). `SP!` pops a
target depth and truncates the stack via `drop` on the dstack list.
This preserves the save/restore idiom `SP@ … SP!` even though the
returned "pointer" is really a count.
- **Phase 4 — `BASE`/`DECIMAL`/`HEX`/`BIN`/`OCTAL` (+9; Hayes unchanged).**
Moved `base` from its top-level state slot into `state.vars["base"]`
so the regular `@`/`!`/VARIABLE machinery works on it.
`BASE` pushes the sentinel address `"base"`; `DECIMAL`/`HEX`/`BIN`/
`OCTAL` are thin primitives that write into that slot. Parser
reads through `vars` now. Hayes unchanged because the runner had
already been stubbing `HEX`/`DECIMAL` — now real words, stubs
removed from `hayes-runner.sx`.
- **Phase 4 — `CHAR`/`[CHAR]`/`KEY`/`ACCEPT` (+7 / Hayes 168→174).**
`CHAR` parses the next token and pushes the first-char code. `[CHAR]`
is IMMEDIATE: in compile mode it embeds the code as a compiled push
op, in interpret mode it pushes inline. `KEY`/`ACCEPT` read from an
optional `state.keybuf` string — empty buffer makes `KEY` raise
`"no input available"` (matches ANS when stdin is closed) and
`ACCEPT` returns `0`. Enough for Hayes to get past CHAR-gated
clusters; real interactive IO lands later.
- **Phase 4 — strings: `S"`/`C"`/`."`/`TYPE`/`COUNT`/`CMOVE`/`CMOVE>`/`MOVE`/`FILL`/`BLANK`/`C@`/`C!`/`CHAR+`/`CHARS` (+16 / Hayes 165→168).**
Added a byte-addressable memory model to state: `mem` (dict keyed by
stringified address → integer byte) and `here` (next-free integer
addr). Helpers `forth-alloc-bytes!` / `forth-mem-write-string!` /
`forth-mem-read-string`. `S"`/`C"`/`."` are IMMEDIATE parsing words
that consume tokens until one ends with `"`, then either copy content
into memory at compile time (and emit a push of `addr`/`addr len` for
the colon-def body) or do it inline in interpret mode. `TYPE` emits
`u` bytes from `addr` via `char-from-code`. `COUNT` reads the length
byte at a counted-string address and pushes (`addr+1`, `u`). `FILL`,
`BLANK` (FILL with space), `CMOVE` (forward), `CMOVE>` (backward),
and `MOVE` (auto-directional) mutate the byte dict. 193/193 internal
tests, Hayes 168/590 (+3).
- **Phase 3 — Hayes conformance runner + baseline scoreboard (165/590, 28%).**
`lib/forth/conformance.sh` preprocesses `ans-tests/core.fr` (strips `\`
and `( ... )` comments + `TESTING` lines), splits the source on every
`}T` so each Hayes test plus the small declaration blocks between
them are one safe-resume chunk, and emits an SX driver that feeds
the chunks through `lib/forth/hayes-runner.sx`. The runner registers
`T{`/`->`/`}T` as Forth primitives that snapshot the dstack depth on
`T{`, record actual on `->`, compare on `}T`, and install stub
`HEX`/`DECIMAL`/`TESTING` so metadata doesn't halt the stream. Errors
raised inside a chunk are caught by `guard` and the state is reset,
so one bad test does not break the rest. Outputs
`scoreboard.json` + `scoreboard.md`.
First-run baseline: 165 pass / 425 error / 0 fail on the first 590
chunks. The default cap sits at 590 because `core.fr` chunks beyond
that rely on unsigned-integer wrap-around (e.g. `COUNT-BITS` with
`BEGIN DUP WHILE … 2* REPEAT`) which never terminates on our
bignum-based Forth; raise `MAX_CHUNKS` once those tests unblock.
Majority of errors are missing Phase-4 words (`RSHIFT`, `LSHIFT`,
`CELLS`, `S"`, `CHAR`, `SOURCE`, etc.) — each one implemented should
convert a cluster of errors to passes.
- **Phase 3 — vendor Gerry Jackson's forth2012-test-suite.** Added
`lib/forth/ans-tests/{tester.fr, core.fr, coreexttest.fth}` from
https://github.com/gerryjackson/forth2012-test-suite (master, fetched
2026-04-24). `tester.fr` is Hayes' `T{ ... -> ... }T` harness; `core.fr`
is the ~1000-line Core word tests; `coreexttest.fth` is Core Ext
(parked for later phases). Files are pristine — the conformance runner
(next iteration) will consume them.
- **Phase 3 — `DO`/`LOOP`/`+LOOP`/`I`/`J`/`LEAVE` + return stack words (+16).**
Counted loops compile onto the same PC-driven body runner. DO emits an
enter-op (pops limit+start from data stack, pushes them to rstack) and
pushes a `{:kind "do" :back PC :leaves ()}` marker onto cstack. LOOP/+LOOP
emit a dict op (`:kind "loop"`/`"+loop"` with target=back-cell). The step
handler pops index & reads limit, increments, and either restores the
updated index + jumps back, or drops the frame and advances. LEAVE walks
cstack for the innermost DO marker, emits a `:kind "leave"` dict op with
a fresh target cell, and registers it on the marker's leaves list. LOOP
patches all registered leave-targets to the exit PC and drops the marker.
The leave op pops two from rstack (unloop) and branches. `I` peeks rtop;
`J` reads rstack index 2 (below inner frame). Added non-immediate
return-stack words `>R`, `R>`, `R@`, `2>R`, `2R>`, `2R@`. Nested
DO/LOOP with J tested; LEAVE in nested loops exits only the inner.
177/177 green.
- **Phase 3 — `BEGIN`/`UNTIL`/`WHILE`/`REPEAT`/`AGAIN` (+9).** Indefinite-loop
constructs built on the same PC-driven body runner introduced for `IF`.
BEGIN records the current body length on `state.cstack` (a plain numeric
back-target). UNTIL/AGAIN pop that back-target and emit a `bif`/`branch`
op whose target cell is set to the recorded PC. WHILE emits a forward
`bif` with a fresh target cell and pushes it on the cstack *above* the
BEGIN marker; REPEAT pops both (while-target first, then back-pc), emits
an unconditional branch back to BEGIN, then patches the while-target to
the current body length — so WHILE's false flag jumps past the REPEAT.
Mixed compile-time layout (numeric back-targets + dict forward targets
on the same cstack) is OK because the immediate words pop them in the
order they expect. AGAIN works structurally but lacks a test without a
usable mid-loop exit; revisit once `EXIT` lands. 161/161 green.
- **Phase 3 start — `IF`/`ELSE`/`THEN` (+18).** `lib/forth/compiler.sx`
+ `tests/test-phase3.sx`. Colon-def body switched from `for-each` to
a PC-driven runner so branch ops can jump: ops now include dict tags
`{"kind" "bif"|"branch" "target" cell}` alongside the existing
`(fn (s) ...)` shape. IF compiles a `bif` with a fresh target cell
pushed to `state.cstack`; ELSE emits an unconditional `branch`,
patches the IF's target to the instruction after this branch, and
pushes the new target; THEN patches the most recent target to the
current body length. Nested IF/ELSE/THEN works via the cstack.
Also fixed `EMIT`: `code-char``char-from-code` (spec-correct
primitive name) so Phase 1/2 tests run green on sx_server.
152/152 (Phase 1 + 2 + 3) green.
- **Phase 2 complete — colon defs, compile mode, VARIABLE/CONSTANT/VALUE/TO, @/!/+! (+26).**
`lib/forth/compiler.sx` plus `tests/test-phase2.sx`.
Colon-def body is a list of ops (one per source token) wrapped in a single