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of816/asm/fcode.s
2019-07-23 16:17:59 -07:00

1376 lines
42 KiB
ArmAsm

; FCode support
; Built-in (ROM) FTables overlap where possible to save space.
; FCode fetch is in assembly for speed. Most of the rest of the things are to support
; the "FCode" way of doing things, and managing the tables in RAM.
.define trace_fcode 0
; FCODE->XT tables
; Initially the FCode table pointers point to the ROM tables
; the tables are copy-on-write, whereupon each table will be copied to RAM when
; new-token or set-token are called. memory for the table will be via alloc-mem
; byte-load will also save the local fcode tables and temporarily reset the to the ROM
; tables
; end0 and end1 reset the local fcode tables to the ROM, freeing RAM used by them
; since the purpose of fcode is to be space-efficient, hopefully this results in
; space-efficiency
; Almost all of the non-reserved & non-historical FCodes from table 0 are implemented
; to some degree. Initially, INSTANCE is not supported but can be added later.
.proc fcrom0
FCIMM FCEND ; 0x00
FCIMM FERROR ; 0x01-0x0F = prefixes for other tables
FCIMM FERROR ; these wont normally be executed because an fcode
FCIMM FERROR ; fetch will never return one of thes
FCIMM FERROR ; that being said, get-token *will* return these
FCIMM FERROR ; entries
FCIMM FERROR
FCIMM FERROR
FCIMM FERROR
FCIMM FERROR
FCIMM FERROR
FCIMM FERROR
FCIMM FERROR
FCIMM FERROR
FCIMM FERROR
FCIMM FERROR
FCIMM B_LIT ; 0x10 b(lit)
FCIMM B_TICK ; b(')
FCIMM B_QUOTE ; b(")
FCIMM BBRANCH ; bbranch
FCIMM BQBRANCH ; b?branch
FCIMM B_LOOP ; b(loop)
FCIMM B_PLOOP ; b(+loop)
FCIMM B_DO ; b(do)
FCIMM B_QDO ; b(?do)
.dword IX
.dword JX
FCIMM B_LEAVE ; b(leave)
FCIMM B_OF ; b(of)
.dword EXECUTE
.dword PLUS
.dword MINUS
.dword MULT ; 0x20
.dword DIV
.dword MOD
.dword LAND
.dword LOR
.dword LXOR
.dword INVERT
.dword LSHIFT
.dword RSHIFT
.dword ARSHIFT
.dword DIVMOD
.dword UDIVMOD
.dword NEGATE
.dword ABS
.dword MIN
.dword MAX
.dword PtoR ; 0x30
.dword RtoP
.dword RCOPY
.dword DEXIT
.dword ZEROQ
.dword ZERONEQ
.dword ZEROLT
.dword ZEROLTE
.dword ZEROGT
.dword ZEROGTE
.dword SLT
.dword SGT
.dword EQUAL
.dword NOTEQUAL
.dword UGT
.dword ULTE
.dword ULT ; 0x40
.dword UGTE
.dword SGTE
.dword SLTE
.dword BETWEEN
.dword WITHIN
.dword DROP
.dword DUP
.dword OVER
.dword SWAP
.dword ROT
.dword NROT
.dword TUCK
.dword NIP
.dword PICK
.dword ROLL
.dword QDUP ; 0x50
.dword DEPTH
.dword TWODROP
.dword TWODUP
.dword TWOOVER
.dword TWOSWAP
.dword TWOROT
.dword TWODIV
.dword UTWODIV
.dword TWOMULT
.dword SCHAR
.dword SWORD
.dword SLONG
.dword SCELL
.dword CAPLUS
.dword WAPLUS
.dword LAPLUS ; 0x60
.dword NAPLUS
.dword CHARPLUS
.dword WAINCR
.dword LAINCR
.dword CELLPLUS
.dword CHARS
.dword SWORDMULT
.dword SLONGMULT
.dword CELLS
.dword ON
.dword OFF
.dword PSTORE
.dword FETCH
.dword LFETCH
.dword WFETCH
.dword WFETCHS ; 0x70
.dword CFETCH
.dword STORE
.dword LSTORE
.dword WSTORE
.dword CSTORE
.dword TWOFETCH
.dword TWOSTORE
.dword MOVE
.dword FILL
.dword COMP
.dword NOOP
.dword LWSPLIT
.dword WLJOIN
.dword LBSPLIT
.dword BLJOIN
.dword WBFLIP ; 0x80
.dword UPC
.dword LCC
.dword PACK
.dword COUNT
.dword BODYr
.dword rBODY
.dword FCODE_REVISION
.dword SPAN
.dword UNLOOP
.dword EXPECT
.dword ALLOC
.dword FREE
.dword KEYQ
.dword KEY
.dword EMIT
.dword TYPE ; 0x90
.dword pCR
.dword CR
.dword NOUT
.dword NLINE
.dword PHOLD
.dword PBEGIN
.dword PUDONE
.dword PSIGN
.dword PUNUM
.dword PUNUMS
.dword UDOT
.dword UDOTR
.dword DOT
.dword DOTR
.dword DOTS
.dword BASE ; 0xA0
FCIMM FERROR ; historical CONVERT
.dword dNUMBER
.dword DIGIT
.dword MINUSONE
.dword ZERO
.dword ONE
.dword TWO
.dword THREE
.dword BL
.dword BS
.dword BELL
.dword BOUNDS
.dword HERE
.dword ALIGNED
.dword WBSPLIT
.dword BWJOIN ; 0xB0
FCIMM B_MARK ; b(<mark)
FCIMM B_RESOLVE ; b(>resolve)
FCIMM FERROR ; obsolete set-token-table
FCIMM FERROR ; obsolete set-table
.dword NEW_TOKEN
.dword NAMED_TOKEN
FCIMM B_COLON
FCIMM pVALUE ; subject to INSTANCE
FCIMM pVARIABLE ; subject to INSTANCE
FCIMM B_CONSTANT ; b(constant)
FCIMM pCREATE ; b(create) -> pCREATE
FCIMM pDEFER ; subject to INSTANCE
FCIMM pBUFFER ; subject to INSTANCE
FCIMM B_FIELD ; b(field)
FCIMM FERROR ; obsolete b(code) (re-use OK for native words?)
FCIMM FERROR ; INSTANCE ; 0xC0
FCIMM FERROR ; reserved
FCIMM SEMI ; B_SEMI, same as SEMI for now
FCIMM B_TO
FCIMM B_CASE ; b(case)
FCIMM B_ENDCASE ; b(endcase)
FCIMM B_ENDOF ; b(endof)
.dword PNUM
.dword PNUMS
.dword PDONE
.dword EXTERNAL_TOKEN
.dword dFIND
.dword OFFSET16
.dword EVALUATE
FCIMM FERROR
FCIMM FERROR
.dword CCOMMA ; 0xD0
.dword WCOMMA
.dword LCOMMA
.dword COMMA
.dword UMMULT
.dword UMDIVMOD
FCIMM FERROR
FCIMM FERROR
.dword DPLUS
.dword DMINUS
.dword GET_TOKEN
.dword SET_TOKEN
.dword STATE
.dword COMPILECOMMA
.dword BEHAVIOR
FCIMM FERROR ; 0xDF-0xEF reserved
FCIMM FERROR ; 0xE0
FCIMM FERROR
FCIMM FERROR
FCIMM FERROR
FCIMM FERROR
FCIMM FERROR
FCIMM FERROR
FCIMM FERROR
FCIMM FERROR
FCIMM FERROR
FCIMM FERROR
FCIMM FERROR
FCIMM FERROR
FCIMM FERROR
FCIMM FERROR
FCIMM FERROR
.dword START0 ; 0xF0
.dword START1
.dword START2
.dword START4
FCIMM FERROR ; 0xF4-0xFB reserved
FCIMM FERROR
FCIMM FERROR
FCIMM FERROR
FCIMM FERROR
FCIMM FERROR
FCIMM FERROR
FCIMM FERROR
FCIMM FERROR ; 0xFC explicitly FERROR
.dword VERSION1
FCIMM FERROR ; obsolete 4-byte-id
.dword FCEND ; 0xFF
.endproc
.proc fcrom2
FCIMM FERROR ; 0x200
FCIMM FERROR ; device-name
FCIMM FERROR ; my-args
FCIMM FERROR ; my-self
FCIMM FERROR ; find-package
FCIMM FERROR ; open-package
FCIMM FERROR ; close-package
FCIMM FERROR ; find-method
FCIMM FERROR ; call-package
FCIMM FERROR ; $call-parent
FCIMM FERROR ; my-parent
FCIMM FERROR ; ihandle>phandle
FCIMM FERROR ; reserved
FCIMM FERROR ; my-unit
FCIMM FERROR ; $call-method
FCIMM FERROR ; $open-package
FCIMM FERROR ; 0x210 historical processor-type
FCIMM FERROR ; historical firmware-version
FCIMM FERROR ; historical fcode-version
FCIMM FERROR ; alarm
.dword IS_USER_WORD ; (is-user-word)
.dword NOOP ; suspend-fcode, to be optionally replaced
.dword ABORT
.dword CATCH
.dword THROW
FCIMM FERROR ; user-abort
FCIMM FERROR ; get-my-property
FCIMM FERROR ; DECODE_INT
FCIMM FERROR ; DECODE_STRING
FCIMM FERROR ; get-inherited-property
FCIMM FERROR ; delete-property
FCIMM FERROR ; get-package-property
.dword CPEEK ; 0x220
.dword WPEEK
.dword LPEEK
.dword CPOKE
.dword WPOKE
.dword LPOKE
.dword WBFLIP
.dword LBFLIP
.dword LBFLIPS
FCIMM FERROR ; historical adr-mask
FCIMM FERROR
FCIMM FERROR
FCIMM FERROR
FCIMM FERROR
FCIMM FERROR
FCIMM FERROR
.dword dRBFETCH
.dword dRBSTORE
.dword dRWFETCH
.dword dRWSTORE
.dword dRLFETCH
.dword dRLSTORE
.dword WBFLIPS
.dword LWFLIPS
FCIMM FERROR ; probe
FCIMM FERROR ; probe-virtual
FCIMM FERROR ; reserved
FCIMM FERROR ; child
FCIMM FERROR ; peer
FCIMM FERROR ; next-property
.dword BYTE_LOAD
FCIMM FERROR ; set-args
.dword LEFT_PARSE_STRING
.repeat $aa
FCIMM FERROR ; remaining are reserved
.endrepeat
; the last 15 XTs overlap with fcrom1 to save space
.endproc
.proc fcrom1
FCIMM FERROR ; 0x100 reserved
FCIMM FERROR ; dma-alloc
FCIMM FERROR ; my-address
FCIMM FERROR ; my-space
FCIMM FERROR ; historical memmap
FCIMM FERROR ; free-virtual
FCIMM FERROR ; historical >physical
FCIMM FERROR ; 0x107-0x10E reserved
FCIMM FERROR
FCIMM FERROR
FCIMM FERROR
FCIMM FERROR
FCIMM FERROR
FCIMM FERROR
FCIMM FERROR
FCIMM FERROR ; my-params
FCIMM FERROR ; 0x110 PROPERTY
FCIMM FERROR ; ENCODE_INT
FCIMM FERROR ; ENCODEPLUS
FCIMM FERROR ; ENCODE_PHYS
FCIMM FERROR ; ENCODE_STRING
FCIMM FERROR ; ENCODE_BYTES
FCIMM FERROR ; reg
FCIMM FERROR ; obsoluete intr
FCIMM FERROR ; driver
FCIMM FERROR ; model
FCIMM FERROR ; device-type
.dword PARSE_2INT ; 0x11b
; the rest are unimplemented in the ROM, need to be installed later
; and overlap with fcromnone
.endproc
.proc fcromnone
.repeat 256
FCIMM FERROR
.endrepeat
.endproc
fcrom3 = fcromnone ; reserved
fcrom4 = fcromnone ; reserved
fcrom5 = fcromnone ; reserved
fcrom6 = fcromnone ; vendor
fcrom7 = fcromnone ; vendor
fcrom8 = fcromnone ; local codes table 8-f
fcrom9 = fcromnone
fcroma = fcromnone
fcromb = fcromnone
fcromc = fcromnone
fcromd = fcromnone
fcrome = fcromnone
fcromf = fcromnone
.proc fc_romtab
FCROM fcrom0
FCROM fcrom1
FCROM fcrom2
FCROM fcrom3
FCROM fcrom4
FCROM fcrom5
FCROM fcrom6
FCROM fcrom7
FCROM fcrom8
FCROM fcrom9
FCROM fcroma
FCROM fcromb
FCROM fcromc
FCROM fcromd
FCROM fcrome
FCROM fcromf
.endproc
; headerless words related to FCode evaluation
; ( -- c-addr f )
; Get the pointer to the current FCode tables, and a flag if the table is in ROM
xdword GET_FTABLES
ENTER
.dword dFCODE_TABLES
dof: .dword FETCH
.dword DUP
ONLIT $7FFFFFFF
.dword LAND
.dword SWAP
ONLIT FC_ROMFLAG
.dword LAND
EXIT
exdword
; ( u -- c-addr )
; Get the address of a specific FCode table pointer
; e.g. if u is 1, get the cell containing the address of the table for $1xx
; FCodes
xdword GET_FTABLE_PADDR
ENTER
ONLIT $F
.dword LAND
.dword GET_FTABLES
.dword DROP
.dword SWAP
.dword NAPLUS
EXIT
exdword
; ( -- )
; Copy the ROM FCode table list to RAM in preparation for it to be modified
; by set-token, new-token, etc.
xdword SET_MUTABLE_FTABLES
ENTER
.dword GET_FTABLES ; ( -- c-addr f )
.dword _IF ; ( c-addr f -- c-addr )
.dword already ; false branch if already in RAM
ONLIT 16*4 ; ( c-addr -- c-addr u ) 16 tables, 4 bytes per pointer
.dword DUP ; ( c-addr u -- c-addr u1 u2 )
.dword ALLOC ; ( c-addr u1 u2 -- c-addr1 u1 c-addr2 )
.dword PtoR ; ( c-addr1 u1 c-addr2 -- c-addr1 u1 ) ( R: -- c-addr2 )
.dword RCOPY ; ( ... c-addr1 u1 c-addr2 )
.dword SWAP ; ( ... c-addr1 c-addr2 u1 )
.dword MOVE ; ( c-addr1 c-addr2 u1 -- )
.dword RtoP ; ( -- c-addr2 ) ( R: c-addr2 -- )
.dword dFCODE_TABLES ; ( c-addr2 -- c-addr2 c-addr3 )
.dword STORE ; ( c-addr2 c-addr3 -- )
EXIT
already: .dword DROP ; ( c-addr -- )
EXIT
exdword
; ( u -- a-addr f ) f = 1 if ROM table
xdword GET_FTABLE
ENTER
.dword GET_FTABLE_PADDR
JUMP GET_FTABLES::dof
exdword
; ( a-addr u -- )
; set table u address to a-addr
xdword SET_FTABLE
ENTER
.dword SET_MUTABLE_FTABLES ; ( a-addr u -- a-addr u )
.dword GET_FTABLE_PADDR ; ( a-addr u -- a-addr1 a-addr2 )
.dword STORE ; ( a-addr1 a-addr2 -- )
EXIT
exdword
; ( u -- a-addr )
; Get ROM ftable address for table u
xdword GET_ROM_FTABLE
ENTER
ONLIT fc_romtab
.dword SWAP
.dword NAPLUS
.dword FETCH
EXIT
exdword
; ( u -- )
; Force table u to the ROM table without freeing the existing RAM table
xdword FORCE_ROM_FTABLE
ENTER
.dword DUP ; ( u -- u1 u2 )
.dword GET_FTABLE ; ( u1 u2 -- u1 a-addr f )
.dword _IFFALSE ; ( u1 a-addr f -- u1 a-addr )
.dword already ; is true, already in ROM
.dword DROP ; ( .. u1 ) don't need current address
.dword DUP ; ( u1 -- u1 u2 )
.dword GET_ROM_FTABLE ; ( u1 u2 -- u1 a-addr )
.dword SWAP ; ( u1 a-addr -- a-addr u1 )
.dword SET_FTABLE ; ( a-addr u1 -- )
EXIT
already: .dword TWODROP ; ( u1 a-addr -- )
EXIT
exdword
; ( u -- )
; Set table u to the ROM table, freeing existing RAM table
xdword SET_ROM_FTABLE
ENTER
.dword DUP ; ( u -- u1 u2 )
.dword GET_FTABLE ; ( u1 u2 -- u1 a-addr f )
.dword _IFFALSE ; ( u1 a-addr f -- u1 a-addr )
.dword already ; is true, already in ROM
.dword ZERO ; ( ... u1 a-addr 0 )
.dword FREE ; ( ... u1 ) free existing RAM
.dword DUP ; ( u1 -- u1 u2 )
.dword GET_ROM_FTABLE ; ( u1 u2 -- u1 a-addr )
.dword SWAP ; ( u1 a-addr -- a-addr u1 )
.dword SET_FTABLE ; ( a-addr u1 -- )
EXIT
already: .dword TWODROP ; ( u1 a-addr -- )
EXIT
exdword
; ( u -- )
; Set table u to be a RAM table, allocating memory and copying the existing table
; do nothing if it is already a RAM table
xdword SET_RAM_FTABLE
ENTER
.dword PtoR ; ( u -- ) ( R: u )
.dword RCOPY ; ( -- u )
.dword GET_FTABLE ; ( u -- a-addr f )
.dword _IF ; ( a-addr f -- a-addr )
.dword already
doset: ONLIT $100*4 ; ( ... a-addr $400 )
.dword DUP ; ( ... a-addr $400 $400 )
.dword ALLOC ; ( ... a-addr1 $400 a-addr2 )
.dword PtoR ; ( ... a-addr1 $400 ) ( R: ... u a-addr2 )
.dword RCOPY ; ( ... a-addr1 $400 a-addr2 )
.dword SWAP ; ( ... a-addr1 a-addr2 $400 )
.dword MOVE ; ( a-addr1 a-addr2 $400 -- )
.dword RtoP ; ( -- a-addr2 )
.dword RtoP ; ( -- a-addr u )
.dword SET_FTABLE ; ( a-addr u -- )
EXIT
already: .dword RtoP
.dword TWODROP ; ( a-addr -- )
EXIT
exdword
; ( -- )
; set tables 0-7 to ROM tables, freeing any RAM tables
xdword SET_ROM_FTABLE_SYS
ENTER
ONLIT $7
set1: .dword DUP ; ( n -- n1 n2 )
.dword SET_ROM_FTABLE ; ( n1 n2 -- n1 )
.dword QDUP ; ( n1 -- 0 | n1 -- n1 n2 )
.dword _IF ; ( 0 -- | n1 n2 -- n1 )
.dword done
.dword DECR ; ( n1 -- n1' )
JUMP set1
done: EXIT
exdword
; ( -- )
; set tables 8-F to ROM tables, freeing any RAM tables
xdword SET_ROM_FTABLE_PRG
ENTER
ONLIT $F
set1: .dword DUP ; ( n -- n1 n2 )
.dword SET_ROM_FTABLE ; ( n1 n2 -- n1 )
.dword DUP ; ( n1 -- n1 n2 )
ONLIT $8 ; ( n1 n2 -- n1 n2 8 )
.dword EQUAL ; ( n1 n2 8 -- n1 f )
.dword _IFFALSE ; ( n1 f -- n1 )
.dword done
.dword DECR ; ( n1 -- n1' )
JUMP set1
done: .dword DROP ; ( n1 -- )
EXIT
exdword
; ( a-addr -- )
; save tables 8-F pointers to a-addr restoring the existing table to ROM vectors
xdword SAVE_PRG_FTABLES
ENTER
.dword SET_MUTABLE_FTABLES ; ( a-addr -- a-addr )
ONLIT 8 ; ( a-addr -- a-addr 8 )
.dword GET_FTABLE_PADDR ; ( a-addr 8 -- a-addr1 a-addr2 )
.dword SWAP ; ( ... a-addr2 a-addr1 )
ONLIT 8*4 ; ( ... a-addr2 a-addr1 )
.dword MOVE ; ( ... )
ONLIT $F
set1: .dword DUP ; ( n -- n1 n2 )
.dword FORCE_ROM_FTABLE ; ( n1 n2 -- n1 )
.dword DUP ; ( n1 -- n1 n2 )
ONLIT $8 ; ( n1 n2 -- n1 n2 8 )
.dword EQUAL ; ( n1 n2 8 -- n1 f )
.dword _IFFALSE ; ( n1 f -- n1 )
.dword done
.dword DECR ; ( n1 -- n1' )
JUMP set1
done: .dword DROP ; ( n1 -- )
EXIT
exdword
; ( a-addr -- )
; set tables 8-F to pointers in c-addr, freeing c-addr after restoring, also freeing
; any RAM tables
xdword RESTORE_PRG_FTABLES
ENTER
.dword SET_MUTABLE_FTABLES ; ( a-addr -- a-addr )
.dword SET_ROM_FTABLE_PRG ; ( a-addr -- a-addr )
ONLIT 8 ; ( a-addr -- a-addr 8 )
.dword GET_FTABLE_PADDR ; ( a-addr 8 -- a-addr1 a-addr2 )
ONLIT 8*4 ; ( a-addr1 a-addr2 -- a-addr1 a-addr2 24 )
.dword MOVE ; ( a-addr1 a-addr2 24 -- )
EXIT
exdword
; save the current state of the FCode internal variables and program-defined memory
; into newly-allocated memory, return address
; ( -- a-addr )
xdword SAVE_FCODE_STATE
ENTER
; Allocate memory
ONLIT 8*4+5*4 ; 5 variables plus program-defined table size
.dword ALLOC
.dword PtoR
; $FCODE-IP and $FCODE-END
.dword dFCODE_IP
.dword FETCH
.dword dFCODE_END
.dword FETCH
.dword RCOPY
.dword TWOSTORE
; $FCODE-SPREAD and $FCODE-OFFSET
.dword dFCODE_SPREAD
.dword FETCH
.dword dFCODE_OFFSET
.dword FETCH
.dword RCOPY
.dword TWO
.dword NAPLUS
.dword TWOSTORE
; $FCODE-FETCH
.dword dFCODE_FETCH
.dword FETCH
.dword RCOPY
ONLIT 4
.dword NAPLUS
.dword STORE
; Program-defined FCode tables
.dword RCOPY
ONLIT 5
.dword NAPLUS
.dword SAVE_PRG_FTABLES
.dword RtoP
EXIT
exdword
; ( a-addr -- )
xdword RESTORE_FCODE_STATE
ENTER
; Program-defined FCode Tables
.dword PtoR
.dword RCOPY
ONLIT 5
.dword NAPLUS
.dword RESTORE_PRG_FTABLES
; $FCODE-FETCH
.dword RCOPY
ONLIT 4
.dword NAPLUS
.dword FETCH
.dword dFCODE_FETCH
.dword STORE
; $FCODE-OFFSET and $FCODE-SPREAD
.dword RCOPY
.dword TWO
.dword NAPLUS
.dword TWOFETCH
.dword dFCODE_OFFSET
.dword STORE
.dword dFCODE_SPREAD
.dword STORE
; $FCODE-END and $FCODE-IP
.dword RCOPY
.dword TWOFETCH
.dword dFCODE_END
.dword STORE
.dword dFCODE_IP
.dword STORE
; finally, free memory
.dword RtoP
.dword ZERO
.dword FREE
EXIT
exdword
; ( fcode# -- a-addr )
xdword GET_TOKEN_PADDR
ENTER
.dword WBSPLIT ; ( fcode# - u table# )
.dword GET_FTABLE ; ( u table# -- u tableaddr f )
.dword DROP ; ( u tableaddr f -- u tableaddr )
.dword SWAP ; ( u tableaddr -- tableaddr u )
.dword NAPLUS ; ( tableaddr u -- a-addr )
EXIT
exdword
; ( xt f fcode# -- )
xdword xSET_TOKEN
ENTER
.dword PtoR ; ( xt f fcode# -- xt f ) ( R: fcode# )
.dword _IF ; ( xt f -- xt )
.dword notimm
ONLIT FC_IMMFLAG ;
.dword LOR
notimm: .dword SET_MUTABLE_FTABLES
.dword RCOPY
ONLIT 8
.dword RSHIFT
.dword SET_RAM_FTABLE
.dword RtoP
.dword GET_TOKEN_PADDR
.dword STORE
EXIT
exdword
xSET_TOKEN_code = xSET_TOKEN::code
.proc lGET_TOKEN
ldy #SV_FCODE_TABLES+2
lda [SYSVARS],y ; Copy table of tables address
sta WR+2 ; to WR
dey
dey
lda [SYSVARS],y
sta WR
lda STACKBASE+0,x ; now get the table number
xba
and #$0F
asl ; multiply by 4 (cell size)
asl
tay ; and use for index
lda [WR],y ; get table address low word
pha ; save it
iny
iny
lda [WR],y ; high word
sta WR+2 ; now put that in WR
pla
sta WR
lda STACKBASE+0,x ; get token again
and #$FF ; mask in low byte
asl ; multiply by 4
asl
tay ; and use for index
lda [WR],y ; (y = 2) grab token low byte
sta STACKBASE+0,x ; put in data stack
iny
iny
lda [WR],y
php ; save for flag
and #$7FFF
sta STACKBASE+2,x
ldy #$0000 ; for flag
plp
bpl :+
dey
: dex ; make room for flag
dex
dex
dex
sty STACKBASE+0,x ; and put it on stack
sty STACKBASE+2,x
rtl
.endproc
; Increment FCode IP by spread
; Put FCode IP on stack
; Jump to fetch method
; The reasons we do it in this order are:
; * We need the routines that change the spread to be run before the next increment.
; * We would like the IP to point to the address with the FCode that caused an exception.
; The consequences are:
; * byte-load needs to load the address less 1 so that the first increment goes to the
; correct address.
xdword xFCODE_FETCH
dex ; add a stack item, hope there's room!
dex
dex
dex
ldy #SV_FCODE_SPREAD ; get spread
lda [SYSVARS],y
sta XR ; and hold in XR for now
ldy #SV_FCODE_IP ; get IP
lda [SYSVARS],y ; low byte
clc ; now add spread
adc XR
sta [SYSVARS],y ; and write back
sta STACKBASE+0,x ; put on data stack
iny ; go to high byte of IP
iny
lda [SYSVARS],y ; fetch it
adc #$0000 ; in case spread carried
sta [SYSVARS],y ; write back
sta STACKBASE+2,x ; put on data stack
ldy #SV_FCODE_FETCH ; now get XT for fetch function
lda [SYSVARS],y ; and set it up for RUN
pha
iny
iny
lda [SYSVARS],y
ply
LRUN
exdword
; ( u -- ) skip u bytes of FCode
xdword xFCODE_SKIP
ENTER
.dword dFCODE_SPREAD
.dword FETCH
.dword UMULT
.dword dFCODE_IP
.dword PSTORE
EXIT
exdword
xdword xFCODE_FETCH_TOKEN
ENTER
.dword xFCODE_FETCH ; ( -- u ) fetch first byte of FCODE
.dword DUP ; ( ... u u' )
.dword _IF ; ( ... u )
.dword one ; if zero, one byte token
.dword DUP ; ( ... u u' )
ONLIT $10 ; ( ... u u' $10 )
.dword ULT ; ( ... u f )
.dword _IF ; ( ... u )
.dword one ; if $10 or more, one-byte token
.dword xFCODE_FETCH ; ( ... u1 u2 ) otherwise fetch low byte
.dword SWAP ; ( ... u2 u1 ) put low byte first
.dword BWJOIN ; and combine into a word
one: EXIT
exdword
xdword xFCODE_FETCH_NUM16
ENTER
.dword xFCODE_FETCH ; high byte
.dword xFCODE_FETCH ; low byte
.dword SWAP
.dword BWJOIN
EXIT
exdword
xdword xFCODE_FETCH_OFFSET
ENTER
.dword dFCODE_OFFSET
.dword FETCH
.dword _IF
.dword offset8
.dword xFCODE_FETCH_NUM16
.dword WSX
EXIT
offset8: .dword xFCODE_FETCH
.dword BSX
EXIT
exdword
xdword xFCODE_FETCH_NUM32
ENTER
.dword xFCODE_FETCH_NUM16 ; high word
.dword xFCODE_FETCH_NUM16 ; low word
.dword SWAP
.dword WLJOIN
EXIT
exdword
; Consume a string from the FCode stream and return it in a newly-allocated
; chunk from the heap. This *must* be freed with FREE_MEM
; ( -- c-addr u )
xdword xFCODE_FETCH_STR
ENTER
.dword xFCODE_FETCH ; ( -- u ) get length of string
.dword DUP ; ( u -- u u' )
.dword PtoR ; ( u u' -- u ) ( R: u )
.dword ALLOC ; ( u -- c-addr ) allocate space
.dword ZERO ; ( c-addr -- c-addr count )
lp: .dword DUP ; ( c-addr count -- c-addr count count' )
.dword RCOPY ; ( ... c-addr count count' u )
.dword EQUAL ; ( ... c-addr count f )
.dword _IFFALSE ; ( ... c-addr count ) are we done?
.dword done ; true branch, yes, finished
.dword TWODUP ; ( ... c-addr count c-addr' count' )
.dword PLUS ; ( ... c-addr count c-addr2 )
.dword xFCODE_FETCH ; ( ... c-addr count c-addr2 char )
.dword SWAP ; ( ... c-addr count char c-addr2 )
.dword CSTORE ; ( ... c-addr count )
.dword INCR ; ( ... c-addr count+1 )
JUMP lp
done: .dword RDROP
EXIT
exdword
; Compile or execute token based on current state and immediacy of the token
; ( fcode# -- nx... )
xdword DO_TOKEN
ENTER
;.dword DOTS
.dword GET_TOKEN
.dword _IF ; is immediate word?
.dword notimm ; no, either compile or execute
.dword TEMPDQ
.dword _IF ; check if requires temp def when interpreting
.dword exec ; it doesn't, just execute
.dword _SMART ; true branch, see if we are interpreting
.dword tempdef ; we are, start temporary definition
exec: .dword EXECUTE ; otherwise execute
EXIT
notimm: .dword _SMART
.dword exec ; execute if interpreting
compile: .dword COMPILECOMMA ; otherwise compile it
EXIT
tempdef: .dword PtoR ; ( xt -- ) ( R: -- xt )
.dword dTEMPCOLON ; start temporary colon definition
.dword RtoP ; ( -- xt ) ( R: xt -- )
.dword IMMEDQ ; is base definition immediate? (It usually is)
.dword _IF
.dword compile ; no, compile xt
JUMP exec ; yes, execute xt
exdword
; FCode evaluator, assumes things were set up correctly by byte-load
xdword xFCODE_EVALUATE
ENTER
lp: .dword dFCODE_END ; ( -- a-addr )
.dword FETCH ; ( -- f )
.dword _IFFALSE ; ( f -- )
.dword done ; true, stop evaluating
.if trace_fcode
ONLIT '['
.dword EMIT
.dword SPACE
.dword DEPTH
.dword UDOT
.endif
.dword xFCODE_FETCH_TOKEN ; ( -- token ) not ending
.if trace_fcode
.dword dFCODE_IP
.dword FETCH
.dword UDOT
.dword DUP
.dword UDOT
.endif
ONLIT DO_TOKEN ; ( ... token xt )
.dword CATCH ; ( ... xn )
.if trace_fcode
ONLIT ']'
.dword EMIT
.dword CR
.endif
.dword QDUP
.dword _IF
.dword lp ; false ( -- ) go to loop
.dword DUP ; true, ( exc -- exc exc' ) save in $FCODE-END
.dword dFCODE_END ; ( ... exc exc' c-addr )
.dword STORE ; ( ... exc )
.dword DUP ; ( ... exc exc' )
.dword _IF ; ( ... exc )
.dword :+
SLIT " FCode error "
.dword TYPE
.dword DUP ; ( ... exc exc' )
.dword DOTD ; ( ... exc )
SLIT "@ "
.dword TYPE
.dword dFCODE_IP ; ( ... exc addr )
.dword FETCH ; ( ... exc addr2 )
.dword UDOT ; ( ... exc )
: ;.dword DOTS
.dword THROW ; ( exc -- ) and THROW
done: EXIT
exdword
xdword FCEND
ENTER
.dword ONE
.dword dFCODE_END
.dword STORE
EXIT
exdword
xdword VERSION1
ENTER
.dword ONE ; spread
.dword ZERO ; offset (0 = 8, nonzero = 16)
set: .dword dFCODE_OFFSET
.dword STORE
.dword dFCODE_SPREAD
.dword STORE
drophdr: ONLIT 7
.dword xFCODE_SKIP ; drop the header
EXIT
exdword
xdword OFFSET16
ENTER
.dword dFCODE_OFFSET
.dword ON
EXIT
exdword
xdword START4
ENTER
ONLIT 4
set: .dword MINUSONE
JUMP VERSION1::set
exdword
xdword START2
ENTER
.dword TWO
JUMP START4::set
exdword
xdword START1
ENTER
.dword ONE
JUMP START4::set
exdword
xdword START0
ENTER
.dword ZERO
JUMP START4::set
exdword
xdword B_LIT
ENTER
.dword xFCODE_FETCH_NUM32
dolit: .dword _SMART
.dword interp
.dword LITERAL
interp: EXIT
exdword
xdword B_TICK
ENTER
.dword xFCODE_FETCH_TOKEN
.dword GET_TOKEN
.dword DROP
JUMP B_LIT::dolit
exdword
xdword B_QUOTE
ENTER
.dword xFCODE_FETCH_STR ; ( -- c-addr u ) get length of string
;.dword DBGMEM
.dword TWODUP ; ( c-addr u -- c-addr u c-addr' u' )
.dword _SMART
.dword interp
.dword SLITERAL ; ( ... c-addr u )
JUMP done
interp: .dword dTMPSTR ; ( ... c-addr u c-addr2 u2 )
.dword TWOSWAP ; ( ... c-addr2 u2 c-addr u )
done: .dword FREE ; ( ... c-addr2 u2 ) | ( ... )
;.dword DBGMEM
EXIT
exdword
; Defining stuff in FCode is kind of a pain because there is a preparation step
; consisting of NEW-TOKEN, NAMED-TOKEN, or EXTERNAL token that starts the definition
; followed by one of the words that defines the behavior of the definition
xdword dMKENTRY
jsl _l2parm
jsl _lmkentry
LPUSHNEXT ; flags/XT
exdword
xdword EXTERNAL_TOKEN
ENTER
doext: .dword xFCODE_FETCH_STR ; ( -- str len )
.dword TWODUP ; ( str len -- str len str' len' )
.dword TWOPtoR ; ( str len str' len' -- str len) ( R: str' len' )
.dword xFCODE_FETCH_TOKEN ; ( str len -- str len fcode# )
.dword NROT ; ( str len fcode# -- fcode# str len )
.dword dMKENTRY ; ( fcode# str len -- fcode# xt )
.dword TWORtoP ; ( fcode# xt -- fcode# xt str' len' )
.dword FREE ; ( fcode# xt str' len' -- fcode# xt )
settok: ONLIT 0 ; ( fcode# xt -- fcode# xt f )
.dword ROT ; ( fcode# xt f -- xt f fcode# )
.dword DUP ; ( ... xt f fcode# fcode# )
.dword dFCODE_LAST ; ( ... xt f fcode# fcode# c-addr )
.dword STORE ; ( ... xt f fcode# )
.dword SET_TOKEN ; ( xt f fcode# -- )
EXIT
exdword
xdword NEW_TOKEN
ENTER
.dword xFCODE_FETCH_TOKEN ; ( -- fcode# )
ONLIT $80 ; ( ... fcode# $80 ) name length is 0 for noname
.dword CCOMMA ; ( ... fcode# )
.dword HERE ; ( ... fcode# xt ) XT/flags
ONLIT $00 ; ( ... fcode# xt $00 ) noname flags
.dword CCOMMA ; ( ... fcode# xt )
JUMP EXTERNAL_TOKEN::settok
exdword
xdword NAMED_TOKEN
ENTER
.dword dFCODE_DEBUG
.dword FETCH
.dword _IFFALSE
.dword EXTERNAL_TOKEN::doext
.dword xFCODE_FETCH_STR ; retrieve token name
.dword FREE ; immediately free it
.dword NEW_TOKEN ; and make headerless
EXIT
exdword
xdword B_COLON
ENTER
.dword dCOLON ; compile ENTER
.dword dFCODE_LAST ; ( -- c-addr )
.dword FETCH ; ( c-addr -- fcode# )
.dword GET_TOKEN ; ( fcode# -- xt f )
.dword DROP ; ( xt f -- xt )
.dword DUP ; ( xt -- xt xt' )
.dword rLINK ; ( xt xt' -- xt c-addr|0 )
.dword QDUP ; ( xt c-addr|0 -- xt c-addr c-addr' | xt 0 )
.dword _IF ; ( .. xt c-addr | xt )
.dword noname
.dword dOLDHERE ; ( xt c-addr -- xt c-addr c-addr2 )
.dword STORE ; ( xt c-addr c-addr2 -- xt )
.dword DUP ; ( xt -- xt xt' )
.dword SMUDGE ; ( xt xt' -- xt )
.dword STATEC ; xt on stack for colon-sys
EXIT
noname: .dword STATEC ; xt on stack for colon-sys
EXIT
exdword
xdword B_CONSTANT
jsl _l1parm
jml dVALUE::dovalue
exdword
xdword B_FIELD
jsl _l1parm
jml dFIELD::dofield
exdword
.if 0
; Inspired by SLOF, unused for now
xdword DEST_ON_TOP
ENTER
;.dword DOTS
.dword ZERO
.dword PtoR
b1: .dword DUP
.dword FETCH
ONLIT _CONTROL_MM
.dword EQUAL
.dword _IF
.dword e1b2
.dword PtoR
JUMP b1
e1b2: .dword RtoP
.dword DUP
.dword _IF
.dword e2
.dword SWAP
JUMP e1b2
e2: .dword DROP
;.dword DOTS
EXIT
exdword
.endif
; Branch FCode while interpreting
; ( fcode-offset -- )
xdword IBRANCH
ENTER
.dword DUP
.dword ZEROLT
.dword _IF
.dword pos ; positive offset, just skip
.dword dFCODE_SPREAD ; negative offset, compute new IP
.dword FETCH
.dword UMULT
.dword dFCODE_IP
.dword FETCH
.dword PLUS
.dword dFCODE_IP
.dword STORE
EXIT
pos: .dword DECR
.dword dFCODE_OFFSET
.dword FETCH
.dword _IF ; offset size
.dword :+ ; 8, skip forward
.dword DECR ; decrement again
: .dword xFCODE_SKIP
EXIT
exdword
; Maybe branch FCode
xdword BQBRANCH
ENTER
.dword xFCODE_FETCH_OFFSET
.dword _SMART
.dword interp
.dword ZEROLT ; is offset negative?
.dword _IF
.dword cpos ; no, positive offset
.dword UNTIL
EXIT
cpos: .dword IF
;.dword DOTS
EXIT
interp: .dword SWAP ; move flag to front
.dword _IFFALSE
.dword nobr ; do nothing if true
.dword IBRANCH ; otherwise branch
EXIT
nobr: .dword DROP ; drop offset
EXIT
exdword
xdword BBRANCH
ENTER
.dword xFCODE_FETCH_OFFSET
.dword _SMART
.dword interp
.dword ZEROLT
.dword _IF
.dword cpos
.dword AGAIN
EXIT
cpos: .dword dFCODE_IP
.dword FETCH
.dword xFCODE_FETCH_TOKEN ; peek next token
ONLIT $B2 ; B(>RESOLVE)
.dword EQUAL ; see if it's B(>RESOLVE)
.dword _IF
.dword ahead ; it's not, do ahead and fix IP
.dword DROP ; drop saved IP
.dword ELSE ; do ELSE
EXIT
ahead: .dword AHEAD
.dword dFCODE_IP
.dword STORE
EXIT
interp: .dword IBRANCH ; otherwise branch
EXIT
exdword
xdword B_MARK
ENTER
.dword _SMART
.dword done ; interpreting
.dword BEGIN
done: EXIT
exdword
xdword B_RESOLVE
ENTER
;.dword DOTS
.dword _SMART
.dword done ; interpreting
.dword THEN
done: EXIT
exdword
xdword B_CASE,F_IMMED|F_TEMPD
ENTER
.dword CASE
EXIT
exdword
xdword B_ENDCASE
ENTER
.dword ENDCASE
EXIT
exdword
xdword B_OF
ENTER
.dword xFCODE_FETCH_OFFSET
.dword DROP
.dword OF
EXIT
exdword
xdword B_ENDOF
ENTER
.dword xFCODE_FETCH_OFFSET
.dword DROP
.dword ENDOF
EXIT
exdword
xdword B_DO,F_IMMED|F_TEMPD
ENTER
.dword xFCODE_FETCH_OFFSET
.dword DROP
.dword DO ; postpone DO
EXIT
exdword
xdword B_QDO,F_IMMED|F_TEMPD
ENTER
.dword xFCODE_FETCH_OFFSET
.dword DROP
.dword QDO
EXIT
exdword
xdword B_LOOP
ENTER
.dword xFCODE_FETCH_OFFSET
.dword DROP
.dword LOOP
EXIT
exdword
xdword B_PLOOP
ENTER
.dword xFCODE_FETCH_OFFSET
.dword DROP
.dword PLOOP
EXIT
exdword
xdword B_LEAVE
ENTER
.dword _COMP_LIT
.dword LEAVE
EXIT
exdword
xdword B_TO
ENTER
.dword xFCODE_FETCH_TOKEN
.dword GET_TOKEN
.dword DROP
JUMP TO::doto
EXIT
exdword
xdword FCODE_REVISION
FCONSTANT $00030000
exdword