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collapseos/forth/icore.fs

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( Inner core. This unit represents core definitions that
happen right after native definitions. Before core.fs.
Unlike core.fs and its followers, this unit isn't self-
sustained. Like native defs it uses the machinery of a
full Forth interpreter, notably for flow structures.
Because of that, it has to obey specific rules:
1. It cannot compile a word from higher layers. Using
immediates is fine though.
2. If it references a word from this unit or from native
definitions, these need to be properly offsetted
because their offset at compile time are not the same
as their runtime offsets.
3. Anything they refer to in the boot binary has to be
properly stabilized.
4. Make sure that the words you compile are not overridden
by the full interpreter.
5. When using words as immediates, make sure that they're
not defined in icore or, if they are, make sure that
they contain no "_c" references.
All these rules make this unit a bit messy, but this is the
price to pay for the awesomeness of self-bootstrapping.
)
( When referencing words from native defs or this very unit,
use this compiling word, which subtract the proper offset
from the compiled word. That proper offset is:
1. Take ROT-header addr, the first native def.
2. Subtract _bend, boot's last word.
3. That will give us the offset to subtract to get the addr
of our word at runtime.
This means, of course, that any word compiling a _c word
can't be executed immediately.
Also note that because of that "_c" mechanism, it might
take two rounds of bootstrapping before the compiled
z80c.bin file is "stabilized". That's because the 2nd time
around, the recorded offset will have changed.
)
: _c
[
' ROT
6 - ( header )
' _bend
- ( our offset )
LITN
]
' ( get word )
-^ ( apply offset )
, ( write! )
;
( We can't use IMMEDIATE because the one we've just compiled
in z80c target's the *target*'s RAM addr, not the host's.
manually set namelen field. )
0x82 CURRENT @ 1 - C!
: RAM+
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[ RAMSTART LITN ] _c +
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;
: FLAGS 0x08 _c RAM+ ;
: (parse*) 0x0a _c RAM+ ;
: HERE 0x04 _c RAM+ ;
: CURRENT 0x02 _c RAM+ ;
: QUIT
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0 _c FLAGS _c ! _c (resRS)
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LIT< INTERPRET _c (find) _c DROP EXECUTE
;
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: ABORT _c (resSP) _c QUIT ;
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: = _c CMP _c NOT ;
: < _c CMP -1 _c = ;
: > _c CMP 1 _c = ;
: (parsed) ( a -- n f )
( read first char outside of the loop. it *has* to be
nonzero. )
_c DUP _c C@ ( a c )
_c DUP _c NOT IF EXIT THEN ( a 0 )
( special case: do we have a negative? )
_c DUP '-' _c = IF
( Oh, a negative, let's recurse and reverse )
_c DROP 1 _c + ( a+1 )
_c (parsed) ( n f )
_c SWAP 0 _c SWAP ( f 0 n )
_c - _c SWAP EXIT ( 0-n f )
THEN
( running result, staring at zero )
0 _c SWAP ( a r c )
( Loop over chars )
BEGIN
( parse char )
'0' _c -
( if bad, return "a 0" )
_c DUP 0 _c < IF _c 2DROP 0 EXIT THEN ( bad )
_c DUP 9 _c > IF _c 2DROP 0 EXIT THEN ( bad )
( good, add to running result )
_c SWAP 10 _c * _c + ( a r*10+n )
_c SWAP 1 _c + _c SWAP ( a+1 r )
( read next char )
_c OVER _c C@
_c DUP _c NOT UNTIL
( we're done and it's a success. We have "a r c", we want
"r 1". )
_c DROP _c SWAP _c DROP 1
;
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( This is only the "early parser" in earlier stages. No need
for an abort message )
: (parse)
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_c (parsed) _c NOT IF _c ABORT THEN
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;
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: C<
( 0c == CINPTR )
0x0c _c RAM+ _c @ EXECUTE
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;
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: ,
_c HERE _c @ _c !
_c HERE _c @ 2 _c + _c HERE _c !
;
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: C,
_c HERE _c @ _c C!
_c HERE _c @ 1 _c + _c HERE _c !
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;
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( The NOT is to normalize the negative/positive numbers to 1
or 0. Hadn't we wanted to normalize, we'd have written:
32 CMP 1 - )
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: WS? 33 _c CMP 1 _c + _c NOT ;
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: TOWORD
BEGIN
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_c C< _c DUP _c WS? _c NOT IF EXIT THEN _c DROP
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AGAIN
;
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( Read word from C<, copy to WORDBUF, null-terminate, and
return, make HL point to WORDBUF. )
: WORD
( 0e == WORDBUF )
0x0e _c RAM+ ( a )
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_c TOWORD ( a c )
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BEGIN
( We take advantage of the fact that char MSB is
always zero to pre-write our null-termination )
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_c OVER _c ! ( a )
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1 _c + ( a+1 )
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_c C< ( a c )
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_c DUP _c WS?
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UNTIL
( a this point, PS is: a WS )
( null-termination is already written )
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_c 2DROP
0x0e _c RAM+
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;
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: (entry)
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_c HERE _c @ ( h )
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_c WORD ( h s )
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_c SCPY ( h )
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( Adjust HERE -1 because SCPY copies the null )
_c HERE _c @ 1 _c - ( h h' )
_c DUP _c HERE _c ! ( h h' )
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_c SWAP _c - ( sz )
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( write prev value )
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_c HERE _c @ _c CURRENT _c @ _c - _c ,
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( write size )
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_c C,
_c HERE _c @ _c CURRENT _c !
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;
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: INTERPRET
BEGIN
_c WORD
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_c (find)
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IF
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1 _c FLAGS _c !
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EXECUTE
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0 _c FLAGS _c !
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ELSE
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_c (parse*) _c @ EXECUTE
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THEN
AGAIN
;
( system c< simply reads source from binary, starting at
LATEST. Convenient way to bootstrap a new system. )
: (c<)
( 51 == SYSTEM SCRATCHPAD )
0x51 _c RAM+ _c @ ( a )
_c DUP _c C@ ( a c )
_c SWAP 1 _c + ( c a+1 )
0x51 _c RAM+ _c ! ( c )
;
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: BOOT
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LIT< (parse) _c (find) _c DROP _c (parse*) _c !
( 51 == SYSTEM SCRATCHPAD )
_c CURRENT _c @ 0x51 _c RAM+ _c !
( 0c == CINPTR )
LIT< (c<) _c (find) _c DROP 0x0c _c RAM+ _c !
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LIT< INIT _c (find)
IF EXECUTE
ELSE _c DROP _c INTERPRET THEN
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;
( LITN has to be defined after the last immediate usage of
it to avoid bootstrapping issues )
: LITN
( 32 == NUMBER )
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32 _c , _c ,
;
( : and ; have to be defined last because it can't be
executed now also, they can't have their real name
right away. We also can't use IMMEDIATE because the offset
used for CURRENT is the *target*'s RAM offset. we're still
on the host.
)
: X
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_c (entry)
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( We cannot use LITN as IMMEDIATE because of bootstrapping
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issues. Same thing for ",".
32 == NUMBER 14 == compiledWord )
[ 32 H@ ! 2 ALLOT 14 H@ ! 2 ALLOT ] _c ,
BEGIN
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_c WORD
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_c (find)
( is word )
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IF _c DUP _c IMMED? IF EXECUTE ELSE _c , THEN
( maybe number )
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ELSE _c (parse*) _c @ EXECUTE _c LITN THEN
AGAIN
;
: Y
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['] EXIT _c ,
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_c R> _c DROP ( exit : )
;
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( Give ":" and ";" their real name and make them IMMEDIATE )
0x81 ' X 1 - C!
':' ' X 4 - C!
0x81 ' Y 1 - C!
';' ' Y 4 - C!
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( Add dummy entry. we use CREATE because (entry) is, at this
point, broken. Adjust H@ durint port 2 ping. )
CREATE _
H@ 2 - 256 /MOD 2 PC! 2 PC!