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collapseos/forth/boot.z80

745 lines
15 KiB
Z80 Assembly
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( Configuration words: RAMSTART, RS_ADDR )
H@ 256 /MOD 2 PC! 2 PC!
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( RESERVED REGISTERS
At all times, IX points to RSP TOS and IY is IP. SP points
to PSP TOS, but you can still use the stack in native code.
you just have to make sure you've restored it before "next".
STABLE ABI
Those jumps below are supposed to stay at these offsets,
always. If they change bootstrap binaries have to be
adjusted because they rely on them. Those entries are
referenced directly by their offset in Forth code with a
comment indicating what that number refers to.
)
H@ ORG !
0 JPnn, ( 00, main )
0 JPnn, ( 03, find )
NOP, NOP, ( 06, unused )
NOP, NOP, ( 08, LATEST )
NOP, ( 0a, unused )
0 JPnn, ( 0b, cellWord )
0 JPnn, ( 0e, compiledWord )
0 JPnn, ( 11, pushRS )
0 JPnn, ( 14, popRS )
EXDEHL, JP(HL), NOP, ( 17, nativeWord )
0 JPnn, ( 1a, next )
0 JPnn, ( 1d, chkPS )
NOP, NOP, ( 20, numberWord )
NOP, NOP, ( 22, litWord )
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NOP, NOP, ( 24, addrWord )
NOP, NOP, ( 26, unused )
RAMSTART 0x4e + JPnn, ( 28, RST 28 )
0 JPnn, ( 2b, doesWord )
NOP, NOP, ( 2e, unused )
RAMSTART 0x4e + JPnn, ( RST 30 )
0 JPnn, ( 33, execute )
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NOP, NOP, ( unused )
RAMSTART 0x4e + JPnn, ( RST 38 )
( BOOT DICT
There are only 3 words in the boot dict, but these words'
offset need to be stable, so they're part of the "stable
ABI"
)
'E' A, 'X' A, 'I' A, 'T' A,
0 A,, ( prev )
4 A,
H@ XCURRENT ! ( set current tip of dict, 0x42 )
0x17 A, ( nativeWord )
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0x14 CALLnn, ( popRS )
HL PUSHqq, IY POPqq, ( --> IP )
JPNEXT,
CODE (br) ( 0x53 )
L2 BSET ( used in CBR )
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E 0 IY+ LDrIXY,
D 1 IY+ LDrIXY,
DE ADDIYss,
JPNEXT,
CODE (?br) ( 0x67 )
HL POPqq,
chkPS,
A H LDrr,
L ORr,
JRZ, L2 BWR ( BR + 2. False, branch )
( True, skip next 2 bytes and don't branch )
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IY INCss,
IY INCss,
JPNEXT,
( END OF STABLE ABI )
( We want numberWord and litWord routine to be below the 0x100
offset so that we can reduce the size of the routine field
in words to 1 byte. )
( addrWord is the exact same thing as a numberWord except that
it is treated differently by meta-tools. See notes.txt )
PC ORG @ 0x20 + ! ( numberWord )
PC ORG @ 0x24 + ! ( addrWord )
( This is not a word, but a number literal. This works a bit
differently than others: PF means nothing and the actual
number is placed next to the numberWord reference in the
compiled word list. What we need to do to fetch that number
is to play with the IP.
)
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E 0 IY+ LDrIXY,
D 1 IY+ LDrIXY,
IY INCss,
IY INCss,
DE PUSHqq,
JPNEXT,
PC ORG @ 0x22 + ! ( litWord )
( Similarly to numberWord, this is not a real word, but a
string literal. Instead of being followed by a 2 bytes
number, it's followed by a null-terminated string. When
called, puts the string's address on PS )
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IY PUSHqq, HL POPqq, ( <-- IP )
HL PUSHqq,
( skip to null char )
A XORr, ( look for null )
B A LDrr,
C A LDrr,
CPIR,
( CPIR advances HL regardless of comparison, so goes one
char after NULL. This is good, because that's what we
want... )
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HL PUSHqq, IY POPqq, ( --> IP )
JPNEXT,
( Name of BOOT word )
L1 BSET
'B' A, 'O' A, 'O' A, 'T' A, 0 A,
PC ORG @ 1 + ! ( main )
( STACK OVERFLOW PROTECTION:
To avoid having to check for stack underflow after each pop
operation (which can end up being prohibitive in terms of
costs), we give ourselves a nice 6 bytes buffer. 6 bytes
because we seldom have words requiring more than 3 items
from the stack. Then, at each "exit" call we check for
stack underflow.
)
SP 0xfffa LDddnn,
RAMSTART SP LD(nn)dd, ( RAM+00 == INITIAL_SP )
IX RS_ADDR LDddnn,
( HERE begins at RAMEND )
HL RAMSTART 0x80 + LDddnn,
RAMSTART 0x04 + LD(nn)HL, ( RAM+04 == HERE )
( LATEST is a label to the latest entry of the dict. It is
written at offset 0x08 by the process or person building
Forth. )
0x08 LDHL(nn),
RAMSTART 0x02 + LD(nn)HL, ( RAM+02 == CURRENT )
EXDEHL,
HL L1 @ LDddnn,
0x03 CALLnn, ( 03 == find )
0x33 JPnn, ( 33 == execute )
PC ORG @ 4 + ! ( find )
( Find the entry corresponding to word name where (HL) points
to in dictionary having its tip at DE and sets DE to point
to that entry. Z if found, NZ if not.
)
BC PUSHqq,
HL PUSHqq,
( First, figure out string len )
BC 0 LDddnn,
A XORr,
CPIR,
( C has our length, negative, -1 )
A C LDrr,
NEG,
A DECr,
( special case. zero len? we never find anything. )
JRZ, L1 FWR ( fail )
C A LDrr, ( C holds our length )
( Let's do something weird: We'll hold HL by the *tail*.
Because of our dict structure and because we know our
lengths, it's easier to compare starting from the end.
Currently, after CPIR, HL points to char after null. Let's
adjust. Because the compare loop pre-decrements, instead
of DECing HL twice, we DEC it once. )
HL DECss,
BEGIN, ( inner )
( DE is a wordref, first step, do our len correspond? )
HL PUSHqq, ( --> lvl 1 )
DE PUSHqq, ( --> lvl 2 )
DE DECss,
LDA(DE),
0x7f ANDn, ( remove IMMEDIATE flag )
C CPr,
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JRNZ, L2 FWR ( loopend )
( match, let's compare the string then )
DE DECss, ( Skip prev field. One less because we )
DE DECss, ( pre-decrement )
B C LDrr, ( loop C times )
BEGIN, ( loop )
( pre-decrement for easier Z matching )
DE DECss,
HL DECss,
LDA(DE),
(HL) CPr,
JRNZ, L3 FWR ( loopend )
DJNZ, AGAIN, ( loop )
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L2 FSET L3 FSET ( loopend )
( At this point, Z is set if we have a match. In all cases,
we want to pop HL and DE )
DE POPqq, ( <-- lvl 2 )
HL POPqq, ( <-- lvl 1 )
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JRZ, L2 FWR ( end, match? we're done! )
( no match, go to prev and continue )
HL PUSHqq, ( --> lvl 1 )
DE DECss,
DE DECss,
DE DECss, ( prev field )
DE PUSHqq, ( --> lvl 2 )
EXDEHL,
E (HL) LDrr,
HL INCss,
D (HL) LDrr,
( DE conains prev offset )
HL POPqq, ( <-- lvl 2 )
( HL is prev field's addr. Is offset zero? )
A D LDrr,
E ORr,
IFNZ, ( noprev )
( get absolute addr from offset )
( carry cleared from "or e" )
DE SBCHLss,
EXDEHL, ( result in DE )
THEN, ( noprev )
HL POPqq, ( <-- lvl 1 )
JRNZ, AGAIN, ( inner, try to match again )
( Z set? end of dict, unset Z )
L1 FSET ( fail )
A XORr,
A INCr,
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L2 FSET ( end )
HL POPqq,
BC POPqq,
RET,
PC ORG @ 0x12 + ! ( pushRS )
IX INCss,
IX INCss,
0 IX+ L LDIXYr,
1 IX+ H LDIXYr,
RET,
PC ORG @ 0x15 + ! ( popRS )
L 0 IX+ LDrIXY,
H 1 IX+ LDrIXY,
IX DECss,
IX DECss,
RET,
'(' A, 'u' A, 'f' A, 'l' A, 'w' A, ')' A, 0 A,
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L2 BSET ( abortUnderflow )
HL PC 7 - LDddnn,
DE RAMSTART 0x02 + LDdd(nn), ( RAM+02 == CURRENT )
0x03 CALLnn, ( find )
0x33 JPnn, ( 33 == execute )
PC ORG @ 0x1e + ! ( chkPS )
HL PUSHqq,
RAMSTART LDHL(nn), ( RAM+00 == INITIAL_SP )
( We have the return address for this very call on the stack
and protected registers. Let's compensate )
HL DECss,
HL DECss,
HL DECss,
HL DECss,
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SP SUBHLss,
HL POPqq,
CNC RETcc, ( INITIAL_SP >= SP? good )
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JR, L2 BWR ( abortUnderflow )
PC ORG @ 0x1b + ! ( next )
( This routine is jumped to at the end of every word. In it,
we jump to current IP, but we also take care of increasing
it by 2 before jumping. )
( Before we continue: are stacks within bounds? )
0x1d CALLnn, ( chkPS )
( check RS )
IX PUSHqq, HL POPqq,
DE RS_ADDR LDddnn,
DE SUBHLss,
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JRC, L2 BWR ( IX < RS_ADDR? abortUnderflow )
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E 0 IY+ LDrIXY,
D 1 IY+ LDrIXY,
IY INCss,
IY INCss,
( continue to execute )
L3 BSET
PC ORG @ 0x34 + ! ( execute )
( DE points to wordref )
EXDEHL,
E (HL) LDrr,
D 0 LDrn,
EXDEHL,
( HL points to code pointer )
DE INCss,
( DE points to PFA )
JP(HL),
L1 BSET
PC ORG @ 0x0f + ! ( compiledWord )
( Execute a list of atoms, which always end with EXIT.
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DE points to that list. What do we do:
1. Push current IP to RS
2. Set new IP to the second atom of the list
3. Execute the first atom of the list. )
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IY PUSHqq, HL POPqq, ( <-- IP )
0x11 CALLnn, ( 11 == pushRS )
EXDEHL, ( HL points to PFA )
( While we increase, dereference into DE for execute call
later. )
E (HL) LDrr,
HL INCss,
D (HL) LDrr,
HL INCss,
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HL PUSHqq, IY POPqq, ( --> IP )
JR, L3 BWR ( execute )
PC ORG @ 0x0c + ! ( cellWord )
( Pushes PFA directly )
DE PUSHqq,
JPNEXT,
PC ORG @ 0x2c + ! ( doesWord )
( The word was spawned from a definition word that has a
DOES>. PFA+2 (right after the actual cell) is a link to the
slot right after that DOES>. Therefore, what we need to do
push the cell addr like a regular cell, then follow the
linkfrom the PFA, and then continue as a regular
compiledWord.
)
DE PUSHqq, ( like a regular cell )
EXDEHL,
HL INCss,
HL INCss,
E (HL) LDrr,
HL INCss,
D (HL) LDrr,
JR, L1 BWR ( compiledWord )
( Core words )
KEY and EMIT are not defined here. There're
expected to be defined in platform-specific code. )
CODE EXECUTE
DE POPqq,
chkPS,
JR, L3 BWR ( execute )
( a b c -- b c a )
CODE ROT
HL POPqq, ( C )
DE POPqq, ( B )
BC POPqq, ( A )
chkPS,
DE PUSHqq, ( B )
HL PUSHqq, ( C )
BC PUSHqq, ( A )
;CODE
( a -- a a )
CODE DUP
HL POPqq, ( A )
chkPS,
HL PUSHqq, ( A )
HL PUSHqq, ( A )
;CODE
( a -- )
CODE DROP
HL POPqq,
;CODE
( a b -- b a )
CODE SWAP
HL POPqq, ( B )
DE POPqq, ( A )
chkPS,
HL PUSHqq, ( B )
DE PUSHqq, ( A )
;CODE
( a b -- a b a )
CODE OVER
HL POPqq, ( B )
DE POPqq, ( A )
chkPS,
DE PUSHqq, ( A )
HL PUSHqq, ( B )
DE PUSHqq, ( A )
;CODE
CODE PICK
HL POPqq,
chkPS,
( x2 )
L SLAr,
H RLr,
SP ADDHLss,
C (HL) LDrr,
HL INCss,
B (HL) LDrr,
( check PS range before returning )
EXDEHL,
RAMSTART LDHL(nn), ( RAM+00 == INITIAL_SP )
DE SUBHLss,
CC L2 @ JPccnn, ( abortUnderflow )
BC PUSHqq,
;CODE
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( this is only a part of ROLL, the other part is performed in
high level Forth. This receives from PSP the number of bytes
to copy and then performs A move-by-2 operation from SP.
This copies SP's TOS and overwrites the last item involved.
For example, if stack is "1 2 3 4", calling with "4" would
result in the stack "1 3 4 4". Never call with 0, there is
no sanity check.
)
CODE (roll)
HL POPqq,
B H LDrr,
C L LDrr,
SP ADDHLss,
HL INCss,
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D H LDrr,
E L LDrr,
HL DECss,
HL DECss,
LDDR,
;CODE
( a b -- )
CODE 2DROP
HL POPqq,
HL POPqq,
chkPS,
;CODE
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CODE S0
RAMSTART LDHL(nn), ( RAM+00 == INITIAL_SP )
HL PUSHqq,
;CODE
CODE 'S
HL 0 LDddnn,
SP ADDHLss,
HL PUSHqq,
;CODE
CODE AND
HL POPqq,
DE POPqq,
chkPS,
A E LDrr,
L ANDr,
L A LDrr,
A D LDrr,
H ANDr,
H A LDrr,
HL PUSHqq,
;CODE
CODE OR
HL POPqq,
DE POPqq,
chkPS,
A E LDrr,
L ORr,
L A LDrr,
A D LDrr,
H ORr,
H A LDrr,
HL PUSHqq,
;CODE
CODE XOR
HL POPqq,
DE POPqq,
chkPS,
A E LDrr,
L XORr,
L A LDrr,
A D LDrr,
H XORr,
H A LDrr,
HL PUSHqq,
;CODE
CODE NOT
HL POPqq,
chkPS,
A L LDrr,
H ORr,
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PUSHZ,
;CODE
CODE +
HL POPqq,
DE POPqq,
chkPS,
DE ADDHLss,
HL PUSHqq,
;CODE
CODE -
DE POPqq,
HL POPqq,
chkPS,
DE SUBHLss,
HL PUSHqq,
;CODE
CODE *
DE POPqq,
BC POPqq,
chkPS,
( DE * BC -> DE (high) and HL (low) )
HL 0 LDddnn,
A 0x10 LDrn,
( loop )
HL ADDHLss,
E RLr,
D RLr,
JRNC, 4 A, ( noinc )
BC ADDHLss,
JRNC, 1 A, ( noinc )
DE INCss,
( noinc )
A DECr,
JRNZ, -14 A, ( loop )
HL PUSHqq,
;CODE
( Borrowed from http://wikiti.brandonw.net/ )
( Divides AC by DE and places the quotient in AC and the
remainder in HL )
CODE /MOD
DE POPqq,
BC POPqq,
chkPS,
A B LDrr,
B 16 LDrn,
HL 0 LDddnn,
BEGIN, ( loop )
SCF,
C RLr,
RLA,
HL ADCHLss,
DE SBCHLss,
IFC,
DE ADDHLss,
C DECr,
THEN,
DJNZ, AGAIN, ( loop )
B A LDrr,
HL PUSHqq,
BC PUSHqq,
;CODE
CODE !
HL POPqq,
DE POPqq,
chkPS,
(HL) E LDrr,
HL INCss,
(HL) D LDrr,
;CODE
CODE @
HL POPqq,
chkPS,
E (HL) LDrr,
HL INCss,
D (HL) LDrr,
DE PUSHqq,
;CODE
CODE C!
HL POPqq,
DE POPqq,
chkPS,
(HL) E LDrr,
;CODE
CODE C@
HL POPqq,
chkPS,
L (HL) LDrr,
H 0 LDrn,
HL PUSHqq,
;CODE
CODE PC!
BC POPqq,
HL POPqq,
chkPS,
L OUT(C)r,
;CODE
CODE PC@
BC POPqq,
chkPS,
H 0 LDrn,
L INr(C),
HL PUSHqq,
;CODE
CODE I
L 0 IX+ LDrIXY,
H 1 IX+ LDrIXY,
HL PUSHqq,
;CODE
CODE I'
L 2 IX- LDrIXY,
H 1 IX- LDrIXY,
HL PUSHqq,
;CODE
CODE J
L 4 IX- LDrIXY,
H 3 IX- LDrIXY,
HL PUSHqq,
;CODE
CODE >R
HL POPqq,
chkPS,
( 17 == pushRS )
17 CALLnn,
;CODE
CODE R>
( 20 == popRS )
20 CALLnn,
HL PUSHqq,
;CODE
CODE BYE
HALT,
;CODE
CODE (resSP)
( INITIAL_SP == RAM+0 )
SP RAMSTART LDdd(nn),
;CODE
CODE (resRS)
IX RS_ADDR LDddnn,
;CODE
CODE S=
DE POPqq,
HL POPqq,
chkPS,
BEGIN, ( loop )
LDA(DE),
(HL) CPr,
JRNZ, L1 FWR ( not equal? break early to "end".
NZ is set. )
A ORr, ( if our char is null, stop )
HL INCss,
DE INCss,
JRNZ, AGAIN, ( loop )
L1 FSET ( end )
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PUSHZ,
;CODE
CODE CMP
HL POPqq,
DE POPqq,
chkPS,
DE SUBHLss,
BC 0 LDddnn,
IFNZ,
( not equal )
BC INCss,
IFNC,
( < )
BC DECss,
BC DECss,
THEN,
THEN,
BC PUSHqq,
;CODE
( cur w -- a f )
CODE _find
HL POPqq, ( w )
DE POPqq, ( cur )
chkPS,
( 3 == find )
3 CALLnn,
IFNZ,
( not found )
HL PUSHqq,
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PUSH0,
JPNEXT,
THEN,
( found )
DE PUSHqq,
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PUSH1,
;CODE
CODE (im1)
IM1,
EI,
;CODE
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CODE 0 PUSH0, ;CODE
CODE 1 PUSH1, ;CODE
CODE -1
HL -1 LDddnn,
HL PUSHqq,
;CODE
CODE 1+
HL POPqq,
chkPS,
HL INCss,
HL PUSHqq,
;CODE
CODE 1-
HL POPqq,
chkPS,
HL DECss,
HL PUSHqq,
;CODE
CODE 2+
HL POPqq,
chkPS,
HL INCss,
HL INCss,
HL PUSHqq,
;CODE
CODE 2-
HL POPqq,
chkPS,
HL DECss,
HL DECss,
HL PUSHqq,
;CODE