mirror of
https://github.com/hsoft/collapseos.git
synced 2024-11-01 10:20:55 +11:00
b1e162b8a3
Replace the "g" arg (glyph) with "c" (character). The reason why "g" was used was to save a "0x20 -" operation at all CELL! implementations, but this came with too big a drawback: it made CELL! hardly usable outside of the Grid subsystem, mostly because the user of CELL! would often have to do "0x20 -". For example, I want the SMS's Pad driver to use CELL! directly instead of having to do EMIT+XYPOS-messing-around. I would have had to do a "0x20 -" there.
3060 lines
94 KiB
Forth
3060 lines
94 KiB
Forth
( ----- 000 )
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Collapse OS
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This is the first block of Collapse OS' filesystem which cons-
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ists of contiguous blocks of 1024 bytes organized in 16 lines
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of 64 characters. You can display a block's content with the
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"LIST" command. For example, "123 LIST" shows the contents of
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the block 123. If a block contains source code, you can inter-
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pret it with "LOAD".
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Conventions: When you see "(cont.)" at the bottom right of a
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block, it means that the next block continues the same kind of
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contents. Block numbers are abbreviated with prefix "B". "BX"
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means "block X".
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The master index of this filesystem is at B1. You can navi-
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gate and edit blocks with the Visual Editor at B120.
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( ----- 001 )
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MASTER INDEX
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005 Z80 assembler 030 8086 assembler
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050 AVR assembler 70-99 unused
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100 Block editor 120 Visual Editor
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160 AVR SPI programmer
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170-259 unused 260 Cross compilation
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280 Z80 boot code 350 Core words
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400 AT28 EEPROM driver 401 Grid subsystem
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410 PS/2 keyboard subsystem 418 Z80 SPI Relay driver
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420 SD Card subsystem 440 8086 boot code
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470 Z80 TMS9918 driver
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480-519 unused 520 Fonts
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( ----- 005 )
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( Z80 Assembler
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006 Variables & consts
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007 Utils 008 OP1
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010 OP1r 012 OP1d
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013 OP1rr 015 OP2
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016 OP2i 017 OP2ri
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018 OP2br 019 OProt
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020 OP2r 021 OP2d
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022 OP3di 023 OP3i
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024 Specials 025 Flow
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028 Macros )
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1 23 LOADR+
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( ----- 006 )
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CREATE ORG 0 ,
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CREATE BIN( 0 ,
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VARIABLE L1 VARIABLE L2 VARIABLE L3 VARIABLE L4
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: A 7 ; : B 0 ; : C 1 ; : D 2 ;
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: E 3 ; : H 4 ; : L 5 ; : (HL) 6 ;
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: BC 0 ; : DE 1 ; : HL 2 ; : AF 3 ; : SP AF ;
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: CNZ 0 ; : CZ 1 ; : CNC 2 ; : CC 3 ;
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: CPO 4 ; : CPE 5 ; : CP 6 ; : CM 7 ;
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( ----- 007 )
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( Splits word into msb/lsb, lsb being on TOS )
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: SPLITB
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256 /MOD SWAP
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;
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: PC H@ ORG @ - BIN( @ + ;
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( A, spits an assembled byte, A,, spits an assembled word
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Both increase PC. )
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: A,, SPLITB A, A, ;
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: <<3 3 LSHIFT ; : <<4 4 LSHIFT ;
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( As a general rule, IX and IY are equivalent to spitting an
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extra 0xdd / 0xfd and then spit the equivalent of HL )
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: IX 0xdd A, HL ; : IY 0xfd A, HL ;
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: _ix+- 0xff AND 0xdd A, (HL) ;
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: _iy+- 0xff AND 0xfd A, (HL) ;
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: IX+ _ix+- ; : IX- 0 -^ _ix+- ;
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: IY+ _iy+- ; : IY- 0 -^ _iy+- ;
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( ----- 008 )
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: OP1 CREATE C, DOES> C@ A, ;
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0xf3 OP1 DI, 0xfb OP1 EI,
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0xeb OP1 EXDEHL, 0xd9 OP1 EXX,
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0x08 OP1 EXAFAF', 0xe3 OP1 EX(SP)HL,
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0x76 OP1 HALT, 0xe9 OP1 JP(HL),
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0x12 OP1 LD(DE)A, 0x1a OP1 LDA(DE),
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0x02 OP1 LD(BC)A, 0x0a OP1 LDA(BC),
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0x00 OP1 NOP, 0xc9 OP1 RET,
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0x17 OP1 RLA, 0x07 OP1 RLCA,
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0x1f OP1 RRA, 0x0f OP1 RRCA,
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0x37 OP1 SCF,
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( ----- 009 )
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( Relative jumps are a bit special. They're supposed to take
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an argument, but they don't take it so they can work with
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the label system. Therefore, relative jumps are an OP1 but
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when you use them, you're expected to write the offset
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afterwards yourself. )
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0x18 OP1 JR, 0x10 OP1 DJNZ,
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0x38 OP1 JRC, 0x30 OP1 JRNC,
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0x28 OP1 JRZ, 0x20 OP1 JRNZ,
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( ----- 010 )
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( r -- )
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: OP1r
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CREATE C,
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DOES>
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C@ ( r op )
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SWAP ( op r )
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<<3 ( op r<<3 )
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OR A,
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;
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0x04 OP1r INCr, 0x05 OP1r DECr,
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: INC(IXY+), INCr, A, ;
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: DEC(IXY+), DECr, A, ;
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( also works for c )
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0xc0 OP1r RETc,
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( ----- 011 )
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: OP1r0 ( r -- )
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CREATE C, DOES>
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C@ ( r op ) OR A, ;
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0x80 OP1r0 ADDr, 0x88 OP1r0 ADCr,
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0xa0 OP1r0 ANDr, 0xb8 OP1r0 CPr,
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0xb0 OP1r0 ORr, 0x90 OP1r0 SUBr,
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0x98 OP1r0 SBCr, 0xa8 OP1r0 XORr,
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: CP(IXY+), CPr, A, ;
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( ----- 012 )
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: OP1d
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CREATE C,
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DOES>
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C@ ( d op )
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SWAP ( op d )
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<<4 ( op d<<4 )
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OR A,
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;
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0xc5 OP1d PUSH, 0xc1 OP1d POP,
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0x03 OP1d INCd, 0x0b OP1d DECd,
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0x09 OP1d ADDHLd,
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: ADDIXd, 0xdd A, ADDHLd, ; : ADDIXIX, HL ADDIXd, ;
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: ADDIYd, 0xfd A, ADDHLd, ; : ADDIYIY, HL ADDIYd, ;
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( ----- 013 )
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: _1rr
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C@ ( rd rr op )
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ROT ( rr op rd )
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<<3 ( rr op rd<<3 )
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OR OR A,
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;
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( rd rr )
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: OP1rr
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CREATE C,
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DOES>
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_1rr
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;
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0x40 OP1rr LDrr,
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( ----- 014 )
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( ixy+- HL rd )
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: LDIXYr,
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( dd/fd has already been spit )
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LDrr, ( ixy+- )
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A,
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;
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( rd ixy+- HL )
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: LDrIXY,
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ROT ( ixy+- HL rd )
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SWAP ( ixy+- rd HL )
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LDIXYr,
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;
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( ----- 015 )
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: OP2 CREATE , DOES> @ 256 /MOD A, A, ;
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0xeda1 OP2 CPI, 0xedb1 OP2 CPIR,
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0xeda9 OP2 CPD, 0xedb9 OP2 CPDR,
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0xed46 OP2 IM0, 0xed56 OP2 IM1,
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0xed5e OP2 IM2,
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0xeda0 OP2 LDI, 0xedb0 OP2 LDIR,
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0xeda8 OP2 LDD, 0xedb8 OP2 LDDR,
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0xed44 OP2 NEG,
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0xed4d OP2 RETI, 0xed45 OP2 RETN,
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( ----- 016 )
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: OP2i ( i -- )
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CREATE C,
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DOES>
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C@ A, A,
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;
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0xd3 OP2i OUTiA,
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0xdb OP2i INAi,
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0xc6 OP2i ADDi,
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0xe6 OP2i ANDi,
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0xf6 OP2i ORi,
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0xd6 OP2i SUBi,
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0xee OP2i XORi,
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0xfe OP2i CPi,
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( ----- 017 )
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: OP2ri ( r i -- )
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CREATE C,
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DOES>
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C@ ( r i op )
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ROT ( i op r )
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<<3 ( i op r<<3 )
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OR A, A,
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;
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0x06 OP2ri LDri,
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( ----- 018 )
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( b r -- )
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: OP2br
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CREATE C,
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DOES>
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0xcb A,
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C@ ( b r op )
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ROT ( r op b )
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<<3 ( r op b<<3 )
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OR OR A,
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;
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0xc0 OP2br SET,
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0x80 OP2br RES,
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0x40 OP2br BIT,
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( ----- 019 )
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( bitwise rotation ops have a similar sig )
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: OProt ( r -- )
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CREATE C,
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DOES>
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0xcb A,
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C@ ( r op )
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OR A,
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;
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0x10 OProt RL,
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0x00 OProt RLC,
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0x18 OProt RR,
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0x08 OProt RRC,
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0x20 OProt SLA,
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0x38 OProt SRL,
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( ----- 020 )
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( cell contains both bytes. MSB is spit as-is, LSB is ORed
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with r )
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( r -- )
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: OP2r
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CREATE ,
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DOES>
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@ SPLITB SWAP ( r lsb msb )
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A, ( r lsb )
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SWAP <<3 ( lsb r<<3 )
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OR A,
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;
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0xed41 OP2r OUT(C)r,
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0xed40 OP2r INr(C),
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( ----- 021 )
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: OP2d ( d -- )
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CREATE C,
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DOES>
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0xed A,
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C@ SWAP ( op d )
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<<4 ( op d<< 4 )
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OR A,
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;
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0x4a OP2d ADCHLd,
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0x42 OP2d SBCHLd,
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( ----- 022 )
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( d i -- )
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: OP3di
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CREATE C,
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DOES>
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C@ ( d n op )
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ROT ( n op d )
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<<4 ( n op d<<4 )
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OR A,
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A,,
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;
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0x01 OP3di LDdi,
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( ----- 023 )
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( i -- )
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: OP3i
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CREATE C,
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DOES>
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C@ A,
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A,,
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;
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0xcd OP3i CALL,
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0xc3 OP3i JP,
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0x22 OP3i LD(i)HL, 0x2a OP3i LDHL(i),
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0x32 OP3i LD(i)A, 0x3a OP3i LDA(i),
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( ----- 024 )
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: LDd(i), ( d i -- )
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0xed A,
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SWAP <<4 0x4b OR A,
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A,,
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;
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: LD(i)d, ( i d -- )
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0xed A,
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<<4 0x43 OR A,
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A,,
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;
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: RST, 0xc7 OR A, ;
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: JP(IX), IX DROP JP(HL), ;
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: JP(IY), IY DROP JP(HL), ;
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( ----- 025 )
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: JPc, SWAP <<3 0xc2 OR A, A,, ;
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: BCALL, BIN( @ + CALL, ;
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: BJP, BIN( @ + JP, ;
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: BJPc, BIN( @ + JPc, ;
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CREATE lblchkPS 0 ,
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: chkPS, lblchkPS @ CALL, ; ( chkPS, B305 )
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CREATE lblnext 0 , ( stable ABI until set in B300 )
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: JPNEXT, lblnext @ ?DUP IF JP, ELSE 0x1a BJP, THEN ;
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: CODE ( same as CREATE, but with native word )
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(entry) 0 C, ( 0 == native ) ;
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: ;CODE JPNEXT, ;
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( ----- 026 )
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( Place BEGIN, where you want to jump back and AGAIN after
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a relative jump operator. Just like BSET and BWR. )
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: BEGIN, PC ;
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: BSET PC SWAP ! ;
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( same as BSET, but we need to write a placeholder )
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: FJR, PC 0 A, ;
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: IFZ, JRNZ, FJR, ;
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: IFNZ, JRZ, FJR, ;
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: IFC, JRNC, FJR, ;
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: IFNC, JRC, FJR, ;
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: THEN,
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DUP PC ( l l pc )
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-^ 1- ( l off )
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( warning: l is a PC offset, not a mem addr! )
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SWAP ORG @ + BIN( @ - ( off addr )
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C! ;
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( ----- 027 )
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: FWR BSET 0 A, ;
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: FSET @ THEN, ;
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: BREAK, FJR, 0x8000 OR ;
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: BREAK?, DUP 0x8000 AND IF
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0x7fff AND 1 ALLOT THEN, -1 ALLOT
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THEN ;
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: AGAIN, BREAK?, PC - 1- A, ;
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: BWR @ AGAIN, ;
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( ----- 028 )
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( Macros )
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( clear carry + SBC )
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: SUBHLd, A ORr, SBCHLd, ;
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: PUSH0, DE 0 LDdi, DE PUSH, ;
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: PUSH1, DE 1 LDdi, DE PUSH, ;
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: PUSHZ, DE 0 LDdi, IFZ, DE INCd, THEN, DE PUSH, ;
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: PUSHA, D 0 LDri, E A LDrr, DE PUSH, ;
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: HLZ, A H LDrr, L ORr, ;
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: DEZ, A D LDrr, E ORr, ;
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: LDDE(HL), E (HL) LDrr, HL INCd, D (HL) LDrr, ;
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: OUTHL, DUP A H LDrr, OUTiA, A L LDrr, OUTiA, ;
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: OUTDE, DUP A D LDrr, OUTiA, A E LDrr, OUTiA, ;
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( ----- 030 )
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( 8086 assembler. See doc/asm.txt )
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1 13 LOADR+
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( ----- 031 )
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VARIABLE ORG
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CREATE BIN( 0 , : BIN(+ BIN( @ + ;
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VARIABLE L1 VARIABLE L2 VARIABLE L3 VARIABLE L4
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: AL 0 ; : CL 1 ; : DL 2 ; : BL 3 ;
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: AH 4 ; : CH 5 ; : DH 6 ; : BH 7 ;
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: AX 0 ; : CX 1 ; : DX 2 ; : BX 3 ;
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: SP 4 ; : BP 5 ; : SI 6 ; : DI 7 ;
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: ES 0 ; : CS 1 ; : SS 2 ; : DS 3 ;
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: [BX+SI] 0 ; : [BX+DI] 1 ; : [BP+SI] 2 ; : [BP+DI] 3 ;
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: [SI] 4 ; : [DI] 5 ; : [BP] 6 ; : [BX] 7 ;
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: <<3 3 LSHIFT ;
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( ----- 032 )
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( Splits word into msb/lsb, lsb being on TOS )
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: SPLITB
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256 /MOD SWAP
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;
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: PC H@ ORG @ - BIN( @ + ;
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: A,, SPLITB A, A, ;
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( ----- 033 )
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: OP1 CREATE C, DOES> C@ A, ;
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0xc3 OP1 RET, 0xfa OP1 CLI, 0xfb OP1 STI,
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0xf4 OP1 HLT, 0xfc OP1 CLD, 0xfd OP1 STD,
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0x90 OP1 NOP, 0x98 OP1 CBW,
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0xf3 OP1 REPZ, 0xf2 OP1 REPNZ, 0xac OP1 LODSB,
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0xad OP1 LODSW, 0xa6 OP1 CMPSB, 0xa7 OP1 CMPSW,
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0xa4 OP1 MOVSB, 0xa5 OP1 MOVSW, 0xae OP1 SCASB,
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0xaf OP1 SCASW, 0xaa OP1 STOSB, 0xab OP1 STOSW,
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( no argument, jumps with relative addrs are special )
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0xeb OP1 JMPs, 0xe9 OP1 JMPn, 0x74 OP1 JZ,
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0x75 OP1 JNZ, 0x72 OP1 JC, 0x73 OP1 JNC,
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0xe8 OP1 CALL,
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: OP1r CREATE C, DOES> C@ + A, ;
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0x40 OP1r INCx, 0x48 OP1r DECx,
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0x58 OP1r POPx, 0x50 OP1r PUSHx,
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( ----- 034 )
|
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: OPr0 ( reg op ) CREATE C, C, DOES>
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C@+ A, C@ <<3 OR 0xc0 OR A, ;
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0 0xd0 OPr0 ROLr1, 0 0xd1 OPr0 ROLx1, 4 0xf6 OPr0 MULr,
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1 0xd0 OPr0 RORr1, 1 0xd1 OPr0 RORx1, 4 0xf7 OPr0 MULx,
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4 0xd0 OPr0 SHLr1, 4 0xd1 OPr0 SHLx1, 6 0xf6 OPr0 DIVr,
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5 0xd0 OPr0 SHRr1, 5 0xd1 OPr0 SHRx1, 6 0xf7 OPr0 DIVx,
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0 0xd2 OPr0 ROLrCL, 0 0xd3 OPr0 ROLxCL, 1 0xfe OPr0 DECr,
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1 0xd2 OPr0 RORrCL, 1 0xd3 OPr0 RORxCL, 0 0xfe OPr0 INCr,
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4 0xd2 OPr0 SHLrCL, 4 0xd3 OPr0 SHLxCL,
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5 0xd2 OPr0 SHRrCL, 5 0xd3 OPr0 SHRxCL,
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( ----- 035 )
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: OPrr CREATE C, DOES> C@ A, <<3 OR 0xc0 OR A, ;
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0x31 OPrr XORxx, 0x30 OPrr XORrr,
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0x88 OPrr MOVrr, 0x89 OPrr MOVxx, 0x28 OPrr SUBrr,
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0x29 OPrr SUBxx, 0x08 OPrr ORrr, 0x09 OPrr ORxx,
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0x38 OPrr CMPrr, 0x39 OPrr CMPxx, 0x00 OPrr ADDrr,
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0x01 OPrr ADDxx, 0x20 OPrr ANDrr, 0x21 OPrr ANDxx,
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( ----- 036 )
|
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: OPm ( modrm op ) CREATE C, C, DOES> C@+ A, C@ OR A, ;
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0 0xff OPm INC[w], 0 0xfe OPm INC[b],
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0x8 0xff OPm DEC[w], 0x8 0xfe OPm DEC[b],
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0x30 0xff OPm PUSH[w], 0 0x8f OPm POP[w],
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: OPm+ ( modrm op ) CREATE C, C, DOES>
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( m off ) C@+ A, C@ ROT OR A, A, ;
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0x40 0xff OPm+ INC[w]+, 0x40 0xfe OPm+ INC[b]+,
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0x48 0xff OPm+ DEC[w]+, 0x48 0xfe OPm+ DEC[b]+,
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0x70 0xff OPm+ PUSH[w]+, 0x40 0x8f OPm+ POP[w]+,
|
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( ----- 037 )
|
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: OPrm CREATE C, DOES> C@ A, SWAP 3 LSHIFT OR A, ;
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0x8a OPrm MOVr[], 0x8b OPrm MOVx[],
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0x3a OPrm CMPr[], 0x3b OPrm CMPx[],
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: OPmr CREATE C, DOES> C@ A, 3 LSHIFT OR A, ;
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0x88 OPmr MOV[]r, 0x89 OPmr MOV[]x,
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: OPrm+ ( r m off ) CREATE C, DOES>
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C@ A, ROT 3 LSHIFT ROT OR 0x40 OR A, A, ;
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0x8a OPrm+ MOVr[]+, 0x8b OPrm+ MOVx[]+,
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0x3a OPrm+ CMPr[]+, 0x3b OPrm+ CMPx[]+,
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: OPm+r ( m off r ) CREATE C, DOES>
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C@ A, 3 LSHIFT ROT OR 0x40 OR A, A, ;
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0x88 OPm+r MOV[]+r, 0x89 OPm+r MOV[]+x,
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( ----- 038 )
|
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: OPi CREATE C, DOES> C@ A, A, ;
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0x04 OPi ADDALi, 0x24 OPi ANDALi, 0x2c OPi SUBALi,
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0xcd OPi INT,
|
|
: OPI CREATE C, DOES> C@ A, A,, ;
|
|
0x05 OPI ADDAXI, 0x25 OPI ANDAXI, 0x2d OPI SUBAXI,
|
|
( ----- 040 )
|
|
: MOVri, SWAP 0xb0 OR A, A, ;
|
|
: MOVxI, SWAP 0xb8 OR A, A,, ;
|
|
: MOVsx, 0x8e A, SWAP <<3 OR 0xc0 OR A, ;
|
|
: MOVrm, 0x8a A, SWAP <<3 0x6 OR A, A,, ;
|
|
: MOVxm, 0x8b A, SWAP <<3 0x6 OR A, A,, ;
|
|
: MOVmr, 0x88 A, <<3 0x6 OR A, A,, ;
|
|
: MOVmx, 0x89 A, <<3 0x6 OR A, A,, ;
|
|
: PUSHs, <<3 0x06 OR A, ; : POPs, <<3 0x07 OR A, ;
|
|
: SUBxi, 0x83 A, SWAP 0xe8 OR A, A, ;
|
|
: ADDxi, 0x83 A, SWAP 0xc0 OR A, A, ;
|
|
: JMPr, 0xff A, 7 AND 0xe0 OR A, ;
|
|
: JMPf, ( seg off ) 0xea A, SPLITB A, A, A,, ;
|
|
( ----- 041 )
|
|
( Place BEGIN, where you want to jump back and AGAIN after
|
|
a relative jump operator. Just like BSET and BWR. )
|
|
: BEGIN, PC ;
|
|
: BSET PC SWAP ! ;
|
|
( same as BSET, but we need to write a placeholder )
|
|
: FJR, PC 0 A, ;
|
|
: IFZ, JNZ, FJR, ;
|
|
: IFNZ, JZ, FJR, ;
|
|
: IFC, JNC, FJR, ;
|
|
: IFNC, JC, FJR, ;
|
|
: THEN,
|
|
DUP PC ( l l pc )
|
|
-^ 1- ( l off )
|
|
( warning: l is a PC offset, not a mem addr! )
|
|
SWAP ORG @ + BIN( @ - ( off addr )
|
|
C! ;
|
|
( ----- 042 )
|
|
: FWRs BSET 0 A, ;
|
|
: FSET @ THEN, ;
|
|
( : BREAK, FJR, 0x8000 OR ;
|
|
: BREAK?, DUP 0x8000 AND IF
|
|
0x7fff AND 1 ALLOT THEN, -1 ALLOT
|
|
THEN ; )
|
|
: RPCs, PC - 1- DUP 128 + 0xff > IF ABORT" PC ovfl" THEN A, ;
|
|
: RPCn, PC - 2- A,, ;
|
|
: AGAIN, ( BREAK?, ) RPCs, ;
|
|
( Use RPCx with appropriate JMP/CALL op. Example:
|
|
JMPs, 0x42 RPCs, or CALL, 0x1234 RPCn, )
|
|
( ----- 043 )
|
|
: PUSHZ, CX 0 MOVxI, IFZ, CX INCx, THEN, CX PUSHx, ;
|
|
: CODE ( same as CREATE, but with native word )
|
|
(entry) 0 ( native ) C, ;
|
|
: ;CODE JMPn, 0x1a ( next ) RPCn, ;
|
|
VARIABLE lblchkPS
|
|
: chkPS, ( sz -- )
|
|
CX SWAP 2 * MOVxI, CALL, lblchkPS @ RPCn, ;
|
|
( ----- 050 )
|
|
1 12 LOADR+
|
|
( ----- 051 )
|
|
VARIABLE ORG
|
|
VARIABLE L1 VARIABLE L2 VARIABLE L3 VARIABLE L4
|
|
: SPLITB
|
|
256 /MOD SWAP
|
|
;
|
|
( We divide by 2 because each PC represents a word. )
|
|
: PC H@ ORG @ - 1 RSHIFT ;
|
|
( A, spits an assembled byte, A,, spits an assembled word
|
|
Both increase PC. )
|
|
: A,, SPLITB A, A, ;
|
|
( ----- 052 )
|
|
: _oor ." arg out of range: " .X SPC ." PC: " PC .X NL ABORT ;
|
|
: _r8c DUP 7 > IF _oor THEN ;
|
|
: _r32c DUP 31 > IF _oor THEN ;
|
|
: _r16+c _r32c DUP 16 < IF _oor THEN ;
|
|
: _r64c DUP 63 > IF _oor THEN ;
|
|
: _r256c DUP 255 > IF _oor THEN ;
|
|
: _Rdp ( op rd -- op', place Rd ) 4 LSHIFT OR ;
|
|
( ----- 053 )
|
|
( 0000 000d dddd 0000 )
|
|
: OPRd CREATE , DOES> @ SWAP _r32c _Rdp A,, ;
|
|
0b1001010000000101 OPRd ASR, 0b1001010000000000 OPRd COM,
|
|
0b1001010000001010 OPRd DEC, 0b1001010000000011 OPRd INC,
|
|
0b1001001000000110 OPRd LAC, 0b1001001000000101 OPRd LAS,
|
|
0b1001001000000111 OPRd LAT,
|
|
0b1001010000000110 OPRd LSR, 0b1001010000000001 OPRd NEG,
|
|
0b1001000000001111 OPRd POP, 0b1001001000001111 OPRd PUSH,
|
|
0b1001010000000111 OPRd ROR, 0b1001010000000010 OPRd SWAP,
|
|
0b1001001000000100 OPRd XCH,
|
|
( ----- 054 )
|
|
( 0000 00rd dddd rrrr )
|
|
: OPRdRr CREATE C, DOES> C@ ( rd rr op )
|
|
OVER _r32c 0x10 AND 3 RSHIFT OR ( rd rr op' )
|
|
8 LSHIFT OR 0xff0f AND ( rd op' )
|
|
SWAP _r32c _Rdp A,, ;
|
|
0x1c OPRdRr ADC, 0x0c OPRdRr ADD, 0x20 OPRdRr AND,
|
|
0x14 OPRdRr CP, 0x04 OPRdRr CPC, 0x10 OPRdRr CPSE,
|
|
0x24 OPRdRr EOR, 0x2c OPRdRr MOV, 0x9c OPRdRr MUL,
|
|
0x28 OPRdRr OR, 0x08 OPRdRr SBC, 0x18 OPRdRr SUB,
|
|
|
|
( 0000 0AAd dddd AAAA )
|
|
: OPRdA CREATE C, DOES> C@ ( rd A op )
|
|
OVER _r64c 0x30 AND 3 RSHIFT OR ( rd A op' )
|
|
8 LSHIFT OR 0xff0f AND ( rd op' ) SWAP _r32c _Rdp A,, ;
|
|
0xb0 OPRdA IN, 0xb8 OPRdA _ : OUT, SWAP _ ;
|
|
( ----- 055 )
|
|
( 0000 KKKK dddd KKKK )
|
|
: OPRdK CREATE C, DOES> C@ ( rd K op )
|
|
OVER _r256c 0xf0 AND 4 RSHIFT OR ( rd K op' )
|
|
ROT _r16+c 4 LSHIFT ROT 0x0f AND OR ( op' rdK ) A, A, ;
|
|
0x70 OPRdK ANDI, 0x30 OPRdK CPI, 0xe0 OPRdK LDI,
|
|
0x60 OPRdK ORI, 0x40 OPRdK SBCI, 0x60 OPRdK SBR,
|
|
0x50 OPRdK SUBI,
|
|
|
|
( 0000 0000 AAAA Abbb )
|
|
: OPAb CREATE C, DOES> C@ ( A b op )
|
|
ROT _r32c 3 LSHIFT ROT _r8c OR A, A, ;
|
|
0x98 OPAb CBI, 0x9a OPAb SBI, 0x99 OPAb SBIC,
|
|
0x9b OPAb SBIS,
|
|
( ----- 056 )
|
|
: OPNA CREATE , DOES> @ A,, ;
|
|
0x9598 OPNA BREAK, 0x9488 OPNA CLC, 0x94d8 OPNA CLH,
|
|
0x94f8 OPNA CLI, 0x94a8 OPNA CLN, 0x94c8 OPNA CLS,
|
|
0x94e8 OPNA CLT, 0x94b8 OPNA CLV, 0x9498 OPNA CLZ,
|
|
0x9419 OPNA EIJMP, 0x9509 OPNA ICALL, 0x9519 OPNA EICALL,
|
|
0x9409 OPNA IJMP, 0x0000 OPNA NOP, 0x9508 OPNA RET,
|
|
0x9518 OPNA RETI, 0x9408 OPNA SEC, 0x9458 OPNA SEH,
|
|
0x9478 OPNA SEI, 0x9428 OPNA SEN, 0x9448 OPNA SES,
|
|
0x9468 OPNA SET, 0x9438 OPNA SEV, 0x9418 OPNA SEZ,
|
|
0x9588 OPNA SLEEP, 0x95a8 OPNA WDR,
|
|
( ----- 057 )
|
|
( 0000 0000 0sss 0000 )
|
|
: OPb CREATE , DOES> @ ( b op )
|
|
SWAP _r8c _Rdp A,, ;
|
|
0b1001010010001000 OPb BCLR, 0b1001010000001000 OPb BSET,
|
|
|
|
( 0000 000d dddd 0bbb )
|
|
: OPRdb CREATE , DOES> @ ( rd b op )
|
|
ROT _r32c _Rdp SWAP _r8c OR A,, ;
|
|
0b1111100000000000 OPRdb BLD, 0b1111101000000000 OPRdb BST,
|
|
0b1111110000000000 OPRdb SBRC, 0b1111111000000000 OPRdb SBRS,
|
|
|
|
( special cases )
|
|
: CLR, DUP EOR, ; : TST, DUP AND, ; : LSL, DUP ADD, ;
|
|
( ----- 058 )
|
|
( a -- k12, absolute addr a, relative to PC in a k12 addr )
|
|
: _r7ffc DUP 0x7ff > IF _oor THEN ;
|
|
: _raddr12
|
|
PC - DUP 0< IF 0x800 + _r7ffc 0x800 OR ELSE _r7ffc THEN ;
|
|
: RJMP _raddr12 0xc000 OR ;
|
|
: RCALL _raddr12 0xd000 OR ;
|
|
: RJMP, RJMP A,, ; : RCALL, RCALL A,, ;
|
|
( ----- 059 )
|
|
( a -- k7, absolute addr a, relative to PC in a k7 addr )
|
|
: _r3fc DUP 0x3f > IF _oor THEN ;
|
|
: _raddr7
|
|
PC - DUP 0< IF 0x40 + _r3fc 0x40 OR ELSE _r3fc THEN ;
|
|
: _brbx ( a b op -- a ) OR SWAP _raddr7 3 LSHIFT OR ;
|
|
: BRBC 0xf400 _brbx ; : BRBS 0xf000 _brbx ; : BRCC 0 BRBC ;
|
|
: BRCS 0 BRBS ; : BREQ 1 BRBS ; : BRNE 1 BRBC ; : BRGE 4 BRBC ;
|
|
: BRHC 5 BRBC ; : BRHS 5 BRBS ; : BRID 7 BRBC ; : BRIE 7 BRBS ;
|
|
: BRLO BRCS ; : BRLT 4 BRBS ; : BRMI 2 BRBS ; : BRPL 2 BRBC ;
|
|
: BRSH BRCC ; : BRTC 6 BRBC ; : BRTS 6 BRBS ; : BRVC 3 BRBC ;
|
|
: BRVS 3 BRBS ;
|
|
( ----- 060 )
|
|
0b11100 CONSTANT X 0b01000 CONSTANT Y 0b00000 CONSTANT Z
|
|
0b11101 CONSTANT X+ 0b11001 CONSTANT Y+ 0b10001 CONSTANT Z+
|
|
0b11110 CONSTANT -X 0b11010 CONSTANT -Y 0b10010 CONSTANT -Z
|
|
: _ldst ( Rd XYZ op ) SWAP DUP 0x10 AND 8 LSHIFT SWAP 0xf AND
|
|
OR OR ( Rd op' ) SWAP _Rdp A,, ;
|
|
: LD, 0x8000 _ldst ; : ST, SWAP 0x8200 _ldst ;
|
|
( ----- 061 )
|
|
( L1 LBL! .. L1 ' RJMP LBL, )
|
|
: LBL! ( l -- ) PC SWAP ! ;
|
|
: LBL, ( l op -- ) SWAP @ 1- SWAP EXECUTE A,, ;
|
|
: SKIP, PC 0 A,, ;
|
|
: TO, ( opw pc )
|
|
( warning: pc is a PC offset, not a mem addr! )
|
|
2 * ORG @ + PC 1- H@ ( opw addr tgt hbkp )
|
|
ROT HERE ! ( opw tgt hbkp ) SWAP ROT EXECUTE H@ ! ( hbkp )
|
|
HERE ! ;
|
|
( L1 FLBL, .. L1 ' RJMP FLBL! )
|
|
: FLBL, ( l -- ) LBL! 0 A,, ;
|
|
: FLBL! ( l opw -- ) SWAP @ TO, ;
|
|
: BEGIN, PC ; : AGAIN?, ( op ) SWAP 1- SWAP EXECUTE A,, ;
|
|
: AGAIN, ['] RJMP AGAIN?, ;
|
|
: IF, ['] BREQ SKIP, ; : THEN, TO, ;
|
|
( ----- 062 )
|
|
( Constant common to all AVR models )
|
|
: R0 0 ; : R1 1 ; : R2 2 ; : R3 3 ; : R4 4 ; : R5 5 ; : R6 6 ;
|
|
: R7 7 ; : R8 8 ; : R9 9 ; : R10 10 ; : R11 11 ; : R12 12 ;
|
|
: R13 13 ; : R14 14 ; : R15 15 ; : R16 16 ; : R17 17 ;
|
|
: R18 18 ; : R19 19 ; : R20 20 ; : R21 21 ; : R22 22 ;
|
|
: R24 24 ; : R25 25 ; : R26 26 ; : R27 27 ; : R28 28 ;
|
|
: R29 29 ; : R30 30 ; : R31 31 ; : XL R26 ; : XH R27 ;
|
|
: YL R28 ; : YH R29 ; : ZL R30 ; : ZH R31 ;
|
|
( ----- 065 )
|
|
( ATmega328P definitions ) : > CONSTANT ;
|
|
0xc6 > UDR0 0xc4 > UBRR0L 0xc5 > UBRR0H 0xc2 > UCSR0C
|
|
0xc1 > UCSR0B 0xc0 > UCSR0A 0xbd > TWAMR 0xbc > TWCR
|
|
0xbb > TWDR 0xba > TWAR 0xb9 > TWSR 0xb8 > TWBR 0xb6 > ASSR
|
|
0xb4 > OCR2B 0xb3 > OCR2A 0xb2 > TCNT2 0xb1 > TCCR2B
|
|
0xb0 > TCCR2A 0x8a > OCR1BL 0x8b > OCR1BH 0x88 > OCR1AL
|
|
0x89 > OCR1AH 0x86 > ICR1L 0x87 > ICR1H 0x84 > TCNT1L
|
|
0x85 > TCNT1H 0x82 > TCCR1C 0x81 > TCCR1B 0x80 > TCCR1A
|
|
0x7f > DIDR1 0x7e > DIDR0 0x7c > ADMUX 0x7b > ADCSRB
|
|
0x7a > ADCSRA 0x79 > ADCH 0x78 > ADCL 0x70 > TIMSK2
|
|
0x6f > TIMSK1 0x6e > TIMSK0 0x6c > PCMSK1 0x6d > PCMSK2
|
|
0x6b > PCMSK0 0x69 > EICRA 0x68 > PCICR 0x66 > OSCCAL
|
|
0x64 > PRR 0x61 > CLKPR 0x60 > WDTCSR 0x3f > SREG 0x3d > SPL
|
|
0x3e > SPH 0x37 > SPMCSR 0x35 > MCUCR 0x34 > MCUSR 0x33 > SMCR
|
|
0x30 > ACSR 0x2e > SPDR 0x2d > SPSR 0x2c > SPCR 0x2b > GPIOR2
|
|
0x2a > GPIOR1 0x28 > OCR0B 0x27 > OCR0A 0x26 > TCNT0 ( cont. )
|
|
( ----- 066 )
|
|
( cont. ) 0x25 > TCCR0B 0x24 > TCCR0A 0x23 > GTCCR
|
|
0x22 > EEARH 0x21 > EEARL 0x20 > EEDR 0x1f > EECR
|
|
0x1e > GPIOR0 0x1d > EIMSK 0x1c > EIFR 0x1b > PCIFR
|
|
0x17 > TIFR2 0x16 > TIFR1 0x15 > TIFR0 0x0b > PORTD 0x0a > DDRD
|
|
0x09 > PIND 0x08 > PORTC 0x07 > DDRC 0x06 > PINC 0x05 > PORTB
|
|
0x04 > DDRB 0x03 > PINB
|
|
( ----- 100 )
|
|
Block editor
|
|
|
|
This is an application to conveniently browse the contents of
|
|
the disk blocks and edit them. You can load it with "105 LOAD".
|
|
|
|
See doc/ed.txt
|
|
( ----- 105 )
|
|
1 7 LOADR+
|
|
( ----- 106 )
|
|
CREATE ACC 0 ,
|
|
: _LIST ." Block " DUP . NL LIST ;
|
|
: L BLK> @ _LIST ;
|
|
: B BLK> @ 1- BLK@ L ;
|
|
: N BLK> @ 1+ BLK@ L ;
|
|
( ----- 107 )
|
|
( Cursor position in buffer. EDPOS/64 is line number )
|
|
CREATE EDPOS 0 ,
|
|
CREATE IBUF 64 ALLOT0
|
|
CREATE FBUF 64 ALLOT0
|
|
: _cpos BLK( + ;
|
|
: _lpos 64 * _cpos ;
|
|
: _pln ( lineno -- )
|
|
DUP _lpos DUP 64 + SWAP DO ( lno )
|
|
I EDPOS @ _cpos = IF '^' EMIT THEN
|
|
I C@ DUP 0x20 < IF DROP 0x20 THEN
|
|
EMIT
|
|
LOOP ( lno ) 1+ . ;
|
|
: _zbuf 64 0 FILL ; ( buf -- )
|
|
( ----- 108 )
|
|
: _type ( buf -- )
|
|
C< DUP 0xd = IF 2DROP EXIT THEN SWAP DUP _zbuf ( c a )
|
|
BEGIN ( c a ) C!+ C< TUCK 0x0d = UNTIL ( c a ) C! ;
|
|
( user-facing lines are 1-based )
|
|
: T 1- DUP 64 * EDPOS ! _pln ;
|
|
: P IBUF _type IBUF EDPOS @ _cpos 64 MOVE BLK!! ;
|
|
: _mvln+ ( ln -- move ln 1 line down )
|
|
DUP 14 > IF DROP EXIT THEN
|
|
_lpos DUP 64 + 64 MOVE ;
|
|
: _mvln- ( ln -- move ln 1 line up )
|
|
DUP 14 > IF DROP 15 _lpos _zbuf
|
|
ELSE 1+ _lpos DUP 64 - 64 MOVE THEN ;
|
|
( ----- 109 )
|
|
: _U ( U without P, used in VE )
|
|
15 EDPOS @ 64 / - ?DUP IF
|
|
0 DO
|
|
14 I - _mvln+
|
|
LOOP THEN ;
|
|
: U _U P ;
|
|
( ----- 110 )
|
|
: _F ( F without _type and _pln. used in VE )
|
|
FBUF EDPOS @ _cpos 1+ ( a1 a2 )
|
|
BEGIN
|
|
C@+ ROT ( a2+1 c2 a1 ) C@+ ROT ( a2+1 a1+1 c1 c2 )
|
|
= NOT IF DROP FBUF THEN ( a2 a1 )
|
|
TUCK C@ 0xd = ( a1 a2 f1 )
|
|
OVER BLK) = OR ( a1 a2 f1|f2 )
|
|
UNTIL ( a1 a2 )
|
|
DUP BLK) < IF BLK( - FBUF + -^ EDPOS ! ELSE DROP THEN ;
|
|
: F FBUF _type _F EDPOS @ 64 / _pln ;
|
|
( ----- 111 )
|
|
: _blen ( buf -- length of str in buf )
|
|
DUP BEGIN C@+ 0x20 < UNTIL -^ 1- ;
|
|
: _rbufsz ( size of linebuf to the right of curpos )
|
|
EDPOS @ 64 MOD 63 -^ ;
|
|
: _i ( i without _pln and _type. used in VE )
|
|
_rbufsz IBUF _blen 2DUP > IF
|
|
TUCK - ( ilen chars-to-move )
|
|
SWAP EDPOS @ _cpos 2DUP + ( ctm ilen a a+ilen )
|
|
3 PICK MOVE- ( ctm ilen ) NIP ( ilen )
|
|
ELSE DROP 1+ ( ilen becomes rbuffsize+1 ) THEN
|
|
DUP IBUF EDPOS @ _cpos ROT MOVE ( ilen ) EDPOS +! BLK!! ;
|
|
: i IBUF _type _i EDPOS @ 64 / _pln ;
|
|
( ----- 112 )
|
|
: icpy ( n -- copy n chars from cursor to IBUF )
|
|
IBUF _zbuf EDPOS @ _cpos IBUF ( n a buf ) ROT MOVE ;
|
|
: _X ( n -- )
|
|
DUP icpy EDPOS @ _cpos 2DUP + ( n a1 a1+n )
|
|
SWAP _rbufsz MOVE ( n )
|
|
( get to next line - n )
|
|
DUP EDPOS @ 0xffc0 AND 0x40 + -^ _cpos ( n a )
|
|
SWAP 0 FILL BLK!! ;
|
|
: X _X EDPOS @ 64 / _pln ;
|
|
: _E FBUF _blen _X ;
|
|
: E FBUF _blen X ;
|
|
: Y FBUF _blen icpy ;
|
|
( ----- 120 )
|
|
Visual Editor
|
|
|
|
This editor, unlike the Block Editor (B100), is grid-based
|
|
instead of being command-based. It requires the AT-XY, COLS
|
|
and LINES words to be implemented. If you don't have those,
|
|
use the Block Editor.
|
|
|
|
It is loaded with "125 LOAD" and invoked with "VE". Note that
|
|
this also fully loads the Block Editor.
|
|
|
|
This editor uses 19 lines. The top line is the status line and
|
|
it's followed by 2 lines showing the contents of IBUF and
|
|
FBUF (see B100). There are then 16 contents lines. The contents
|
|
shown is that of the currently selected block.
|
|
|
|
(cont.)
|
|
( ----- 121 )
|
|
The status line displays the active block number, then the
|
|
"modifier" and then the cursor position. When the block is dir-
|
|
ty, an "*" is displayed next. At the right corner, a mode letter
|
|
can appear. 'R' for replace, 'I' for insert, 'F' for find.
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
(cont.)
|
|
( ----- 122 )
|
|
All keystrokes are directly interpreted by VE and have the
|
|
effect described below.
|
|
|
|
Pressing a 0-9 digit accumulates that digit into what is named
|
|
the "modifier". That modifier affects the behavior of many
|
|
keystrokes described below. The modifier starts at zero, but
|
|
most commands interpret a zero as a 1 so that they can have an
|
|
effect.
|
|
|
|
'G' selects the block specified by the modifier as the current
|
|
block. Any change made to the previously selected block is
|
|
saved beforehand.
|
|
|
|
'[' and ']' advances the selected block by "modifier". 't' opens
|
|
the previously opened block.
|
|
(cont.)
|
|
( ----- 123 )
|
|
'h' and 'l' move the cursor by "modifier" characters. 'j' and
|
|
'k', by lines. 'g' moves to "modifier" line.
|
|
|
|
'H' goes to the beginning of the line, 'L' to the end.
|
|
|
|
'w' moves forward by "modifier" words. 'b' moves backward.
|
|
'W' moves to end-of-word. 'B', backwards.
|
|
|
|
'I', 'F', 'Y', 'X' and 'E' invoke the corresponding command
|
|
|
|
'o' inserts a blank line after the cursor. 'O', before.
|
|
|
|
'D' deletes "modifier" lines at the cursor. The first of those
|
|
lines is copied to IBUF.
|
|
(cont.)
|
|
( ----- 124 )
|
|
'f' puts the contents of your previous cursor movement into
|
|
FBUF. If that movement was a forward movement, it brings the
|
|
cursor back where it was. This allows for an efficient combi-
|
|
nation of movements and 'E'. For example, if you want to delete
|
|
the next word, you type 'w', then 'f', then check your FBUF to
|
|
be sure, then press 'E'.
|
|
|
|
'R' goes into replace mode at current cursor position.
|
|
Following keystrokes replace current character and advance
|
|
cursor. Press return to return to normal mode.
|
|
|
|
'@' re-reads current block even if it's dirty, thus undoing
|
|
recent changes.
|
|
( ----- 125 )
|
|
-20 LOAD+ ( B105, block editor )
|
|
1 7 LOADR+
|
|
( ----- 126 )
|
|
CREATE CMD 2 C, '$' C, 0 C,
|
|
CREATE PREVPOS 0 , CREATE PREVBLK 0 , CREATE xoff 0 ,
|
|
: MIN ( n n - n ) 2DUP > IF SWAP THEN DROP ;
|
|
: MAX ( n n - n ) 2DUP < IF SWAP THEN DROP ;
|
|
: large? COLS 67 > ; : col- 67 COLS MIN -^ ;
|
|
: width large? IF 64 ELSE COLS THEN ;
|
|
: acc@ ACC @ 1 MAX ; : pos@ ( x y -- ) EDPOS @ 64 /MOD ;
|
|
: num ACC @ SWAP _pdacc IF ACC ! ELSE DROP THEN ;
|
|
: nspcs ( n -- , spit n space ) 0 DO SPC LOOP ;
|
|
: aty 0 SWAP AT-XY ;
|
|
: clrscr LINES 0 DO I aty COLS nspcs LOOP ;
|
|
: gutter ( ln n ) OVER + SWAP DO 67 I AT-XY '|' EMIT LOOP ;
|
|
: status 0 aty ." BLK" SPC BLK> ? SPC ACC ?
|
|
SPC pos@ . ',' EMIT . xoff @ IF '>' EMIT THEN SPC
|
|
BLKDTY @ IF '*' EMIT THEN 4 nspcs ;
|
|
: nums 17 1 DO 2 I + aty I . SPC SPC LOOP ;
|
|
( ----- 127 )
|
|
: mode! ( c -- ) 4 col- 0 AT-XY ;
|
|
: contents
|
|
16 0 DO
|
|
large? IF 3 ELSE 0 THEN I 3 + AT-XY
|
|
64 I * BLK( + ( lineaddr ) xoff @ + DUP width + SWAP
|
|
DO I C@ 0x20 MAX EMIT LOOP LOOP
|
|
large? IF 3 16 gutter THEN ;
|
|
: selblk BLK> @ PREVBLK ! BLK@ contents ;
|
|
: pos! ( newpos -- ) EDPOS @ PREVPOS !
|
|
DUP 0< IF DROP 0 THEN 1023 MIN EDPOS ! ;
|
|
: xoff? pos@ DROP ( x )
|
|
xoff @ ?DUP IF < IF 0 xoff ! contents THEN ELSE
|
|
width >= IF 64 COLS - xoff ! contents THEN THEN ;
|
|
: setpos ( -- ) pos@ 3 + ( header ) SWAP ( y x ) xoff @ -
|
|
large? IF 3 + ( gutter ) THEN SWAP AT-XY ;
|
|
: cmv ( n -- , char movement ) acc@ * EDPOS @ + pos! ;
|
|
( ----- 128 )
|
|
: buftype ( buf ln -- )
|
|
3 OVER AT-XY KEY DUP EMIT
|
|
DUP 0x20 < IF 2DROP DROP EXIT THEN
|
|
( buf ln c ) 4 col- nspcs SWAP 4 SWAP AT-XY ( buf c )
|
|
SWAP C!+ IN( _zbuf (rdln) IN( SWAP 63 MOVE ;
|
|
( ----- 129 )
|
|
: $G ACC @ selblk ;
|
|
: $[ BLK> @ acc@ - selblk ;
|
|
: $] BLK> @ acc@ + selblk ;
|
|
: $t PREVBLK @ selblk ;
|
|
: $I mode! 'I' EMIT IBUF 1 buftype _i contents mode! SPC ;
|
|
: $F mode! 'F' EMIT FBUF 2 buftype _F setpos mode! SPC ;
|
|
: $Y Y ;
|
|
: $E _E contents ;
|
|
: $X acc@ _X contents ;
|
|
: $h -1 cmv ; : $l 1 cmv ; : $k -64 cmv ; : $j 64 cmv ;
|
|
: $H EDPOS @ 0x3c0 AND pos! ;
|
|
: $L EDPOS @ 0x3f OR pos! ;
|
|
: $g ACC @ 1 MAX 1- 64 * pos! ;
|
|
: $@ BLK> @ BLK@* @ EXECUTE 0 BLKDTY ! contents ;
|
|
( ----- 130 )
|
|
: $w EDPOS @ BLK( + acc@ 0 DO
|
|
BEGIN C@+ WS? UNTIL BEGIN C@+ WS? NOT UNTIL LOOP
|
|
1- BLK( - pos! ;
|
|
: $W EDPOS @ BLK( + acc@ 0 DO
|
|
1+ BEGIN C@+ WS? NOT UNTIL BEGIN C@+ WS? UNTIL LOOP
|
|
2- BLK( - pos! ;
|
|
: $b EDPOS @ BLK( + acc@ 0 DO
|
|
1- BEGIN C@- WS? NOT UNTIL BEGIN C@- WS? UNTIL LOOP
|
|
2+ BLK( - pos! ;
|
|
: $B EDPOS @ BLK( + acc@ 0 DO
|
|
BEGIN C@- WS? UNTIL BEGIN C@- WS? NOT UNTIL LOOP
|
|
1+ BLK( - pos! ;
|
|
( ----- 131 )
|
|
: $f EDPOS @ PREVPOS @ 2DUP = IF 2DROP EXIT THEN
|
|
2DUP > IF DUP pos! SWAP THEN
|
|
( p1 p2, p1 < p2 ) OVER - 64 MIN ( pos len ) FBUF _zbuf
|
|
SWAP _cpos FBUF ( len src dst ) ROT MOVE ;
|
|
: $R ( replace mode )
|
|
mode! 'R' EMIT
|
|
BEGIN setpos KEY DUP BS? IF -1 EDPOS +! DROP 0 THEN
|
|
DUP 0x20 >= IF
|
|
DUP EMIT EDPOS @ _cpos C! 1 EDPOS +! BLK!! 0
|
|
THEN UNTIL mode! SPC contents ;
|
|
: $O _U EDPOS @ 0x3c0 AND DUP pos! _cpos _zbuf BLK!! contents ;
|
|
: $o EDPOS @ 0x3c0 < IF EDPOS @ 64 + EDPOS ! $O THEN ;
|
|
: $D $H 64 icpy
|
|
acc@ 0 DO 16 EDPOS @ 64 / DO I _mvln- LOOP LOOP
|
|
BLK!! contents ;
|
|
( ----- 132 )
|
|
: UPPER DUP 'a' 'z' =><= IF 32 - THEN ;
|
|
: handle ( c -- f )
|
|
DUP '0' '9' =><= IF num 0 EXIT THEN
|
|
DUP CMD 2+ C! CMD FIND IF EXECUTE ELSE DROP THEN
|
|
0 ACC ! UPPER 'Q' = ;
|
|
: bufp ( buf -- )
|
|
DUP 3 col- + SWAP DO I C@ EMIT LOOP ;
|
|
: bufs
|
|
1 aty ." I: " IBUF bufp
|
|
2 aty ." F: " FBUF bufp
|
|
large? IF 0 3 gutter THEN ;
|
|
: VE
|
|
1 XYMODE C! clrscr 0 ACC ! 0 PREVPOS ! nums contents
|
|
BEGIN xoff? status bufs setpos KEY handle UNTIL
|
|
0 XYMODE C! 19 aty (infl) ;
|
|
( ----- 160 )
|
|
( AVR Programmer, load range 160-163. doc/avr.txt )
|
|
( page size in words, 64 is default on atmega328P )
|
|
CREATE aspfpgsz 64 ,
|
|
VARIABLE aspprevx
|
|
: _x ( a -- b ) DUP aspprevx ! (spix) ;
|
|
: _xc ( a -- b ) DUP (spix) ( a b )
|
|
DUP aspprevx @ = NOT IF ABORT" AVR err" THEN ( a b )
|
|
SWAP aspprevx ! ( b ) ;
|
|
: _cmd ( b4 b3 b2 b1 -- r4 ) _xc DROP _xc DROP _xc DROP _x ;
|
|
: asprdy ( -- ) BEGIN 0 0 0 0xf0 _cmd 1 AND NOT UNTIL ;
|
|
: asp$ ( spidevid -- )
|
|
( RESET pulse ) DUP (spie) 0 (spie) (spie)
|
|
( wait >20ms ) 220 TICKS
|
|
( enable prog ) 0xac (spix) DROP
|
|
0x53 _x DROP 0 _xc DROP 0 _x DROP ;
|
|
: asperase 0 0 0x80 0xac _cmd asprdy ;
|
|
( ----- 161 )
|
|
( fuse access. read/write one byte at a time )
|
|
: aspfl@ ( -- lfuse ) 0 0 0 0x50 _cmd ;
|
|
: aspfh@ ( -- hfuse ) 0 0 0x08 0x58 _cmd ;
|
|
: aspfe@ ( -- efuse ) 0 0 0x00 0x58 _cmd ;
|
|
: aspfl! ( lfuse -- ) 0 0xa0 0xac _cmd ;
|
|
: aspfh! ( hfuse -- ) 0 0xa8 0xac _cmd ;
|
|
: aspfe! ( efuse -- ) 0 0xa4 0xac _cmd ;
|
|
( ----- 162 )
|
|
: aspfb! ( n a --, write word n to flash buffer addr a )
|
|
SWAP 256 /MOD ( a lo hi ) SWAP ROT ( hi lo a )
|
|
DUP ROT ( hi a a lo ) SWAP ( hi a lo a )
|
|
0 0x40 ( hi a lo a 0 0x40 ) _cmd DROP ( hi a )
|
|
0 0x48 _cmd DROP ;
|
|
: aspfp! ( page --, write buffer to page )
|
|
0 SWAP aspfpgsz @ * 256 /MOD ( 0 lsb msb )
|
|
0x4c _cmd DROP asprdy ;
|
|
: aspf@ ( page a -- n, read word from flash )
|
|
SWAP aspfpgsz @ * OR ( addr ) 256 /MOD ( lsb msb )
|
|
2DUP 0 ROT> ( lsb msb 0 lsb msb )
|
|
0x20 _cmd ( lsb msb low )
|
|
ROT> 0 ROT> ( low 0 lsb msb ) 0x28 _cmd 8 LSHIFT OR ;
|
|
( ----- 163 )
|
|
: aspe@ ( addr -- byte, read from EEPROM )
|
|
0 SWAP 256 /MOD ( 0 lsb msb ) SWAP
|
|
0xa0 ( 0 msb lsb 0xa0 ) _cmd ;
|
|
: aspe! ( byte addr --, write to EEPROM )
|
|
256 /MOD ( b lsb msb ) SWAP
|
|
0xc0 ( b msb lsb 0xc0 ) _cmd DROP asprdy ;
|
|
( ----- 260 )
|
|
Cross compilation program
|
|
|
|
This programs allows cross compilation of boot binary and
|
|
core. Run "262 LOAD" right before your cross compilation and
|
|
then "270 LOAD" to apply xcomp overrides.
|
|
|
|
This unit depends on a properly initialized z80a with ORG and
|
|
BIN( set. That is how we determine compilation offsets.
|
|
|
|
This redefines defining words to achieve cross compilation.
|
|
The goal is two-fold:
|
|
|
|
1. Add an offset to all word references in definitions.
|
|
2. Don't shadow important words we need right now.
|
|
|
|
(cont.)
|
|
( ----- 261 )
|
|
Words overrides like ":", "IMMEDIATE" and "CODE" are not
|
|
automatically shadowed to allow the harmless inclusion of
|
|
this unit. This shadowing has to take place in your xcomp
|
|
configuration.
|
|
|
|
See /doc/cross.txt for details.
|
|
( ----- 262 )
|
|
1 3 LOADR+
|
|
( ----- 263 )
|
|
CREATE XCURRENT 0 ,
|
|
: XCON XCURRENT CURRENT* ! ; : XCOFF 0x02 RAM+ CURRENT* ! ;
|
|
: (xentry) XCON (entry) XCOFF ; : XCREATE (xentry) 2 C, ;
|
|
: X:** (xentry) 5 C, , ;
|
|
: XCODE XCON CODE XCOFF ; : XIMM XCON IMMEDIATE XCOFF ;
|
|
: _xapply ( a -- a-off )
|
|
DUP ORG @ > IF ORG @ - BIN( @ + THEN ;
|
|
: XFIND XCURRENT @ SWAP _find DROP _xapply ;
|
|
: XLITN LIT" (n)" XFIND , , ;
|
|
: X' XCON ' XCOFF ; : X'? XCON '? XCOFF ;
|
|
: X['] XCON ' _xapply XLITN XCOFF ;
|
|
: XCOMPILE XCON ' _xapply XLITN
|
|
LIT" ," FIND DROP _xapply , XCOFF ;
|
|
: X[COMPILE] XCON ' _xapply , XCOFF ;
|
|
( ----- 264 )
|
|
: XDO LIT" 2>R" XFIND , H@ ;
|
|
: XLOOP LIT" (loop)" XFIND , H@ - C, ;
|
|
: XIF LIT" (?br)" XFIND , H@ 1 ALLOT ;
|
|
: XELSE LIT" (br)" XFIND , 1 ALLOT [COMPILE] THEN H@ 1- ;
|
|
: XAGAIN LIT" (br)" XFIND , H@ - C, ;
|
|
: XUNTIL LIT" (?br)" XFIND , H@ - C, ;
|
|
: XLIT"
|
|
LIT" (s)" XFIND , H@ 0 C, ,"
|
|
DUP H@ -^ 1- SWAP C!
|
|
;
|
|
( ----- 265 )
|
|
: X:
|
|
(xentry) 1 ( compiled ) C,
|
|
BEGIN
|
|
WORD DUP LIT" ;" S= IF
|
|
DROP LIT" EXIT" XFIND , EXIT THEN
|
|
XCURRENT @ SWAP ( xcur w ) _find ( a f )
|
|
IF ( a )
|
|
DUP IMMED? IF ABORT THEN
|
|
_xapply ,
|
|
ELSE ( w )
|
|
0x02 RAM+ @ SWAP ( cur w ) _find ( a f )
|
|
IF DUP IMMED? NOT IF ABORT THEN EXECUTE
|
|
ELSE (parse) XLITN THEN
|
|
THEN
|
|
AGAIN ;
|
|
( ----- 270 )
|
|
: CODE XCODE ;
|
|
: '? X'? ;
|
|
: ['] X['] ; IMMEDIATE
|
|
: COMPILE XCOMPILE ; IMMEDIATE
|
|
: [COMPILE] X[COMPILE] ; IMMEDIATE
|
|
: DO XDO ; IMMEDIATE : LOOP XLOOP ; IMMEDIATE
|
|
: IF XIF ; IMMEDIATE : ELSE XELSE ; IMMEDIATE
|
|
: AGAIN XAGAIN ; IMMEDIATE : UNTIL XUNTIL ; IMMEDIATE
|
|
: LIT" XLIT" ; IMMEDIATE : LITN XLITN ;
|
|
: IMMEDIATE XIMM ;
|
|
: (entry) (xentry) ; : CREATE XCREATE ; : :** X:** ;
|
|
: : [ ' X: , ] ;
|
|
|
|
CURRENT @ XCURRENT !
|
|
( ----- 280 )
|
|
Z80 boot code
|
|
|
|
This assembles the boot binary. It requires the Z80 assembler
|
|
(B5) and cross compilation setup (B260). It requires some
|
|
constants to be set. See doc/bootstrap.txt for details.
|
|
|
|
RESERVED REGISTERS: At all times, IX points to RSP TOS and BC
|
|
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".
|
|
|
|
The boot binary is loaded in 2 parts. The first part, "decla-
|
|
rations", are loaded after xcomp, before xcomp overrides, with
|
|
"282 LOAD". The rest, after xcomp overrides, with "283 335
|
|
LOADR".
|
|
( ----- 282 )
|
|
VARIABLE lbluflw VARIABLE lblexec
|
|
( see comment at TICKS' definition )
|
|
( 7.373MHz target: 737t. outer: 37t inner: 16t )
|
|
( tickfactor = (737 - 37) / 16 )
|
|
CREATE tickfactor 44 ,
|
|
( ----- 283 )
|
|
H@ ORG ! ( STABLE ABI )
|
|
0 JP, ( 00, main ) NOP, ( unused ) NOP, NOP, ( 04, BOOT )
|
|
NOP, NOP, ( 06, uflw ) NOP, NOP, ( 08, LATEST )
|
|
NOP, NOP, NOP, NOP, NOP, NOP, ( unused )
|
|
0 JP, ( RST 10 ) NOP, NOP, ( 13, oflw )
|
|
NOP, NOP, NOP, NOP, NOP, ( unused )
|
|
0 JP, ( 1a, next ) NOP, NOP, NOP, ( unused )
|
|
0 JP, ( RST 20 ) 0 A, 0 A, 0 A, 0 A, 0 A, ( unused )
|
|
0 JP, ( RST 28 ) 0 A, 0 A, 0 A, 0 A, 0 A, ( unused )
|
|
0 JP, ( RST 30 ) 0 A, 0 A, 0 A, 0 A, 0 A, ( unused )
|
|
0 JP, ( RST 38 )
|
|
( ----- 284 )
|
|
PC ORG @ 1 + ! ( main )
|
|
SP PS_ADDR LDdi, IX RS_ADDR LDdi,
|
|
( LATEST is a label to the latest entry of the dict. It is
|
|
written at offset 0x08 by the process or person building
|
|
Forth. )
|
|
BIN( @ 0x08 + LDHL(i),
|
|
SYSVARS 0x02 ( CURRENT ) + LD(i)HL,
|
|
HERESTART [IF]
|
|
HL HERESTART LDdi,
|
|
[THEN]
|
|
SYSVARS 0x04 + LD(i)HL, ( RAM+04 == HERE )
|
|
DE BIN( @ 0x04 ( BOOT ) + LDd(i),
|
|
JR, L1 FWR ( execute, B287 )
|
|
( ----- 286 )
|
|
lblnext BSET 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 we overflowing? )
|
|
IX PUSH, EX(SP)HL, ( do EX to count the IX push in SP )
|
|
SP SUBHLd, HL POP,
|
|
IFNC, ( SP <= IX? overflow )
|
|
SP PS_ADDR LDdi, IX RS_ADDR LDdi,
|
|
DE BIN( @ 0x13 ( oflw ) + LDd(i),
|
|
JR, L2 FWR ( execute, B287 )
|
|
THEN,
|
|
LDA(BC), E A LDrr, BC INCd,
|
|
LDA(BC), D A LDrr, BC INCd,
|
|
( continue to execute )
|
|
( ----- 287 )
|
|
lblexec BSET L1 FSET ( B284 ) L2 FSET ( B286 )
|
|
( DE -> wordref )
|
|
LDA(DE), DE INCd, EXDEHL, ( HL points to PFA )
|
|
A ORr, IFZ, JP(HL), THEN,
|
|
A DECr, ( compiled? ) IFNZ, ( no )
|
|
3 CPi, IFZ, ( alias ) LDDE(HL), JR, lblexec BWR THEN,
|
|
IFNC, ( switch )
|
|
LDDE(HL), EXDEHL, LDDE(HL), JR, lblexec BWR THEN,
|
|
( cell or does. push PFA ) HL PUSH,
|
|
A DECr, JRZ, lblnext BWR ( cell )
|
|
HL INCd, HL INCd, LDDE(HL), EXDEHL, ( does )
|
|
THEN, ( continue to compiledWord )
|
|
( ----- 289 )
|
|
( compiled word
|
|
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. )
|
|
IX INCd, IX INCd,
|
|
0 IX+ C LDIXYr,
|
|
1 IX+ B LDIXYr,
|
|
( While we inc, dereference into DE for execute call later. )
|
|
LDDE(HL),
|
|
HL INCd,
|
|
B H LDrr, C L LDrr, ( --> IP )
|
|
JR, lblexec BWR ( execute-B287 )
|
|
( ----- 290 )
|
|
lblchkPS BSET ( chkPS )
|
|
( thread carefully in there: sometimes, we're in the
|
|
middle of a EXX to protect BC. BC must never be touched
|
|
here. )
|
|
EXX,
|
|
( We have the return address for this very call on the stack
|
|
and protected registers. 2- is to compensate that. )
|
|
HL PS_ADDR 2- LDdi,
|
|
SP SUBHLd,
|
|
EXX,
|
|
CNC RETc, ( PS_ADDR >= SP? good )
|
|
( continue to uflw )
|
|
lbluflw BSET ( abortUnderflow )
|
|
DE BIN( @ 0x06 ( uflw ) + LDd(i),
|
|
JR, lblexec BWR
|
|
( ----- 291 )
|
|
( Native words )
|
|
H@ 5 + XCURRENT ! ( make next CODE have 0 prev field )
|
|
CODE _find ( cur w -- a f )
|
|
HL POP, ( w ) DE POP, ( cur ) chkPS,
|
|
HL PUSH, ( --> lvl 1 )
|
|
( First, figure out string len )
|
|
A (HL) LDrr, A ORr,
|
|
( special case. zero len? we never find anything. )
|
|
IFZ, PUSH0, JPNEXT, THEN,
|
|
BC PUSH, ( --> lvl 2, protect )
|
|
( 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. )
|
|
C A LDrr, B 0 LDri, ( C holds our length )
|
|
BC ADDHLd, HL INCd, ( HL points to after-last-char )
|
|
( cont . )
|
|
( ----- 292 )
|
|
BEGIN, ( loop )
|
|
( DE is a wordref, first step, do our len correspond? )
|
|
HL PUSH, ( --> lvl 3 )
|
|
DE PUSH, ( --> lvl 4 )
|
|
DE DECd,
|
|
LDA(DE),
|
|
0x7f ANDi, ( remove IMMEDIATE flag )
|
|
C CPr, ( cont. )
|
|
( ----- 293 )
|
|
IFZ,
|
|
( match, let's compare the string then )
|
|
DE DECd, ( Skip prev field. One less because we )
|
|
DE DECd, ( pre-decrement )
|
|
B C LDrr, ( loop C times )
|
|
BEGIN,
|
|
( pre-decrement for easier Z matching )
|
|
DE DECd,
|
|
HL DECd,
|
|
LDA(DE),
|
|
(HL) CPr,
|
|
JRNZ, BREAK,
|
|
DJNZ, AGAIN,
|
|
THEN,
|
|
( cont. )
|
|
( ----- 294 )
|
|
( At this point, Z is set if we have a match. In all cases,
|
|
we want to pop HL and DE )
|
|
DE POP, ( <-- lvl 4 )
|
|
IFZ, ( match, we're done! )
|
|
HL POP, BC POP, HL POP, ( <-- lvl 1-3 ) DE PUSH,
|
|
PUSH1, JPNEXT,
|
|
THEN,
|
|
( no match, go to prev and continue )
|
|
DE DECd, DE DECd, DE DECd, ( prev field )
|
|
DE PUSH, ( --> lvl 4 )
|
|
EXDEHL,
|
|
LDDE(HL),
|
|
|
|
|
|
( cont. )
|
|
( ----- 295 )
|
|
( DE contains prev offset )
|
|
HL POP, ( <-- lvl 4, prev field )
|
|
DEZ, IFNZ, ( offset not zero )
|
|
( get absolute addr from offset )
|
|
( carry cleared from "or e" )
|
|
DE SBCHLd,
|
|
EXDEHL, ( result in DE )
|
|
THEN,
|
|
HL POP, ( <-- lvl 3 )
|
|
JRNZ, AGAIN, ( loop-B292, try to match again )
|
|
BC POP, ( <-- lvl 2 )
|
|
( Z set? end of dict, not found. "w" already on PSP TOS )
|
|
PUSH0,
|
|
;CODE
|
|
( ----- 297 )
|
|
CODE (br)
|
|
L1 BSET ( used in ?br and loop )
|
|
LDA(BC), H 0 LDri, L A LDrr,
|
|
RLA, IFC, H DECr, THEN,
|
|
BC ADDHLd, B H LDrr, C L LDrr,
|
|
;CODE
|
|
CODE (?br)
|
|
HL POP,
|
|
HLZ,
|
|
JRZ, L1 BWR ( br + 1. False, branch )
|
|
( True, skip next byte and don't branch )
|
|
BC INCd,
|
|
;CODE
|
|
( ----- 298 )
|
|
CODE (loop)
|
|
0 IX+ INC(IXY+), IFZ, 1 IX+ INC(IXY+), THEN, ( I++ )
|
|
( Jump if I <> I' )
|
|
A 0 IX+ LDrIXY, 2 IX- CP(IXY+), JRNZ, L1 BWR ( branch )
|
|
A 1 IX+ LDrIXY, 1 IX- CP(IXY+), JRNZ, L1 BWR ( branch )
|
|
( don't branch )
|
|
IX DECd, IX DECd, IX DECd, IX DECd,
|
|
BC INCd,
|
|
;CODE
|
|
( ----- 305 )
|
|
CODE EXECUTE
|
|
DE POP,
|
|
chkPS,
|
|
lblexec @ JP,
|
|
|
|
CODE EXIT
|
|
C 0 IX+ LDrIXY,
|
|
B 1 IX+ LDrIXY,
|
|
IX DECd, IX DECd,
|
|
JPNEXT,
|
|
( ----- 306 )
|
|
CODE (n) ( number literal )
|
|
( Literal value to push to stack is next to (n) reference
|
|
in the atom list. That is where IP is currently pointing.
|
|
Read, push, then advance IP. )
|
|
LDA(BC), L A LDrr, BC INCd,
|
|
LDA(BC), H A LDrr, BC INCd,
|
|
HL PUSH,
|
|
;CODE
|
|
( ----- 307 )
|
|
CODE (s) ( string literal )
|
|
( Like (n) but instead of being followed by a 2 bytes
|
|
number, it's followed by a string. When called, puts the
|
|
string's address on PS )
|
|
BC PUSH,
|
|
LDA(BC), C ADDr,
|
|
IFC, B INCr, THEN,
|
|
C A LDrr,
|
|
BC INCd,
|
|
;CODE
|
|
( ----- 308 )
|
|
CODE ROT ( a b c -- b c a )
|
|
HL POP, ( C ) DE POP, ( B ) IY POP, ( A ) chkPS,
|
|
DE PUSH, ( B ) HL PUSH, ( C ) IY PUSH, ( A )
|
|
;CODE
|
|
CODE ROT> ( a b c -- c a b )
|
|
HL POP, ( C ) DE POP, ( B ) IY POP, ( A ) chkPS,
|
|
HL PUSH, ( C ) IY PUSH, ( A ) DE PUSH, ( B )
|
|
;CODE
|
|
CODE DUP ( a -- a a )
|
|
HL POP, chkPS,
|
|
HL PUSH, HL PUSH,
|
|
;CODE
|
|
CODE ?DUP
|
|
HL POP, chkPS, HL PUSH,
|
|
HLZ, IFNZ, HL PUSH, THEN,
|
|
;CODE
|
|
( ----- 309 )
|
|
CODE DROP ( a -- )
|
|
HL POP, chkPS,
|
|
;CODE
|
|
CODE SWAP ( a b -- b a )
|
|
HL POP, ( B ) DE POP, ( A )
|
|
chkPS,
|
|
HL PUSH, ( B ) DE PUSH, ( A )
|
|
;CODE
|
|
CODE OVER ( a b -- a b a )
|
|
HL POP, ( B ) DE POP, ( A )
|
|
chkPS,
|
|
DE PUSH, ( A ) HL PUSH, ( B ) DE PUSH, ( A )
|
|
;CODE
|
|
( ----- 310 )
|
|
CODE PICK EXX, ( protect BC )
|
|
HL POP,
|
|
( x2 )
|
|
L SLA, H RL,
|
|
SP ADDHLd,
|
|
C (HL) LDrr,
|
|
HL INCd,
|
|
B (HL) LDrr,
|
|
( check PS range before returning )
|
|
EXDEHL,
|
|
HL PS_ADDR LDdi,
|
|
DE SUBHLd,
|
|
IFC, EXX, lbluflw @ JP, THEN,
|
|
BC PUSH,
|
|
EXX, ( unprotect BC ) ;CODE
|
|
( ----- 311 )
|
|
( Low-level part of ROLL. Example:
|
|
"1 2 3 4 4 (roll)" --> "1 3 4 4". No sanity checks, never
|
|
call with 0. )
|
|
CODE (roll)
|
|
HL POP,
|
|
B H LDrr,
|
|
C L LDrr,
|
|
SP ADDHLd,
|
|
HL INCd,
|
|
D H LDrr,
|
|
E L LDrr,
|
|
HL DECd,
|
|
HL DECd,
|
|
LDDR,
|
|
;CODE
|
|
( ----- 312 )
|
|
CODE 2DROP ( a b -- )
|
|
HL POP, HL POP, chkPS,
|
|
;CODE
|
|
|
|
CODE 2DUP ( a b -- a b a b )
|
|
HL POP, ( b ) DE POP, ( a )
|
|
chkPS,
|
|
DE PUSH, HL PUSH,
|
|
DE PUSH, HL PUSH,
|
|
;CODE
|
|
( ----- 313 )
|
|
CODE S0
|
|
HL PS_ADDR LDdi,
|
|
HL PUSH,
|
|
;CODE
|
|
|
|
CODE 'S
|
|
HL 0 LDdi,
|
|
SP ADDHLd,
|
|
HL PUSH,
|
|
;CODE
|
|
( ----- 314 )
|
|
CODE AND
|
|
HL POP,
|
|
DE POP,
|
|
chkPS,
|
|
A E LDrr,
|
|
L ANDr,
|
|
L A LDrr,
|
|
A D LDrr,
|
|
H ANDr,
|
|
H A LDrr,
|
|
HL PUSH,
|
|
;CODE
|
|
( ----- 315 )
|
|
CODE OR
|
|
HL POP,
|
|
DE POP,
|
|
chkPS,
|
|
A E LDrr,
|
|
L ORr,
|
|
L A LDrr,
|
|
A D LDrr,
|
|
H ORr,
|
|
H A LDrr,
|
|
HL PUSH,
|
|
;CODE
|
|
( ----- 316 )
|
|
CODE XOR
|
|
HL POP,
|
|
DE POP,
|
|
chkPS,
|
|
A E LDrr,
|
|
L XORr,
|
|
L A LDrr,
|
|
A D LDrr,
|
|
H XORr,
|
|
H A LDrr,
|
|
HL PUSH,
|
|
;CODE
|
|
( ----- 317 )
|
|
CODE NOT
|
|
HL POP,
|
|
chkPS,
|
|
HLZ,
|
|
PUSHZ,
|
|
;CODE
|
|
( ----- 318 )
|
|
CODE +
|
|
HL POP,
|
|
DE POP,
|
|
chkPS,
|
|
DE ADDHLd,
|
|
HL PUSH,
|
|
;CODE
|
|
|
|
CODE -
|
|
DE POP,
|
|
HL POP,
|
|
chkPS,
|
|
DE SUBHLd,
|
|
HL PUSH,
|
|
;CODE
|
|
( ----- 319 )
|
|
CODE * EXX, ( protect BC )
|
|
( DE * BC -> DE (high) and HL (low) )
|
|
DE POP, BC POP, chkPS,
|
|
HL 0 LDdi,
|
|
A 0x10 LDri,
|
|
BEGIN,
|
|
HL ADDHLd,
|
|
E RL, D RL,
|
|
IFC,
|
|
BC ADDHLd,
|
|
IFC, DE INCd, THEN,
|
|
THEN,
|
|
A DECr,
|
|
JRNZ, AGAIN,
|
|
HL PUSH,
|
|
EXX, ( unprotect BC ) ;CODE
|
|
( ----- 320 )
|
|
( Borrowed from http://wikiti.brandonw.net/ )
|
|
( Divides AC by DE and places the quotient in AC and the
|
|
remainder in HL )
|
|
CODE /MOD EXX, ( protect BC )
|
|
DE POP, BC POP, chkPS,
|
|
A B LDrr, B 16 LDri,
|
|
HL 0 LDdi,
|
|
BEGIN,
|
|
SCF, C RL, RLA,
|
|
HL ADCHLd, DE SBCHLd,
|
|
IFC, DE ADDHLd, C DECr, THEN,
|
|
DJNZ, AGAIN,
|
|
B A LDrr,
|
|
HL PUSH, BC PUSH,
|
|
EXX, ( unprotect BC ) ;CODE
|
|
( ----- 321 )
|
|
( The word below is designed to wait the proper 100us per tick
|
|
at 500kHz when tickfactor is 1. If the CPU runs faster,
|
|
tickfactor has to be adjusted accordingly. "t" in comments
|
|
below means "T-cycle", which at 500kHz is worth 2us. )
|
|
CODE TICKS
|
|
HL POP, chkPS,
|
|
( we pre-dec to compensate for initialization )
|
|
BEGIN,
|
|
HL DECd, ( 6t )
|
|
IFZ, ( 12t ) JPNEXT, THEN,
|
|
A tickfactor @ LDri, ( 7t )
|
|
BEGIN, A DECr, ( 4t ) JRNZ, ( 12t ) AGAIN,
|
|
JR, ( 12t ) AGAIN, ( outer: 37t inner: 16t )
|
|
( ----- 322 )
|
|
CODE !
|
|
HL POP, DE POP, chkPS,
|
|
(HL) E LDrr,
|
|
HL INCd,
|
|
(HL) D LDrr,
|
|
;CODE
|
|
CODE @
|
|
HL POP, chkPS,
|
|
E (HL) LDrr,
|
|
HL INCd,
|
|
D (HL) LDrr,
|
|
DE PUSH,
|
|
;CODE
|
|
( ----- 323 )
|
|
CODE C!
|
|
HL POP, DE POP, chkPS,
|
|
(HL) E LDrr,
|
|
;CODE
|
|
|
|
CODE C@
|
|
HL POP, chkPS,
|
|
L (HL) LDrr,
|
|
H 0 LDri,
|
|
HL PUSH,
|
|
;CODE
|
|
( ----- 324 )
|
|
CODE PC! EXX, ( protect BC )
|
|
BC POP, HL POP, chkPS,
|
|
L OUT(C)r,
|
|
EXX, ( unprotect BC ) ;CODE
|
|
|
|
CODE PC@ EXX, ( protect BC )
|
|
BC POP, chkPS,
|
|
H 0 LDri,
|
|
L INr(C),
|
|
HL PUSH,
|
|
EXX, ( unprotect BC ) ;CODE
|
|
( ----- 325 )
|
|
CODE I
|
|
L 0 IX+ LDrIXY, H 1 IX+ LDrIXY,
|
|
HL PUSH,
|
|
;CODE
|
|
CODE I'
|
|
L 2 IX- LDrIXY, H 1 IX- LDrIXY,
|
|
HL PUSH,
|
|
;CODE
|
|
CODE J
|
|
L 4 IX- LDrIXY, H 3 IX- LDrIXY,
|
|
HL PUSH,
|
|
;CODE
|
|
CODE >R
|
|
HL POP, chkPS,
|
|
IX INCd, IX INCd, 0 IX+ L LDIXYr, 1 IX+ H LDIXYr,
|
|
;CODE
|
|
( ----- 326 )
|
|
CODE R>
|
|
L 0 IX+ LDrIXY, H 1 IX+ LDrIXY, IX DECd, IX DECd, HL PUSH,
|
|
;CODE
|
|
CODE 2>R
|
|
DE POP, HL POP, chkPS,
|
|
IX INCd, IX INCd, 0 IX+ L LDIXYr, 1 IX+ H LDIXYr,
|
|
IX INCd, IX INCd, 0 IX+ E LDIXYr, 1 IX+ D LDIXYr,
|
|
;CODE
|
|
CODE 2R>
|
|
L 0 IX+ LDrIXY, H 1 IX+ LDrIXY, IX DECd, IX DECd,
|
|
E 0 IX+ LDrIXY, D 1 IX+ LDrIXY, IX DECd, IX DECd,
|
|
DE PUSH, HL PUSH,
|
|
;CODE
|
|
( ----- 327 )
|
|
CODE BYE
|
|
HALT,
|
|
;CODE
|
|
|
|
CODE (resSP)
|
|
SP PS_ADDR LDdi,
|
|
;CODE
|
|
|
|
CODE (resRS)
|
|
IX RS_ADDR LDdi,
|
|
;CODE
|
|
( ----- 328 )
|
|
CODE S= EXX, ( protect BC )
|
|
DE POP, HL POP, chkPS,
|
|
LDA(DE),
|
|
(HL) CPr,
|
|
IFZ, ( same size? )
|
|
B A LDrr, ( loop A times )
|
|
BEGIN,
|
|
HL INCd, DE INCd,
|
|
LDA(DE),
|
|
(HL) CPr,
|
|
JRNZ, BREAK, ( not equal? break early. NZ is set. )
|
|
DJNZ, AGAIN,
|
|
THEN,
|
|
PUSHZ,
|
|
EXX, ( unprotect BC ) ;CODE
|
|
( ----- 329 )
|
|
CODE CMP
|
|
HL POP,
|
|
DE POP,
|
|
chkPS,
|
|
DE SUBHLd,
|
|
DE 0 LDdi,
|
|
IFNZ, ( < or > )
|
|
DE INCd,
|
|
IFNC, ( < )
|
|
DE DECd,
|
|
DE DECd,
|
|
THEN,
|
|
THEN,
|
|
DE PUSH,
|
|
;CODE
|
|
( ----- 331 )
|
|
CODE (im1)
|
|
IM1,
|
|
EI,
|
|
;CODE
|
|
|
|
CODE 0 PUSH0, ;CODE
|
|
CODE 1 PUSH1, ;CODE
|
|
|
|
CODE -1
|
|
HL -1 LDdi,
|
|
HL PUSH,
|
|
;CODE
|
|
( ----- 332 )
|
|
CODE 1+
|
|
HL POP,
|
|
chkPS,
|
|
HL INCd,
|
|
HL PUSH,
|
|
;CODE
|
|
|
|
CODE 1-
|
|
HL POP,
|
|
chkPS,
|
|
HL DECd,
|
|
HL PUSH,
|
|
;CODE
|
|
( ----- 333 )
|
|
CODE 2+
|
|
HL POP,
|
|
chkPS,
|
|
HL INCd,
|
|
HL INCd,
|
|
HL PUSH,
|
|
;CODE
|
|
|
|
CODE 2-
|
|
HL POP,
|
|
chkPS,
|
|
HL DECd,
|
|
HL DECd,
|
|
HL PUSH,
|
|
;CODE
|
|
( ----- 334 )
|
|
CODE RSHIFT ( n u -- n )
|
|
DE POP, ( u )
|
|
HL POP, ( n )
|
|
chkPS,
|
|
A E LDrr,
|
|
A ORr, IFNZ,
|
|
BEGIN,
|
|
H SRL, L RR,
|
|
A DECr,
|
|
JRNZ, AGAIN,
|
|
THEN,
|
|
HL PUSH,
|
|
;CODE
|
|
( ----- 335 )
|
|
CODE LSHIFT ( n u -- n )
|
|
DE POP, ( u )
|
|
HL POP, ( n )
|
|
chkPS,
|
|
A E LDrr,
|
|
A ORr, IFNZ,
|
|
BEGIN,
|
|
L SLA, H RL,
|
|
A DECr,
|
|
JRNZ, AGAIN,
|
|
THEN,
|
|
HL PUSH,
|
|
;CODE
|
|
( ----- 350 )
|
|
Core words
|
|
|
|
This section contains arch-independent core words of Collapse
|
|
OS. Those words are written in a way that make them entirely
|
|
cross-compilable (see B260). When building Collapse OS, these
|
|
words come right after the boot binary (B280).
|
|
|
|
Because this unit is designed to be cross-compiled, things are
|
|
a little weird. It is compiling in the context of a full
|
|
Forth interpreter with all bells and whistles (and z80
|
|
assembler), but it has to obey strict rules:
|
|
|
|
1. Although it cannot compile a word that isn't defined yet,
|
|
it can still execute an immediate from the host system.
|
|
|
|
(cont.)
|
|
( ----- 351 )
|
|
2. Immediate words that have been cross compiled *cannot* be
|
|
used. Only immediates from the host system can be used.
|
|
3. If an immediate word compiles words, it can only be words
|
|
that are part of the stable ABI.
|
|
|
|
All of this is because when cross compiling, all atom ref-
|
|
erences are offsetted to the target system and are thus
|
|
unusable directly. For the same reason, any reference to a word
|
|
in the host system will obviously be wrong in the target
|
|
system. More details in B260.
|
|
|
|
|
|
|
|
|
|
|
|
(cont.)
|
|
( ----- 352 )
|
|
This unit is loaded in two "low" and "high" parts. The low part
|
|
is the biggest chunk and has the most definitions. The high
|
|
part is the "sensitive" chunk and contains "LITN", ":" and ";"
|
|
definitions which, once defined, kind of make any more defs
|
|
impossible.
|
|
|
|
The gap between these 2 parts is the ideal place to put device
|
|
driver code. Load the low part with "353 LOAD", the high part
|
|
with "390 LOAD"
|
|
( ----- 353 )
|
|
: RAM+ [ SYSVARS LITN ] + ; : BIN+ [ BIN( @ LITN ] + ;
|
|
: HERE 0x04 RAM+ ;
|
|
: CURRENT* 0x51 RAM+ ; : CURRENT CURRENT* @ ;
|
|
: H@ HERE @ ;
|
|
: FIND ( w -- a f ) CURRENT @ SWAP _find ;
|
|
: IN> 0x30 RAM+ ; ( current position in INBUF )
|
|
: IN( 0x32 RAM+ @ ; ( points to INBUF )
|
|
: IN) 0x40 ( buffer size ) IN( + ; ( INBUF's end )
|
|
: (infl) 0 IN( DUP IN> ! ! ; ( flush input buffer )
|
|
: QUIT
|
|
(resRS) 0 0x08 RAM+ ! ( C<* override ) (infl)
|
|
LIT" (main)" FIND DROP EXECUTE
|
|
;
|
|
1 33 LOADR+
|
|
( ----- 354 )
|
|
: ABORT (resSP) QUIT ;
|
|
: = CMP NOT ; : < CMP -1 = ; : > CMP 1 = ;
|
|
: 0< 32767 > ; : >= < NOT ; : <= > NOT ; : 0>= 0< NOT ;
|
|
: >< ( n l h -- f ) 2 PICK > ( n l f ) ROT> > AND ;
|
|
: =><= 2 PICK >= ( n l f ) ROT> >= AND ;
|
|
: NIP SWAP DROP ; : TUCK SWAP OVER ;
|
|
: -^ SWAP - ;
|
|
: C@+ ( a -- a+1 c ) DUP C@ SWAP 1+ SWAP ;
|
|
: C!+ ( c a -- a+1 ) TUCK C! 1+ ;
|
|
: C@- ( a -- a-1 c ) DUP C@ SWAP 1- SWAP ;
|
|
: C!- ( c a -- a-1 ) TUCK C! 1- ;
|
|
: LEAVE R> R> DROP I 1- >R >R ; : UNLOOP R> 2R> 2DROP >R ;
|
|
( ----- 355 )
|
|
: +! TUCK @ + SWAP ! ;
|
|
: *! ( addr alias -- ) 1+ ! ;
|
|
: **! ( addr switch -- ) 1+ @ ! ;
|
|
: / /MOD NIP ;
|
|
: MOD /MOD DROP ;
|
|
: ALLOT HERE +! ;
|
|
: FILL ( a n b -- )
|
|
SWAP 2 PICK + ( a b a+n ) ROT ( b a+n a ) DO ( b )
|
|
DUP I C!
|
|
LOOP DROP ;
|
|
: ALLOT0 ( n -- ) H@ OVER 0 FILL ALLOT ;
|
|
SYSVARS 0x3e + :** A@
|
|
SYSVARS 0x40 + :** A!
|
|
SYSVARS 0x42 + :** A,
|
|
( ----- 356 )
|
|
SYSVARS 0x53 + :** EMIT
|
|
: (print) C@+ ( a len ) 0 DO C@+ EMIT LOOP DROP ;
|
|
: BS 8 EMIT ; : LF 10 EMIT ; : CR 13 EMIT ;
|
|
: CRLF CR LF ; : SPC 32 EMIT ;
|
|
SYSVARS 0x0a + :** NL
|
|
: ERR (print) ABORT ;
|
|
: (uflw) LIT" stack underflow" ERR ;
|
|
XCURRENT @ _xapply ORG @ 0x06 ( stable ABI uflw ) + !
|
|
: (oflw) LIT" stack overflow" ERR ;
|
|
XCURRENT @ _xapply ORG @ 0x13 ( stable ABI oflw ) + !
|
|
: (wnf) (print) LIT" word not found" ERR ;
|
|
( ----- 357 )
|
|
( r c -- r f )
|
|
( Parse digit c and accumulate into result r.
|
|
Flag f is true when c was a valid digit )
|
|
: _pdacc
|
|
'0' - DUP 10 < IF ( good, add to running result )
|
|
SWAP 10 * + 1 ( r*10+n f )
|
|
ELSE ( bad ) DROP 0 THEN ;
|
|
( ----- 358 )
|
|
: _pd ( a -- n f, parse decimal )
|
|
C@+ OVER C@ 0 ( a len firstchar startat )
|
|
( if we have '-', we only advance. more processing later. )
|
|
SWAP '-' = IF 1+ THEN ( a len startat )
|
|
( if we can do the whole string, success. if _pdacc returns
|
|
false before, failure. )
|
|
0 ROT> ( len ) ( startat ) DO ( a r )
|
|
OVER I + C@ ( a r c ) _pdacc ( a r f )
|
|
NOT IF DROP 1- 0 UNLOOP EXIT THEN LOOP ( a r )
|
|
( if we had '-', we need to invert result. )
|
|
SWAP C@ '-' = IF 0 -^ THEN 1 ( r 1 ) ;
|
|
( ----- 359 )
|
|
( strings being sent to parse routines are always null
|
|
terminated )
|
|
|
|
: _pc ( a -- n f, parse character )
|
|
( apostrophe is ASCII 39 )
|
|
DUP 1+ C@ 39 = OVER 3 + C@ 39 = AND ( a f )
|
|
NOT IF 0 EXIT THEN ( a 0 )
|
|
( surrounded by apos, good, return )
|
|
2+ C@ 1 ( n 1 )
|
|
;
|
|
( ----- 360 )
|
|
( returns negative value on error )
|
|
: _ ( c -- n )
|
|
DUP '0' '9' =><= IF '0' - EXIT THEN
|
|
DUP 'a' 'f' =><= IF 0x57 ( 'a' - 10 ) - EXIT THEN
|
|
DROP -1 ( bad )
|
|
;
|
|
: _ph ( a -- n f, parse hex )
|
|
( '0': ASCII 0x30 'x': 0x78 0x7830 )
|
|
DUP 1+ @ 0x7830 = NOT IF 0 EXIT THEN ( a 0 )
|
|
( We have "0x" prefix )
|
|
DUP C@ ( a len )
|
|
0 SWAP 1+ ( len+1 ) 3 DO ( a r )
|
|
OVER I + C@ ( a r c ) _ ( a r n )
|
|
DUP 0< IF 2DROP 0 UNLOOP EXIT THEN
|
|
SWAP 4 LSHIFT + ( a r*16+n ) LOOP
|
|
NIP 1 ;
|
|
( ----- 361 )
|
|
: _pb ( a -- n f, parse binary )
|
|
( '0': ASCII 0x30 'b': 0x62 0x6230 )
|
|
DUP 1+ @ 0x6230 = NOT IF 0 EXIT THEN ( a 0 )
|
|
( We have "0b" prefix )
|
|
DUP C@ ( a len )
|
|
0 SWAP 1+ ( len+1 ) 3 DO ( a r )
|
|
OVER I + C@ ( a r c )
|
|
DUP '0' '1' =><= NOT IF 2DROP 0 UNLOOP EXIT THEN
|
|
'0' - SWAP 1 LSHIFT + ( a r*2+n ) LOOP
|
|
NIP 1 ;
|
|
( ----- 362 )
|
|
: (parse) ( a -- n )
|
|
_pc IF EXIT THEN
|
|
_ph IF EXIT THEN
|
|
_pb IF EXIT THEN
|
|
_pd IF EXIT THEN
|
|
( nothing works )
|
|
(wnf)
|
|
;
|
|
( ----- 363 )
|
|
: C<? 0x06 RAM+ @ ;
|
|
SYSVARS 0x0c + :** C<*
|
|
: C<
|
|
0x08 RAM+ ( C<* override ) @
|
|
?DUP NOT IF C<* ELSE EXECUTE THEN ;
|
|
: , H@ ! H@ 2+ HERE ! ;
|
|
: C, H@ C!+ HERE ! ;
|
|
: ,"
|
|
BEGIN
|
|
C< DUP 34 ( ASCII " ) = IF DROP EXIT THEN C,
|
|
AGAIN ;
|
|
( ----- 364 )
|
|
: WS? 33 < ;
|
|
: EOT? 4 = ; ( 4 == ASCII EOT, CTRL+D )
|
|
: EOT, 4 C, ;
|
|
|
|
: TOWORD
|
|
0 ( dummy ) BEGIN
|
|
DROP C< DUP WS? NOT OVER EOT? OR
|
|
UNTIL ;
|
|
( ----- 365 )
|
|
( Read word from C<, copy to WORDBUF, null-terminate, and
|
|
return WORDBUF. )
|
|
: _wb 0x0e RAM+ ;
|
|
: _eot 0x0401 _wb ! _wb ;
|
|
: WORD
|
|
_wb 1+ TOWORD ( a c )
|
|
DUP EOT? IF 2DROP _eot EXIT THEN
|
|
BEGIN
|
|
OVER C! 1+ C< ( a c )
|
|
OVER 0x2e RAM+ = OVER WS? OR
|
|
UNTIL ( a c )
|
|
SWAP _wb - 1- ( ws len ) _wb C!
|
|
EOT? IF _eot ELSE _wb THEN ;
|
|
( ----- 366 )
|
|
: IMMEDIATE
|
|
CURRENT @ 1-
|
|
DUP C@ 128 OR SWAP C! ;
|
|
: IMMED? 1- C@ 0x80 AND ;
|
|
: '? WORD FIND ;
|
|
: ' '? NOT IF (wnf) THEN ;
|
|
: ROLL
|
|
?DUP NOT IF EXIT THEN
|
|
1+ DUP PICK ( n val )
|
|
SWAP 2 * (roll) ( val )
|
|
NIP ;
|
|
: 2OVER 3 PICK 3 PICK ;
|
|
: 2SWAP 3 ROLL 3 ROLL ;
|
|
( ----- 367 )
|
|
: MOVE ( a1 a2 u -- )
|
|
?DUP IF ( u ) 0 DO ( a1 a2 )
|
|
OVER I + A@ ( src dst x )
|
|
OVER I + ( src dst x dst )
|
|
A! ( src dst )
|
|
LOOP THEN 2DROP ;
|
|
: MOVE- ( a1 a2 u -- )
|
|
?DUP IF ( u ) 0 DO ( a1 a2 )
|
|
OVER I' + I - 1- A@ ( src dst x )
|
|
OVER I' + I - 1- ( src dst x dst )
|
|
A! ( src dst )
|
|
LOOP THEN 2DROP ;
|
|
: MOVE, ( a u -- ) H@ OVER ALLOT SWAP MOVE ;
|
|
( ----- 368 )
|
|
: MOVEW ( src dst u -- )
|
|
( u ) 0 DO
|
|
SWAP DUP I 1 LSHIFT + A@ ( dst src x )
|
|
ROT TUCK I 1 LSHIFT + ( src dst x dst )
|
|
A! ( src dst )
|
|
LOOP 2DROP ;
|
|
: PREV 3 - DUP @ - ;
|
|
: [entry] ( w -- )
|
|
C@+ ( w+1 len ) TUCK MOVE, ( len )
|
|
( write prev value )
|
|
H@ CURRENT @ - ,
|
|
C, ( write size )
|
|
H@ CURRENT ! ;
|
|
: (entry) WORD [entry] ;
|
|
: CREATE (entry) 2 ( cellWord ) C, ;
|
|
: VARIABLE CREATE 2 ALLOT ;
|
|
( ----- 369 )
|
|
: WORD(
|
|
DUP 1- C@ ( name len field )
|
|
127 AND ( 0x7f. remove IMMEDIATE flag )
|
|
3 + ( fixed header len )
|
|
-
|
|
;
|
|
: FORGET
|
|
' DUP ( w w )
|
|
( HERE must be at the end of prev's word, that is, at the
|
|
beginning of w. )
|
|
WORD( HERE ! ( w )
|
|
PREV CURRENT !
|
|
;
|
|
: EMPTY LIT" _sys" FIND IF DUP HERE ! CURRENT ! THEN ;
|
|
( ----- 370 )
|
|
: DOES>
|
|
( Overwrite cellWord in CURRENT )
|
|
3 ( does ) CURRENT @ C!
|
|
( When we have a DOES>, we forcefully place HERE to 4
|
|
bytes after CURRENT. This allows a DOES word to use ","
|
|
and "C," without messing everything up. )
|
|
CURRENT @ 3 + HERE !
|
|
( HERE points to where we should write R> )
|
|
R> ,
|
|
( We're done. Because we've popped RS, we'll exit parent
|
|
definition )
|
|
;
|
|
: CONSTANT CREATE , DOES> @ ;
|
|
( ----- 371 )
|
|
: [IF]
|
|
IF EXIT THEN
|
|
LIT" [THEN]" BEGIN DUP WORD S= UNTIL DROP ;
|
|
: [THEN] ;
|
|
( ----- 372 )
|
|
( n -- Fetches block n and write it to BLK( )
|
|
: BLK@* 0x34 RAM+ ;
|
|
( n -- Write back BLK( to storage at block n )
|
|
: BLK!* 0x36 RAM+ ;
|
|
( Current blk pointer in ( )
|
|
: BLK> 0x38 RAM+ ;
|
|
( Whether buffer is dirty )
|
|
: BLKDTY 0x3a RAM+ ;
|
|
: BLK( 0x3c RAM+ @ ;
|
|
: BLK) BLK( 1024 + ;
|
|
( ----- 373 )
|
|
: BLK$
|
|
H@ 0x3c ( BLK(* ) RAM+ !
|
|
1024 ALLOT
|
|
( LOAD detects end of block with ASCII EOT. This is why
|
|
we write it there. )
|
|
EOT,
|
|
0 BLKDTY !
|
|
-1 BLK> !
|
|
;
|
|
( ----- 374 )
|
|
: BLK! ( -- )
|
|
BLK> @ BLK!* @ EXECUTE
|
|
0 BLKDTY ! ;
|
|
: FLUSH BLKDTY @ IF BLK! THEN ;
|
|
: BLK@ ( n -- )
|
|
DUP BLK> @ = IF DROP EXIT THEN
|
|
FLUSH DUP BLK> ! BLK@* @ EXECUTE ;
|
|
: BLK!! 1 BLKDTY ! ;
|
|
: WIPE BLK( 1024 0 FILL BLK!! ;
|
|
: WIPED? ( -- f )
|
|
1 ( f ) BLK) BLK( DO
|
|
I C@ IF DROP 0 ( f ) LEAVE THEN LOOP ;
|
|
: COPY ( src dst -- )
|
|
FLUSH SWAP BLK@ BLK> ! BLK! ;
|
|
( ----- 375 )
|
|
: _
|
|
999 SWAP ( stop indicator )
|
|
BEGIN
|
|
?DUP NOT IF EXIT THEN
|
|
10 /MOD ( r q )
|
|
SWAP '0' + SWAP ( d q )
|
|
AGAIN ;
|
|
: . ( n -- )
|
|
?DUP NOT IF '0' EMIT EXIT THEN ( 0 is a special case )
|
|
( handle negative )
|
|
DUP 0< IF '-' EMIT -1 * THEN
|
|
_
|
|
BEGIN
|
|
DUP '9' > IF DROP EXIT THEN ( stop indicator )
|
|
EMIT
|
|
AGAIN ;
|
|
( ----- 376 )
|
|
: ? @ . ;
|
|
: _
|
|
DUP 9 > IF 10 - 'a' +
|
|
ELSE '0' + THEN
|
|
;
|
|
( For hex display, there are no negatives )
|
|
: .x
|
|
256 MOD ( ensure < 0x100 )
|
|
16 /MOD ( l h )
|
|
_ EMIT ( l )
|
|
_ EMIT
|
|
;
|
|
: .X
|
|
256 /MOD ( l h )
|
|
.x .x
|
|
;
|
|
( ----- 377 )
|
|
: _ ( a -- a+8 )
|
|
DUP ( a a )
|
|
':' EMIT DUP .x SPC
|
|
4 0 DO DUP @ 256 /MOD SWAP .x .x SPC 2+ LOOP
|
|
DROP ( a )
|
|
8 0 DO
|
|
C@+ DUP 0x20 0x7e =><= NOT IF DROP '.' THEN EMIT
|
|
LOOP NL ;
|
|
: DUMP ( n a -- )
|
|
LF
|
|
SWAP 8 /MOD SWAP IF 1+ THEN
|
|
0 DO _ LOOP
|
|
;
|
|
( ----- 378 )
|
|
( handle backspace: go back one char in IN>, if possible, then
|
|
emit BS + SPC + BS )
|
|
: _bs
|
|
( already at IN( ? )
|
|
IN> @ IN( = IF EXIT THEN
|
|
IN> @ 1- IN> !
|
|
BS SPC BS
|
|
;
|
|
( del is same as backspace )
|
|
: BS? DUP 0x7f = SWAP 0x8 = OR ;
|
|
SYSVARS 0x55 + :** KEY
|
|
( cont.: read one char into input buffer and returns whether we
|
|
should continue, that is, whether CR was not met. )
|
|
( ----- 379 )
|
|
: (rdlnc) ( -- c )
|
|
( buffer overflow? same as if we typed a newline )
|
|
IN> @ IN) = IF 0x0a ELSE KEY THEN ( c )
|
|
DUP 0x0a = IF DROP 0xd THEN ( lf? same as cr )
|
|
( backspace? handle and exit )
|
|
DUP BS? IF _bs EXIT THEN
|
|
( echo back )
|
|
DUP EMIT ( c )
|
|
( write and advance )
|
|
DUP ( keep as result ) ( c c )
|
|
( We take advantage of the fact that c's MSB is always zero and
|
|
thus ! automatically null-terminates our string )
|
|
IN> @ ! 1 IN> +! ( c )
|
|
( if newline, replace with zero to indicate EOL )
|
|
DUP 0xd = IF DROP 0 THEN ;
|
|
( ----- 380 )
|
|
( Read one line in input buffer and make IN> point to it )
|
|
: (rdln)
|
|
( EOT or less triggers line flush )
|
|
(infl) BEGIN (rdlnc) 5 < UNTIL
|
|
LF IN( IN> ! ;
|
|
( And finally, implement C<* )
|
|
: RDLN<
|
|
IN> @ C@
|
|
DUP IF ( not EOL? good, inc and return )
|
|
1 IN> +!
|
|
ELSE ( EOL ? readline. we still return null though )
|
|
(rdln)
|
|
THEN
|
|
( update C<? flag )
|
|
IN> @ C@ 0 > 0x06 RAM+ ! ( 06 == C<? )
|
|
;
|
|
( ----- 381 )
|
|
( Initializes the readln subsystem )
|
|
: RDLN$
|
|
H@ 0x32 ( IN(* ) RAM+ !
|
|
( plus 2 for extra bytes after buffer: 1 for
|
|
the last typed 0x0a and one for the following NULL. )
|
|
IN) IN( - ALLOT
|
|
(infl)
|
|
['] RDLN< ['] C<* **!
|
|
1 0x06 RAM+ ! ( 06 == C<? )
|
|
;
|
|
( ----- 382 )
|
|
: LIST
|
|
BLK@
|
|
16 0 DO
|
|
I 1+ DUP 10 < IF SPC THEN . SPC
|
|
64 I * BLK( + DUP 64 + SWAP DO
|
|
I C@ DUP 0x1f > IF EMIT ELSE DROP LEAVE THEN
|
|
LOOP
|
|
NL
|
|
LOOP ;
|
|
( ----- 383 )
|
|
: INTERPRET
|
|
BEGIN
|
|
WORD DUP @ 0x0401 = ( EOT ) IF DROP EXIT THEN
|
|
FIND NOT IF (parse) ELSE EXECUTE THEN
|
|
C<? NOT IF SPC LIT" ok" (print) NL THEN
|
|
AGAIN ;
|
|
( Read from BOOT C< PTR and inc it. )
|
|
: (boot<)
|
|
( 2e == BOOT C< PTR )
|
|
0x2e ( BOOT C< PTR ) RAM+ @ DUP C@ ( a c )
|
|
SWAP 1 + 0x2e RAM+ ! ( c ) ;
|
|
( pre-comment for tight LOAD: The 0x08==I check after INTERPRET
|
|
is to check whether we're restoring to "_", the word above.
|
|
if yes, then we're in a nested load. Also, the 1 in 0x06 is
|
|
to avoid tons of "ok" displays. )
|
|
( ----- 384 )
|
|
: LOAD
|
|
BLK> @ >R ( save restorable variables to RSP )
|
|
0x08 RAM+ @ >R ( 08 == C<* override )
|
|
0x06 RAM+ @ >R ( C<? )
|
|
0x2e RAM+ @ >R ( boot ptr )
|
|
BLK@
|
|
BLK( 0x2e RAM+ ! ( Point to beginning of BLK )
|
|
['] (boot<) 0x08 RAM+ !
|
|
1 0x06 RAM+ ! ( 06 == C<? )
|
|
INTERPRET
|
|
R> 0x2e RAM+ ! R> 0x06 RAM+ !
|
|
I 0x08 RAM+ @ = IF ( nested load )
|
|
R> DROP ( C<* ) R> BLK@
|
|
ELSE ( not nested )
|
|
R> 0x08 RAM+ ! R> DROP ( BLK> )
|
|
THEN ;
|
|
( ----- 385 )
|
|
: LOAD+ BLK> @ + LOAD ;
|
|
( b1 b2 -- )
|
|
: LOADR 1+ SWAP DO I DUP . NL LOAD LOOP ;
|
|
: LOADR+ BLK> @ + SWAP BLK> @ + SWAP LOADR ;
|
|
( ----- 390 )
|
|
( xcomp core high )
|
|
: (main) INTERPRET BYE ;
|
|
: BOOT
|
|
0x02 RAM+ CURRENT* !
|
|
CURRENT @ 0x2e RAM+ ! ( 2e == BOOT C< PTR )
|
|
0 0x08 RAM+ ! ( 08 == C<* override )
|
|
['] (emit) ['] EMIT **! ['] (key) ['] KEY **!
|
|
['] CRLF ['] NL **!
|
|
['] (boot<) ['] C<* **!
|
|
['] C@ ['] A@ **! ['] C! ['] A! **! ['] C, ['] A, **!
|
|
( boot< always has a char waiting. 06 == C<?* )
|
|
1 0x06 RAM+ ! INTERPRET
|
|
RDLN$ LIT" _sys" [entry]
|
|
LIT" Collapse OS" (print) NL (main) ;
|
|
XCURRENT @ _xapply ORG @ 0x04 ( stable ABI BOOT ) + !
|
|
1 4 LOADR+
|
|
( ----- 391 )
|
|
( Now we have "as late as possible" stuff. See bootstrap doc. )
|
|
: :* ( addr -- ) (entry) 4 ( alias ) C, , ;
|
|
: :** ( addr -- ) (entry) 5 ( switch ) C, , ;
|
|
( ----- 392 )
|
|
: _bchk DUP 0x7f + 0xff > IF LIT" br ovfl" (print) ABORT THEN ;
|
|
: DO COMPILE 2>R H@ ; IMMEDIATE
|
|
: LOOP COMPILE (loop) H@ - _bchk C, ; IMMEDIATE
|
|
( LEAVE is implemented in low xcomp )
|
|
: LITN COMPILE (n) , ;
|
|
( gets its name at the very end. can't comment afterwards )
|
|
: _ BEGIN LIT" )" WORD S= UNTIL ; IMMEDIATE
|
|
: _ ( : will get its name almost at the very end )
|
|
(entry) 1 ( compiled ) C,
|
|
BEGIN
|
|
WORD DUP LIT" ;" S= IF DROP COMPILE EXIT EXIT THEN
|
|
FIND IF ( is word ) DUP IMMED? IF EXECUTE ELSE , THEN
|
|
ELSE ( maybe number ) (parse) LITN THEN
|
|
AGAIN ;
|
|
( ----- 393 )
|
|
: IF ( -- a | a: br cell addr )
|
|
COMPILE (?br) H@ 1 ALLOT ( br cell allot )
|
|
; IMMEDIATE
|
|
: THEN ( a -- | a: br cell addr )
|
|
DUP H@ -^ _bchk SWAP ( a-H a ) C!
|
|
; IMMEDIATE
|
|
: ELSE ( a1 -- a2 | a1: IF cell a2: ELSE cell )
|
|
COMPILE (br)
|
|
1 ALLOT
|
|
[COMPILE] THEN
|
|
H@ 1- ( push a. 1- for allot offset )
|
|
; IMMEDIATE
|
|
: LIT"
|
|
COMPILE (s) H@ 0 C, ,"
|
|
DUP H@ -^ 1- ( a len ) SWAP C!
|
|
; IMMEDIATE
|
|
( ----- 394 )
|
|
( We don't use ." and ABORT in core, they're not xcomp-ed )
|
|
: ." [COMPILE] LIT" COMPILE (print) ; IMMEDIATE
|
|
: ABORT" [COMPILE] ." COMPILE ABORT ; IMMEDIATE
|
|
: BEGIN H@ ; IMMEDIATE
|
|
: AGAIN COMPILE (br) H@ - _bchk C, ; IMMEDIATE
|
|
: UNTIL COMPILE (?br) H@ - _bchk C, ; IMMEDIATE
|
|
: [ INTERPRET ; IMMEDIATE
|
|
: ] R> DROP ;
|
|
: COMPILE ' LITN ['] , , ; IMMEDIATE
|
|
: [COMPILE] ' , ; IMMEDIATE
|
|
: ['] ' LITN ; IMMEDIATE
|
|
':' X' _ 4 - C! ( give : its name )
|
|
'(' X' _ 4 - C!
|
|
( ----- 400 )
|
|
( With dst being assumed to be an AT28 EEPROM, perform !
|
|
operation while doing the right thing. Checks data integrity
|
|
and ABORT on mismatch. )
|
|
: AT28! ( n a -- )
|
|
2DUP C!
|
|
( as long as writing operation is running, IO/6 will toggle
|
|
at each read attempt. We know that write is finished when
|
|
we read the same value twice. )
|
|
BEGIN ( n1 a )
|
|
DUP C@ ( n1 a n2 )
|
|
OVER C@ ( n1 a n2 n3 )
|
|
= UNTIL
|
|
( We're finished writing. do we have a mismatch? )
|
|
C@ = NOT IF ABORT" mismatch" THEN
|
|
;
|
|
( ----- 401 )
|
|
Grid subsystem
|
|
|
|
See doc/grid.txt.
|
|
|
|
Load range: B402-B403
|
|
( ----- 402 )
|
|
: XYPOS [ GRID_MEM LITN ] ; : XYMODE [ GRID_MEM LITN ] 2+ ;
|
|
'? CURSOR! NIP NOT [IF] : CURSOR! DROP ; [THEN]
|
|
: XYPOS! COLS LINES * MOD DUP CURSOR! XYPOS ! ;
|
|
: AT-XY ( x y -- ) COLS * + XYPOS! ;
|
|
'? NEWLN NIP NOT [IF]
|
|
: NEWLN ( ln -- ) COLS * DUP COLS + SWAP DO 0x20 I CELL! LOOP ;
|
|
[THEN]
|
|
: _lf XYMODE C@ IF EXIT THEN
|
|
XYPOS @ COLS / 1+ LINES MOD DUP NEWLN
|
|
COLS * XYPOS! ;
|
|
: _bs 0 ( blank ) XYPOS @ TUCK CELL! ( pos ) 1- XYPOS! ;
|
|
( ----- 403 )
|
|
: (emit)
|
|
DUP 0x08 = IF DROP _bs EXIT THEN
|
|
DUP 0x0d = IF DROP _lf EXIT THEN
|
|
DUP 0x20 < IF DROP EXIT THEN
|
|
XYPOS @ CELL!
|
|
XYPOS @ 1+ DUP COLS MOD IF XYPOS! ELSE _lf THEN ;
|
|
: GRID$ 0 XYPOS! 0 XYMODE C! ;
|
|
( ----- 410 )
|
|
PS/2 keyboard subsystem
|
|
|
|
Provides (key) from a driver providing the PS/2 protocol. That
|
|
is, for a driver taking care of providing all key codes emanat-
|
|
ing from a PS/2 keyboard, this subsystem takes care of mapping
|
|
those keystrokes to ASCII characters. This code is designed to
|
|
be cross-compiled and loaded with drivers.
|
|
|
|
Requires PS2_MEM to be defined.
|
|
|
|
Load range: 411-414
|
|
( ----- 411 )
|
|
: PS2_SHIFT [ PS2_MEM LITN ] ;
|
|
: PS2$ 0 PS2_SHIFT C! ;
|
|
|
|
( A list of the values associated with the 0x80 possible scan
|
|
codes of the set 2 of the PS/2 keyboard specs. 0 means no
|
|
value. That value is a character that can be read in (key)
|
|
No make code in the PS/2 set 2 reaches 0x80. )
|
|
CREATE PS2_CODES
|
|
( 00 ) 0 C, 0 C, 0 C, 0 C, 0 C, 0 C, 0 C, 0 C,
|
|
( 08 ) 0 C, 0 C, 0 C, 0 C, 0 C, 9 C, '`' C, 0 C,
|
|
( 10 ) 0 C, 0 C, 0 C, 0 C, 0 C, 'q' C, '1' C, 0 C,
|
|
( I don't know why, but the key 2 is sent as 0x1f by 2 of my
|
|
keyboards. Is it a timing problem on the ATtiny? TODO )
|
|
( 18 ) 0 C, 0 C, 'z' C, 's' C, 'a' C, 'w' C, '2' C, '2' C,
|
|
( 20 ) 0 C, 'c' C, 'x' C, 'd' C, 'e' C, '4' C, '3' C, 0 C,
|
|
( 28 ) 0 C, 32 C, 'v' C, 'f' C, 't' C, 'r' C, '5' C, 0 C,
|
|
( ----- 412 )
|
|
( 30 ) 0 C, 'n' C, 'b' C, 'h' C, 'g' C, 'y' C, '6' C, 0 C,
|
|
( 38 ) 0 C, 0 C, 'm' C, 'j' C, 'u' C, '7' C, '8' C, 0 C,
|
|
( 40 ) 0 C, ',' C, 'k' C, 'i' C, 'o' C, '0' C, '9' C, 0 C,
|
|
( 48 ) 0 C, '.' C, '/' C, 'l' C, ';' C, 'p' C, '-' C, 0 C,
|
|
( 50 ) 0 C, 0 C, ''' C, 0 C, '[' C, '=' C, 0 C, 0 C,
|
|
( 58 ) 0 C, 0 C, 13 C, ']' C, 0 C, '\' C, 0 C, 0 C,
|
|
( 60 ) 0 C, 0 C, 0 C, 0 C, 0 C, 0 C, 8 C, 0 C,
|
|
( 68 ) 0 C, '1' C, 0 C, '4' C, '7' C, 0 C, 0 C, 0 C,
|
|
( 70 ) '0' C, '.' C, '2' C, '5' C, '6' C, '8' C, 27 C, 0 C,
|
|
( 78 ) 0 C, 0 C, '3' C, 0 C, 0 C, '9' C, 0 C, 0 C,
|
|
( Same values, but shifted )
|
|
( 00 ) 0 C, 0 C, 0 C, 0 C, 0 C, 0 C, 0 C, 0 C,
|
|
( 08 ) 0 C, 0 C, 0 C, 0 C, 0 C, 9 C, '~' C, 0 C,
|
|
( 10 ) 0 C, 0 C, 0 C, 0 C, 0 C, 'Q' C, '!' C, 0 C,
|
|
( 18 ) 0 C, 0 C, 'Z' C, 'S' C, 'A' C, 'W' C, '@' C, '@' C,
|
|
( 20 ) 0 C, 'C' C, 'X' C, 'D' C, 'E' C, '$' C, '#' C, 0 C,
|
|
( ----- 413 )
|
|
( 28 ) 0 C, 32 C, 'V' C, 'F' C, 'T' C, 'R' C, '%' C, 0 C,
|
|
( 30 ) 0 C, 'N' C, 'B' C, 'H' C, 'G' C, 'Y' C, '^' C, 0 C,
|
|
( 38 ) 0 C, 0 C, 'M' C, 'J' C, 'U' C, '&' C, '*' C, 0 C,
|
|
( 40 ) 0 C, '<' C, 'K' C, 'I' C, 'O' C, ')' C, '(' C, 0 C,
|
|
( 48 ) 0 C, '>' C, '?' C, 'L' C, ':' C, 'P' C, '_' C, 0 C,
|
|
( 50 ) 0 C, 0 C, '"' C, 0 C, '{' C, '+' C, 0 C, 0 C,
|
|
( 58 ) 0 C, 0 C, 13 C, '}' C, 0 C, '|' C, 0 C, 0 C,
|
|
( 60 ) 0 C, 0 C, 0 C, 0 C, 0 C, 0 C, 8 C, 0 C,
|
|
( 68 ) 0 C, 0 C, 0 C, 0 C, 0 C, 0 C, 0 C, 0 C,
|
|
( 70 ) 0 C, 0 C, 0 C, 0 C, 0 C, 0 C, 27 C, 0 C,
|
|
( 78 ) 0 C, 0 C, 0 C, 0 C, 0 C, 0 C, 0 C, 0 C,
|
|
( ----- 414 )
|
|
: _shift? ( kc -- f ) DUP 0x12 = SWAP 0x59 = OR ;
|
|
: _get ( -- kc ) 0 ( dummy ) BEGIN DROP (ps2kc) DUP UNTIL ;
|
|
: (key) _get
|
|
DUP 0xe0 ( extended ) = IF ( ignore ) DROP (key) EXIT THEN
|
|
DUP 0xf0 ( break ) = IF DROP ( )
|
|
( get next kc and see if it's a shift )
|
|
_get _shift? IF ( drop shift ) 0 PS2_SHIFT C! THEN
|
|
( whether we had a shift or not, we return the next )
|
|
(key) EXIT THEN
|
|
DUP 0x7f > IF DROP (key) EXIT THEN
|
|
DUP _shift? IF DROP 1 PS2_SHIFT C! (key) EXIT THEN
|
|
( ah, finally, we have a gentle run-of-the-mill KC )
|
|
PS2_CODES PS2_SHIFT C@ IF 0x80 + THEN + C@
|
|
?DUP NOT IF (key) THEN ;
|
|
( ----- 418 )
|
|
SPI relay driver
|
|
|
|
This driver is designed for a ad-hoc adapter card that acts as a
|
|
SPI relay between the z80 bus and the SPI device. When writing
|
|
to SPI_CTL, we expect a bitmask of the device to select, with
|
|
0 meaning that everything is de-selected. Reading SPI_CTL
|
|
returns 0 if the device is ready or 1 if it's still running an
|
|
exchange. Writing to SPI_DATA initiates an exchange.
|
|
|
|
Provides the SPI relay protocol. Load driver with "419 LOAD".
|
|
( ----- 419 )
|
|
CODE (spix) ( n -- n )
|
|
HL POP, chkPS, A L LDrr,
|
|
SPI_DATA OUTiA,
|
|
( wait until xchg is done )
|
|
BEGIN, SPI_CTL INAi, 1 ANDi, JRNZ, AGAIN,
|
|
SPI_DATA INAi,
|
|
L A LDrr,
|
|
HL PUSH,
|
|
;CODE
|
|
CODE (spie) ( n -- )
|
|
HL POP, chkPS, A L LDrr,
|
|
SPI_CTL OUTiA,
|
|
;CODE
|
|
( ----- 420 )
|
|
SD Card subsystem
|
|
|
|
Load range: B423-B436
|
|
|
|
This subsystem is designed for a ad-hoc adapter card that acts
|
|
as a SPI relay between the z80 bus and the SD card. It requires
|
|
a driver providing the SPI Relay protocol. You need to define
|
|
SDC_DEVID to specify which ID will be supplied to (spie).
|
|
|
|
Through that layer, this driver implements the SDC protocol
|
|
allowing it to provide BLK@ and BLK!.
|
|
( ----- 423 )
|
|
( Computes n into crc c with polynomial 0x1021 )
|
|
CODE _crc16 ( c n -- c ) EXX, ( protect BC )
|
|
HL POP, ( n ) DE POP, ( c )
|
|
A L LDrr, D XORr, D A LDrr,
|
|
B 8 LDri,
|
|
BEGIN,
|
|
E SLA, D RL,
|
|
IFC, ( msb is set, apply polynomial )
|
|
A D LDrr, 0x10 XORi, D A LDrr,
|
|
A E LDrr, 0x21 XORi, E A LDrr,
|
|
THEN,
|
|
DJNZ, AGAIN,
|
|
DE PUSH,
|
|
EXX, ( unprotect BC ) ;CODE
|
|
( ----- 424 )
|
|
( -- n )
|
|
: _idle 0xff (spix) ;
|
|
|
|
( -- n )
|
|
( spix 0xff until the response is something else than 0xff
|
|
for a maximum of 20 times. Returns 0xff if no response. )
|
|
: _wait
|
|
0 ( dummy ) 20 0 DO
|
|
DROP _idle DUP 0xff = NOT IF LEAVE THEN
|
|
LOOP ;
|
|
( ----- 425 )
|
|
( -- )
|
|
( The opposite of sdcWaitResp: we wait until response is 0xff.
|
|
After a successful read or write operation, the card will be
|
|
busy for a while. We need to give it time before interacting
|
|
with it again. Technically, we could continue processing on
|
|
our side while the card it busy, and maybe we will one day,
|
|
but at the moment, I'm having random write errors if I don't
|
|
do this right after a write, so I prefer to stay cautious
|
|
for now. )
|
|
: _ready BEGIN _idle 0xff = UNTIL ;
|
|
( ----- 426 )
|
|
( c n -- c )
|
|
( Computes n into crc c with polynomial 0x09
|
|
Note that the result is "left aligned", that is, that 8th
|
|
bit to the "right" is insignificant (will be stop bit). )
|
|
: _crc7
|
|
XOR ( c )
|
|
8 0 DO
|
|
2 * ( <<1 )
|
|
DUP 255 > IF
|
|
( MSB was set, apply polynomial )
|
|
0xff AND
|
|
0x12 XOR ( 0x09 << 1, we apply CRC on high bits )
|
|
THEN
|
|
LOOP
|
|
;
|
|
( ----- 427 )
|
|
( send-and-crc7 )
|
|
( n c -- c )
|
|
: _s+crc SWAP DUP (spix) DROP _crc7 ;
|
|
( ----- 428 )
|
|
( cmd arg1 arg2 -- resp )
|
|
( Sends a command to the SD card, along with arguments and
|
|
specified CRC fields. (CRC is only needed in initial commands
|
|
though). This does *not* handle CS. You have to
|
|
select/deselect the card outside this routine. )
|
|
: _cmd
|
|
_wait DROP ROT ( a1 a2 cmd )
|
|
0 _s+crc ( a1 a2 crc )
|
|
ROT 256 /MOD ROT ( a2 h l crc )
|
|
_s+crc _s+crc ( a2 crc )
|
|
SWAP 256 /MOD ROT ( h l crc )
|
|
_s+crc _s+crc ( crc )
|
|
1 OR ( ensure stop bit )
|
|
(spix) DROP ( send CRC )
|
|
_wait ( wait for a valid response... )
|
|
;
|
|
( ----- 429 )
|
|
( cmd arg1 arg2 -- r )
|
|
( Send a command that expects a R1 response, handling CS. )
|
|
: SDCMDR1 [ SDC_DEVID LITN ] (spie) _cmd 0 (spie) ;
|
|
|
|
( cmd arg1 arg2 -- r arg1 arg2 )
|
|
( Send a command that expects a R7 response, handling CS. A R7
|
|
is a R1 followed by 4 bytes. arg1 contains bytes 0:1, arg2
|
|
has 2:3 )
|
|
: SDCMDR7
|
|
[ SDC_DEVID LITN ] (spie)
|
|
_cmd ( r )
|
|
_idle 8 LSHIFT _idle + ( r arg1 )
|
|
_idle 8 LSHIFT _idle + ( r arg1 arg2 )
|
|
0 (spie)
|
|
;
|
|
( ----- 430 )
|
|
: _err 0 (spie) LIT" SDerr" ERR ;
|
|
|
|
( Tight definition ahead, pre-comment.
|
|
|
|
Initialize a SD card. This should be called at least 1ms
|
|
after the powering up of the card. We begin by waking up the
|
|
SD card. After power up, a SD card has to receive at least
|
|
74 dummy clocks with CS and DI high. We send 80.
|
|
Then send cmd0 for a maximum of 10 times, success is when
|
|
we get 0x01. Then comes the CMD8. We send it with a 0x01aa
|
|
argument and expect a 0x01aa argument back, along with a
|
|
0x01 R1 response. After that, we need to repeatedly run
|
|
CMD55+CMD41 (0x40000000) until the card goes out of idle
|
|
mode, that is, when it stops sending us 0x01 response and
|
|
send us 0x00 instead. Any other response means that
|
|
initialization failed. )
|
|
( ----- 431 )
|
|
: SDC$
|
|
10 0 DO _idle DROP LOOP
|
|
0 ( dummy ) 10 0 DO ( r )
|
|
DROP 0x40 0 0 SDCMDR1 ( CMD0 )
|
|
1 = DUP IF LEAVE THEN
|
|
LOOP NOT IF _err THEN
|
|
0x48 0 0x1aa ( CMD8 ) SDCMDR7 ( r arg1 arg2 )
|
|
( expected 1 0 0x1aa )
|
|
0x1aa = ROT ( arg1 f r ) 1 = AND SWAP ( f&f arg1 )
|
|
NOT ( 0 expected ) AND ( f&f&f ) NOT IF _err THEN
|
|
BEGIN
|
|
0x77 0 0 SDCMDR1 ( CMD55 )
|
|
1 = NOT IF _err THEN
|
|
0x69 0x4000 0 SDCMDR1 ( CMD41 )
|
|
DUP 1 > IF _err THEN
|
|
NOT UNTIL ; ( out of idle mode, success! )
|
|
( ----- 432 )
|
|
: _ ( dstaddr blkno -- )
|
|
[ SDC_DEVID LITN ] (spie)
|
|
0x51 ( CMD17 ) 0 ROT ( a cmd 0 blkno ) _cmd
|
|
IF _err THEN
|
|
_wait 0xfe = NOT IF _err THEN
|
|
0 SWAP ( crc a )
|
|
512 0 DO ( crc a )
|
|
_idle ( crc a n )
|
|
DUP ROT C!+ ( crc n a+1 )
|
|
ROT> _crc16 ( a+1 crc )
|
|
SWAP ( crc a+1 )
|
|
LOOP
|
|
DROP ( crc1 )
|
|
_idle 8 LSHIFT _idle + ( crc2 )
|
|
_wait DROP 0 (spie)
|
|
= NOT IF _err THEN ;
|
|
( ----- 433 )
|
|
: SDC@
|
|
2 * DUP BLK( SWAP ( b a b ) _
|
|
1+ BLK( 512 + SWAP _
|
|
;
|
|
( ----- 434 )
|
|
: _ ( srcaddr blkno -- )
|
|
[ SDC_DEVID LITN ] (spie)
|
|
0x58 ( CMD24 ) 0 ROT ( a cmd 0 blkno ) _cmd
|
|
IF _err THEN
|
|
_idle DROP 0xfe (spix) DROP 0 SWAP ( crc a )
|
|
512 0 DO ( crc a )
|
|
C@+ ( crc a+1 n )
|
|
ROT OVER ( a n crc n )
|
|
_crc16 ( a n crc )
|
|
SWAP ( a crc n )
|
|
(spix) DROP ( a crc )
|
|
SWAP ( crc a )
|
|
LOOP
|
|
DROP ( crc ) 256 /MOD ( lsb msb )
|
|
(spix) DROP (spix) DROP
|
|
_wait DROP 0 (spie) ;
|
|
( ----- 435 )
|
|
: SDC!
|
|
2 * DUP BLK( SWAP ( b a b ) _
|
|
1+ BLK( 512 + SWAP _
|
|
;
|
|
( ----- 440 )
|
|
8086 boot code
|
|
|
|
Code in the following blocks assemble into a binary that is
|
|
suitable to plug into Core words (B350) to achieve a fully
|
|
functional Collapse OS. It is structured in a way that is
|
|
very similar to Z80 boot code (B280) and requires the same
|
|
constants to be pre-declared.
|
|
|
|
RESERVED REGISTERS: SP is reserved for PSP, BP is for RSP and
|
|
DX is for IP. Whenever you use these registers for another
|
|
purpose, be sure to protect their initial value. Like with
|
|
Z80, you can use SP freely in native code, but you have to make
|
|
sure it goes back to its previous level before next is called.
|
|
|
|
|
|
(cont.)
|
|
( ----- 441 )
|
|
PS CHECKS: chkPS, is a bit different than in z80: it is para-
|
|
metrizable. The idea is that we always call chkPS, before pop-
|
|
ping, telling the expected size of stack. This allows for some
|
|
interesting optimization. For example, in SWAP, no need to pop,
|
|
chkPS, then push, we can chkPS and then proceed to optimized
|
|
swapping in PS.
|
|
|
|
Load range: B445-B461
|
|
( ----- 445 )
|
|
VARIABLE lblexec VARIABLE lblnext
|
|
H@ ORG !
|
|
JMPn, 0 A,, ( 00, main ) 0 A, ( 03, boot driveno )
|
|
0 A,, ( 04, BOOT )
|
|
0 A,, ( 06, uflw ) 0 A,, ( 08, LATEST ) 0 A,, ( unused )
|
|
0 A, 0 A,, ( 0b, EXIT )
|
|
0 A,, 0 A,, ( unused ) 0 A,, ( 13, oflw )
|
|
0 A,, 0 A,, 0 A, ( unused )
|
|
JMPn, 0 A,, ( 1a, next )
|
|
( ----- 446 )
|
|
( TODO: move these words with other native words. )
|
|
H@ 4 + XCURRENT ! ( make next CODE have 0 prev field )
|
|
CODE (br) L1 BSET ( used in ?br )
|
|
DI DX MOVxx, AL [DI] MOVr[], AH AH XORrr, CBW,
|
|
DX AX ADDxx,
|
|
;CODE
|
|
CODE (?br)
|
|
AX POPx, AX AX ORxx, JZ, L1 @ RPCs, ( False, branch )
|
|
( True, skip next byte and don't branch )
|
|
DX INCx,
|
|
;CODE
|
|
( ----- 447 )
|
|
CODE (loop)
|
|
[BP] 0 INC[w]+, ( I++ )
|
|
( Jump if I <> I' )
|
|
AX [BP] 0 MOVx[]+, AX [BP] -2 CMPx[]+,
|
|
JNZ, L1 @ RPCs, ( branch )
|
|
( don't branch )
|
|
BP 4 SUBxi, DX INCx,
|
|
;CODE
|
|
( ----- 448 )
|
|
lblnext BSET PC 0x1d - ORG @ 0x1b + ! ( next )
|
|
( ovfl check )
|
|
BP SP CMPxx,
|
|
IFNC, ( BP >= SP )
|
|
SP PS_ADDR MOVxI, BP RS_ADDR MOVxI,
|
|
DI 0x13 ( oflw ) MOVxm, JMPs, L1 FWRs ( execute )
|
|
THEN,
|
|
DI DX MOVxx, ( <-- IP ) DX INCx, DX INCx,
|
|
DI [DI] MOVx[], ( wordref )
|
|
( continue to execute ) L1 FSET
|
|
( ----- 449 )
|
|
lblexec BSET ( DI -> wordref )
|
|
AL [DI] MOVr[], DI INCx, ( PFA )
|
|
AL AL ORrr, IFZ, DI JMPr, THEN, ( native )
|
|
AL DECr, IFNZ, ( not compiled )
|
|
AL DECr, IFZ, ( cell )
|
|
DI PUSHx, JMPs, lblnext @ RPCs, THEN,
|
|
AL DECr, IFZ, ( does )
|
|
DI PUSHx, DI INCx, DI INCx, DI [DI] MOVx[], THEN,
|
|
( alias or switch ) DI [DI] MOVx[],
|
|
AL DECr, IFNZ, ( switch ) DI [DI] MOVx[], THEN,
|
|
JMPs, lblexec @ RPCs,
|
|
THEN, ( continue to compiled )
|
|
BP INCx, BP INCx, [BP] 0 DX MOV[]+x, ( pushRS )
|
|
DX DI MOVxx, DX INCx, DX INCx, ( --> IP )
|
|
DI [DI] MOVx[], JMPs, lblexec @ RPCs,
|
|
( ----- 450 )
|
|
lblchkPS BSET ( CX -> expected size )
|
|
AX PS_ADDR MOVxI, AX SP SUBxx, 2 SUBAXI, ( CALL adjust )
|
|
AX CX CMPxx,
|
|
IFNC, ( we're good ) RET, THEN,
|
|
( underflow ) DI 0x06 MOVxm, JMPs, lblexec @ RPCs,
|
|
|
|
PC 3 - ORG @ 1+ ! ( main )
|
|
DX POPx, ( boot drive no ) 0x03 DL MOVmr,
|
|
SP PS_ADDR MOVxI, BP RS_ADDR MOVxI,
|
|
DI 0x08 MOVxm, ( LATEST )
|
|
( HERE begins at CURRENT )
|
|
SYSVARS 0x4 ( HERE ) + DI MOVmx,
|
|
SYSVARS 0x2 ( CURRENT ) + DI MOVmx,
|
|
DI 0x04 ( BOOT ) MOVxm,
|
|
JMPn, lblexec @ RPCn, ( execute )
|
|
( ----- 451 )
|
|
( native words )
|
|
CODE EXECUTE 1 chkPS,
|
|
DI POPx, JMPn, lblexec @ RPCn,
|
|
CODE EXIT
|
|
DX [BP] 0 MOVx[]+, BP DECx, BP DECx, ( popRS )
|
|
;CODE
|
|
( ----- 452 )
|
|
CODE (n) ( number literal )
|
|
DI DX MOVxx, DI [DI] MOVx[], DI PUSHx,
|
|
DX INCx, DX INCx,
|
|
;CODE
|
|
CODE (s) ( string literal, see B287 )
|
|
DI DX MOVxx, ( IP )
|
|
AH AH XORrr, AL [DI] MOVr[], ( slen )
|
|
DX PUSHx, DX INCx, DX AX ADDxx,
|
|
;CODE
|
|
( ----- 453 )
|
|
CODE >R 1 chkPS,
|
|
BP INCx, BP INCx, [BP] 0 POP[w]+,
|
|
;CODE NOP, NOP, NOP,
|
|
CODE R>
|
|
[BP] 0 PUSH[w]+, BP DECx, BP DECx,
|
|
;CODE
|
|
CODE 2>R
|
|
[BP] 4 POP[w]+, [BP] 2 POP[w]+, BP 4 ADDxi,
|
|
;CODE
|
|
CODE 2R> 2 chkPS,
|
|
[BP] -2 PUSH[w]+, [BP] 0 PUSH[w]+, BP 4 SUBxi,
|
|
;CODE
|
|
( ----- 454 )
|
|
CODE ROT ( a b c -- b c a ) 3 chkPS,
|
|
CX POPx, BX POPx, AX POPx,
|
|
BX PUSHx, CX PUSHx, AX PUSHx, ;CODE
|
|
CODE ROT> ( a b c -- c a b ) 3 chkPS,
|
|
CX POPx, BX POPx, AX POPx,
|
|
CX PUSHx, AX PUSHx, BX PUSHx, ;CODE
|
|
CODE DUP 1 chkPS, AX POPx, AX PUSHx, AX PUSHx, ;CODE
|
|
CODE ?DUP 1 chkPS, AX POPx, AX AX ORxx, AX PUSHx,
|
|
IFNZ, AX PUSHx, THEN, ;CODE
|
|
CODE OVER ( a b -- a b a ) 2 chkPS,
|
|
DI SP MOVxx, AX [DI] 2 MOVx[]+, AX PUSHx, ;CODE
|
|
CODE PICK
|
|
DI POPx, DI SHLx1, ( x2 )
|
|
CX DI MOVxx, CX 2 ADDxi, CALL, lblchkPS @ RPCn,
|
|
DI SP ADDxx, DI [DI] MOVx[], DI PUSHx,
|
|
;CODE
|
|
( ----- 455 )
|
|
CODE (roll) ( "2 3 4 5 4 --> 2 4 5 5". See B311 )
|
|
CX POPx, CX 2 ADDxi, CALL, lblchkPS @ RPCn, CX 2 SUBxi,
|
|
SI SP MOVxx, SI CX ADDxx,
|
|
DI SI MOVxx, DI 2 ADDxi, STD, REPZ, MOVSB,
|
|
;CODE
|
|
CODE SWAP AX POPx, BX POPx, AX PUSHx, BX PUSHx, ;CODE
|
|
CODE DROP 1 chkPS, AX POPx, ;CODE
|
|
CODE 2DROP 2 chkPS, SP 4 ADDxi, ;CODE
|
|
CODE 2DUP 2 chkPS,
|
|
AX POPx, BX POPx,
|
|
BX PUSHx, AX PUSHx, BX PUSHx, AX PUSHx,
|
|
;CODE
|
|
CODE S0 AX PS_ADDR MOVxI, AX PUSHx, ;CODE
|
|
CODE 'S SP PUSHx, ;CODE
|
|
CODE AND 2 chkPS,
|
|
AX POPx, BX POPx, AX BX ANDxx, AX PUSHx, ;CODE
|
|
( ----- 456 )
|
|
CODE OR 2 chkPS,
|
|
AX POPx, BX POPx, AX BX ORxx, AX PUSHx, ;CODE
|
|
CODE XOR 2 chkPS,
|
|
AX POPx, BX POPx, AX BX XORxx, AX PUSHx, ;CODE
|
|
CODE NOT 1 chkPS,
|
|
AX POPx, AX AX ORxx,
|
|
IFNZ, AX -1 MOVxI, THEN, AX INCx, AX PUSHx, ;CODE
|
|
CODE + 2 chkPS,
|
|
AX POPx, BX POPx, AX BX ADDxx, AX PUSHx, ;CODE
|
|
CODE - 2 chkPS,
|
|
BX POPx, AX POPx, AX BX SUBxx, AX PUSHx, ;CODE
|
|
CODE * 2 chkPS,
|
|
AX POPx, BX POPx,
|
|
DX PUSHx, ( protect from MUL ) BX MULx, DX POPx,
|
|
AX PUSHx, ;CODE
|
|
( ----- 457 )
|
|
CODE /MOD 2 chkPS,
|
|
BX POPx, AX POPx, DX PUSHx, ( protect )
|
|
DX DX XORxx, BX DIVx,
|
|
BX DX MOVxx, DX POPx, ( unprotect )
|
|
BX PUSHx, ( modulo ) AX PUSHx, ( division )
|
|
;CODE
|
|
CODE ! 2 chkPS, DI POPx, AX POPx, [DI] AX MOV[]x, ;CODE
|
|
CODE @ 1 chkPS, DI POPx, AX [DI] MOVx[], AX PUSHx, ;CODE
|
|
CODE C! 2 chkPS, DI POPx, AX POPx, [DI] AX MOV[]r, ;CODE
|
|
CODE C@ 1 chkPS,
|
|
DI POPx, AH AH XORrr, AL [DI] MOVr[], AX PUSHx, ;CODE
|
|
CODE I [BP] 0 PUSH[w]+, ;CODE
|
|
CODE I' [BP] -2 PUSH[w]+, ;CODE
|
|
CODE J [BP] -4 PUSH[w]+, ;CODE
|
|
CODE (resSP) SP PS_ADDR MOVxI, ;CODE
|
|
CODE (resRS) BP RS_ADDR MOVxI, ;CODE
|
|
( ----- 458 )
|
|
CODE BYE HLT, BEGIN, JMPs, AGAIN, ;CODE
|
|
CODE S= 2 chkPS,
|
|
SI POPx, DI POPx, CH CH XORrr, CL [SI] MOVr[],
|
|
CL [DI] CMPr[],
|
|
IFZ, ( same size? )
|
|
SI INCx, DI INCx, CLD, REPZ, CMPSB,
|
|
THEN,
|
|
PUSHZ,
|
|
;CODE
|
|
CODE CMP 2 chkPS,
|
|
BX POPx, AX POPx, CX CX XORxx, AX BX CMPxx,
|
|
IFNZ, ( < or > )
|
|
CX INCx, IFC, ( < ) CX DECx, CX DECx, THEN,
|
|
THEN,
|
|
CX PUSHx,
|
|
;CODE
|
|
( ----- 459 )
|
|
CODE _find ( cur w -- a f ) 2 chkPS,
|
|
SI POPx, ( w ) DI POPx, ( cur )
|
|
CH CH XORrr, CL [SI] MOVr[], ( CX -> strlen )
|
|
SI INCx, ( first char ) AX AX XORxx, ( initial prev )
|
|
BEGIN, ( loop )
|
|
DI AX SUBxx, ( jump to prev wordref )
|
|
AL [DI] -1 MOVr[]+, 0x7f ANDALi, ( strlen )
|
|
CL AL CMPrr, IFZ, ( same len )
|
|
SI PUSHx, DI PUSHx, CX PUSHx, ( --> lvl 3 )
|
|
3 ADDALi, ( header ) AH AH XORrr, DI AX SUBxx,
|
|
CLD, REPZ, CMPSB,
|
|
CX POPx, DI POPx, SI POPx, ( <-- lvl 3 )
|
|
IFZ, DI PUSHx, AX 1 MOVxI, AX PUSHx,
|
|
JMPn, lblnext @ RPCn, THEN,
|
|
THEN,
|
|
DI 3 SUBxi, AX [DI] MOVx[], ( prev ) AX AX ORxx, ( cont. )
|
|
( ----- 460 )
|
|
( cont. find ) JNZ, AGAIN, ( loop )
|
|
SI DECx, SI PUSHx, AX AX XORrr, AX PUSHx,
|
|
;CODE
|
|
CODE 0 AX AX XORxx, AX PUSHx, ;CODE
|
|
CODE 1 AX 1 MOVxI, AX PUSHx, ;CODE
|
|
CODE -1 AX -1 MOVxI, AX PUSHx, ;CODE
|
|
CODE 1+ 1 chkPS, DI SP MOVxx, [DI] INC[w], ;CODE
|
|
CODE 1- 1 chkPS, DI SP MOVxx, [DI] DEC[w], ;CODE
|
|
CODE 2+ 1 chkPS, DI SP MOVxx, [DI] INC[w], [DI] INC[w], ;CODE
|
|
CODE 2- 1 chkPS, DI SP MOVxx, [DI] DEC[w], [DI] DEC[w], ;CODE
|
|
CODE RSHIFT ( n u -- n ) 2 chkPS,
|
|
CX POPx, AX POPx, AX SHRxCL, AX PUSHx, ;CODE
|
|
CODE LSHIFT ( n u -- n ) 2 chkPS,
|
|
CX POPx, AX POPx, AX SHLxCL, AX PUSHx, ;CODE
|
|
( ----- 461 )
|
|
( See comment in B321. TODO: test on real hardware. in qemu,
|
|
the resulting delay is more than 10x too long. )
|
|
CODE TICKS 1 chkPS, ( n=100us )
|
|
SI DX MOVxx, ( protect IP )
|
|
AX POPx, BX 100 MOVxI, BX MULx,
|
|
CX DX MOVxx, ( high ) DX AX MOVxx, ( low )
|
|
AX 0x8600 MOVxI, ( 86h, WAIT ) 0x15 INT,
|
|
DX SI MOVxx, ( restore IP )
|
|
;CODE
|
|
( ----- 470 )
|
|
( Z80 driver for TMS9918. Implements grid protocol. Requires
|
|
TMS_CTLPORT, TMS_DATAPORT and ~FNT from the Font compiler at
|
|
B520. Load range B470-472 )
|
|
CODE _ctl ( a -- sends LSB then MSB )
|
|
HL POP, chkPS,
|
|
A L LDrr, TMS_CTLPORT OUTiA,
|
|
A H LDrr, TMS_CTLPORT OUTiA,
|
|
;CODE
|
|
CODE _data
|
|
HL POP, chkPS,
|
|
A L LDrr, TMS_DATAPORT OUTiA,
|
|
;CODE
|
|
( ----- 471 )
|
|
CODE _blank ( this is way too slow in Forth )
|
|
A XORr, TMS_CTLPORT OUTiA,
|
|
A 0x40 LDri, TMS_CTLPORT OUTiA,
|
|
HL 0x4000 LDdi,
|
|
BEGIN,
|
|
A XORr, TMS_DATAPORT OUTiA,
|
|
HL DECd, HLZ,
|
|
JRNZ, AGAIN,
|
|
;CODE
|
|
( ----- 472 )
|
|
( Each row in ~FNT is a row of the glyph and there is 7 of
|
|
them. We insert a blank one at the end of those 7. )
|
|
: _sfont ( a -- Send font to TMS )
|
|
7 0 DO C@+ _data LOOP DROP
|
|
( blank row ) 0 _data ;
|
|
: CELL! ( c pos )
|
|
0x7800 OR _ctl ( tilenum )
|
|
0x20 - ( glyph ) 0x5e MOD _data ;
|
|
: COLS 40 ; : LINES 24 ;
|
|
: TMS$
|
|
0x8100 _ctl ( blank screen ) _blank
|
|
0x4000 _ctl 0x5e 0 DO ~FNT I 7 * + _sfont LOOP
|
|
0x820e _ctl ( name table 0x3800 )
|
|
0x8400 _ctl ( pattern table 0x0000 )
|
|
0x87f0 _ctl ( colors 0 and 1 )
|
|
0x8000 _ctl 0x81d0 _ctl ( text mode, display on ) ;
|
|
( ----- 520 )
|
|
Fonts
|
|
|
|
Fonts are kept in "source" form in the following blocks and
|
|
then compiled to binary bitmasks by the following code. In
|
|
source form, fonts are a simple sequence of '.' and 'X'. '.'
|
|
means empty, 'X' means filled. Glyphs are entered one after the
|
|
other, starting at 0x21 and ending at 0x7e. To be space
|
|
efficient in blocks, we align glyphs horizontally in the blocks
|
|
to fit as many character as we can. For example, a 5x7 font
|
|
would mean that we would have 12x2 glyphs per block.
|
|
|
|
521 Font compiler 530 3x5 font
|
|
532 5x7 font 536 7x7 font
|
|
( ----- 521 )
|
|
( Converts "dot-X" fonts to binary "glyph rows". One byte for
|
|
each row. In a 5x7 font, each glyph thus use 7 bytes.
|
|
Resulting bytes are aligned to the left of the byte.
|
|
Therefore, for a 5-bit wide char, "X.X.X" translates to
|
|
0b10101000. Left-aligned bytes are easier to work with when
|
|
compositing glyphs. )
|
|
( ----- 522 )
|
|
: _g ( given a top-left of dot-X in BLK(, spit 5 bin lines )
|
|
5 0 DO
|
|
0 3 0 DO ( a r )
|
|
1 LSHIFT
|
|
OVER J 64 * I + + C@ 'X' = IF 1+ THEN
|
|
LOOP 5 LSHIFT C, LOOP DROP ;
|
|
: _l ( a u -- a, spit a line of u glyphs )
|
|
( u ) 0 DO ( a )
|
|
DUP I 3 * + _g
|
|
LOOP ;
|
|
: CPFNT3x5
|
|
0 , 0 , 0 C, ( space char )
|
|
530 BLK@ BLK( 21 _l 320 + 21 _l 320 + 21 _l DROP ( 63 )
|
|
531 BLK@ BLK( 21 _l 320 + 10 _l DROP ( 94! )
|
|
;
|
|
( ----- 523 )
|
|
: _g ( given a top-left of dot-X in BLK(, spit 7 bin lines )
|
|
7 0 DO
|
|
0 5 0 DO ( a r )
|
|
1 LSHIFT
|
|
OVER J 64 * I + + C@ 'X' = IF 1+ THEN
|
|
LOOP 3 LSHIFT C, LOOP DROP ;
|
|
: _l ( a u -- a, spit a line of u glyphs )
|
|
( u ) 0 DO ( a )
|
|
DUP I 5 * + _g
|
|
LOOP ;
|
|
: CPFNT5x7
|
|
0 , 0 , 0 , 0 C, ( space char )
|
|
535 532 DO I BLK@ BLK( 12 _l 448 + 12 _l DROP LOOP ( 72 )
|
|
535 BLK@ BLK( 12 _l 448 + 10 _l DROP ( 94! )
|
|
;
|
|
( ----- 524 )
|
|
: _g ( given a top-left of dot-X in BLK(, spit 7 bin lines )
|
|
7 0 DO
|
|
0 7 0 DO ( a r )
|
|
1 LSHIFT
|
|
OVER J 64 * I + + C@ 'X' = IF 1+ THEN
|
|
LOOP 1 LSHIFT C, LOOP DROP ;
|
|
: _l ( a u -- a, spit a line of u glyphs )
|
|
( u ) 0 DO ( a )
|
|
DUP I 7 * + _g
|
|
LOOP ;
|
|
: CPFNT7x7
|
|
0 , 0 , 0 , 0 C, ( space char )
|
|
541 536 DO I BLK@ BLK( 9 _l 448 + 9 _l DROP LOOP ( 90 )
|
|
542 BLK@ BLK( 4 _l DROP ( 94! )
|
|
;
|
|
( ----- 530 )
|
|
.X.X.XX.X.XXX...X..X...XX...X...............X.X..X.XX.XX.X.XXXX
|
|
.X.X.XXXXXX...XX.X.X..X..X.XXX.X............XX.XXX...X..XX.XX..
|
|
.X........XX.X..X.....X..X..X.XXX...XXX....X.X.X.X..X.XX.XXXXX.
|
|
......XXXXX.X..X.X....X..X.X.X.X..X.......X..X.X.X.X....X..X..X
|
|
.X....X.X.X...X.XX.....XX........X......X.X...X.XXXXXXXX...XXX.
|
|
.XXXXXXXXXXX........X...X..XX..X..X.XX..XXXX.XXXXXX.XXX.XXXXXXX
|
|
X....XX.XX.X.X..X..X.XXX.X...XXXXX.XX.XX..X.XX..X..X..X.X.X...X
|
|
XXX.X.XXXXXX......X.......X.X.XXXXXXXX.X..X.XXX.XX.X.XXXX.X...X
|
|
X.XX..X.X..X.X..X..X.XXX.X....X..X.XX.XX..X.XX..X..X.XX.X.X...X
|
|
XXXX..XXXXX....X....X...X...X..XXX.XXX..XXXX.XXXX...XXX.XXXXXX.
|
|
X.XX..X.XXX.XXXXX.XXXXX..XXXXXX.XX.XX.XX.XX.XXXXXXXX..XXX.X....
|
|
XX.X..XXXX.XX.XX.XX.XX.XX...X.X.XX.XX.XX.XX.X..XX..X....XX.X...
|
|
X..X..XXXX.XX.XXX.X.XXX..X..X.X.XX.XXXX.X..X..X.X...X...X......
|
|
XX.X..X.XX.XX.XX..XXXX.X..X.X.X.XX.XXXXX.X.X.X..X....X..X......
|
|
X.XXXXX.XX.XXXXX...XXX.XXX..X.XXX.X.X.XX.X.X.XXXXXX..XXXX...XXX
|
|
!"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\]^_
|
|
( ----- 531 )
|
|
X.....X.......X....XX...X...X...XX..XX.......................X.
|
|
.X.XX.X...XX..X.X.X...X.X........X.X.X.X.XXX..X.XX..XX.XX.XXXXX
|
|
.....XXX.X...XXX.XXX.X.XXX..X...XXX..X.XXXX.XX.XX.XX.XX..XX..X.
|
|
...XXXX.XX..X.XXX.X...XXX.X.X...XX.X.X.X.XX.XX.XXX..XXX....X.X.
|
|
...XXXXX..XX.XX.XXX..XX.X.X.X.XX.X.X.XXX.XX.X.X.X....XX..XX..XX
|
|
...................XX.X.XX.....................................
|
|
X.XX.XX.XX.XX.XXXX.X..X..X..XX
|
|
X.XX.XX.X.X..X..XXX...X...XXX.
|
|
X.XX.XXXX.X..X.XX..X..X..X....
|
|
XXX.X.X.XX.X.X.XXX.XX.X.XX....
|
|
`abcdefghijklmnopqrstuvwxyz{|}~
|
|
( ----- 532 )
|
|
..X...X.X........X..............X....X....X...............X.
|
|
..X...X.X..X.X..XXXXX...X.XX....X...X......X.X.X.X..X....X..
|
|
..X.......XXXXXX.......X.X..X......X........X.XXX...X.......
|
|
..X........X.X..XXX...X...XX.......X........XXXXXXXXXXX.....
|
|
..........XXXXX....X.X....XX.X.....X........X.XXX...X.......
|
|
..X........X.X.XXXX.X...XX..X.......X......X.X.X.X..X.......
|
|
..X..............X.......XXX.X.......X....X.................
|
|
................XXX...XX..XXX..XXX...XX.XXXXX.XXX.XXXXX.XXX.
|
|
..............XX...X.X.X.X...XX...X.X.X.X....X........XX...X
|
|
.............X.X..XX...X.....X....XX..X.XXXX.X........XX...X
|
|
XXXXX.......X..X.X.X...X....X...XX.XXXXX....XXXXX....X..XXX.
|
|
...........X...XX..X...X...X......X...X.....XX...X..X..X...X
|
|
......XX..X....X...X...X..X...X...X...X.X...XX...X.X...X...X
|
|
......XX........XXX..XXXXXXXXX.XXX....X..XXX..XXX.X.....XXX.
|
|
!"#$%&'()*+,-./012345678
|
|
( ----- 533 )
|
|
.XXX...............X.....X.....XXX..XXX..XXX.XXXX..XXX.XXXX.
|
|
X...X..X....X....XX.......XX..X...XX...XX...XX...XX...XX...X
|
|
X...X..X....X...XX..XXXXX..XX.....XX..XXX...XX...XX....X...X
|
|
.XXX...........X.............X...X.X..XXXXXXXXXXX.X....X...X
|
|
....X..X....X...XX..XXXXX..XX...X..X....X...XX...XX....X...X
|
|
....X..X...X.....XX.......XX.......X...XX...XX...XX...XX...X
|
|
.XXX...............X.....X......X...XXX.X...XXXXX..XXX.XXXX.
|
|
XXXXXXXXXX.XXX.X...X.XXX....XXX..X.X....X...XX...X.XXX.XXXX.
|
|
X....X....X...XX...X..X......XX.X..X....XX.XXXX..XX...XX...X
|
|
X....X....X....X...X..X......XXX...X....X.X.XXX..XX...XX...X
|
|
XXXX.XXXX.X..XXXXXXX..X......XX....X....X...XX.X.XX...XXXXX.
|
|
X....X....X...XX...X..X......XXX...X....X...XX..XXX...XX....
|
|
X....X....X...XX...X..X..X...XX.X..X....X...XX..XXX...XX....
|
|
XXXXXX.....XXX.X...X.XXX..XXX.X..X.XXXXXX...XX...X.XXX.X....
|
|
9:;<=>?@ABCDEFGHIJKLMNOP
|
|
( ----- 534 )
|
|
.XXX.XXXX..XXX.XXXXXX...XX...XX...XX...XX...XXXXXXXXX.......
|
|
X...XX...XX...X..X..X...XX...XX...XX...XX...XX...XX....X....
|
|
X...XX...XX......X..X...XX...XX...X.X.X..X.X....X.X.....X...
|
|
X...XXXXX..XXX...X..X...XX...XX...X..X....X....X..X......X..
|
|
X.X.XX.X......X..X..X...XX...XX.X.X.X.X...X...X...X.......X.
|
|
X..XXX..X.X...X..X..X...X.X.X.X.X.XX...X..X..X...XX........X
|
|
.XXXXX...X.XXX...X...XXX...X...X.X.X...X..X..XXXXXXXX.......
|
|
..XXX..X.........X..........................................
|
|
....X.X.X.........X.........................................
|
|
....XX...X...........XXX.X.....XXX.....X.XXX..XX....XXXX....
|
|
....X...................XX....X...X....XX...XX..X..X..XX....
|
|
....X................XXXXXXX..X......XXXXXXXXX......XXXXXX..
|
|
....X...............X...XX..X.X...X.X..XX....XXX......XX..X.
|
|
..XXX.....XXXXX......XXXXXXX...XXX...XXX.XXXXX......XX.X..X.
|
|
QRSTUVWXYZ[\]^_`abcdefgh
|
|
( ----- 535 )
|
|
............................................................
|
|
............................................................
|
|
..X......XX..X..XX...X.X.XXX...XXX.XXX....XXXX.XX..XXX..X...
|
|
..........X.X....X..X.X.XX..X.X...XX..X..X..XXX...X....XXX..
|
|
..X......XXX.....X..X...XX...XX...XXXX....XXXX.....XXX..X...
|
|
..X...X..XX.X....X..X...XX...XX...XX........XX........X.X...
|
|
..X....XX.X..X...XX.X...XX...X.XXX.X........XX.....XXX...XX.
|
|
................................XX...X...XX.......
|
|
...............................X.....X.....X......
|
|
X...XX...XX...XX...XX...XXXXXX.X.....X.....X..X.X.
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ijklmnopqrstuvwxyz{|}~
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( ----- 536 )
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..XX....XX.XX..XX.XX....XX..XX......XXX......XX.....XX...XX....
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..XX.....XX.....XX............XX...XX.....XX..XX...XX....XX....
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...............XX.............XX...........XXXX..XXXXXX.XXXXXX.
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!"#$%&'()*+,-./012
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( ----- 537 )
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.XXXX.....XX..XXXXXX...XXX..XXXXXX..XXXX...XXXX................
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XX..XX...XXX..XX......XX........XX.XX..XX.XX..XX...............
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XX..XX....XX..XX..XX.XX..XX..XX....XX..XX....XX....XX.....XX...
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XX...............XX....XX...XX.X.X.XXXXXX.XXXXX..XX.....XX..XX.
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..XX...........XX...........XX.....XX..XX.XX..XX.XX..XX.XX.XX..
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...XX.........XX.......XX....XXXX..XX..XX.XXXXX...XXXX..XXXX...
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3456789:;<=>?@ABCD
|
|
( ----- 538 )
|
|
XXXXXX.XXXXXX..XXXX..XX..XX.XXXXXX..XXXXX.XX..XX.XX.....XX...XX
|
|
XX.....XX.....XX..XX.XX..XX...XX......XX..XX.XX..XX.....XXX.XXX
|
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XX.....XX.....XX.....XX..XX...XX......XX..XXXX...XX.....XXXXXXX
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XXXXX..XXXXX..XX.XXX.XXXXXX...XX......XX..XXX....XX.....XX.X.XX
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XX.....XX.....XX..XX.XX..XX...XX......XX..XXXX...XX.....XX.X.XX
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XX.....XX.....XX..XX.XX..XX...XX...XX.XX..XX.XX..XX.....XX...XX
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|
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XX..XX.XX..XX.XX..XX.XX..XX.XX..XX.XX..XX...XX...XX..XX.XX..XX.
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XX.XXX.XX..XX.XX.....XX.X.X.XX.XX......XX...XX...XX..XX.XX..XX.
|
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XX..XX.XX..XX.XX.....XX.XX..XX..XX.XX..XX...XX...XX..XX..XXXX..
|
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XX..XX..XXXX..XX......XX.XX.XX..XX..XXXX....XX....XXXX....XX...
|
|
EFGHIJKLMNOPQRSTUVWXYZ[\]^_
|
|
( ----- 539 )
|
|
XX...XXXX..XX.XX..XX.XXXXXX.XXXXX.........XXXXX....XX..........
|
|
XX...XXXX..XX.XX..XX.....XX.XX.....XX........XX...XXXX.........
|
|
XX.X.XX.XXXX..XX..XX....XX..XX......XX.......XX..XX..XX........
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|
XX.X.XX..XX....XXXX....XX...XX.......XX......XX..X....X........
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|
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XXX.XXXXX..XX...XX...XX.....XX.........XX....XX................
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|
XX...XXXX..XX...XX...XXXXXX.XXXXX.........XXXXX.........XXXXXXX
|
|
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|
|
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|
|
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|
|
...........XX.XX..XX.XX..XX.XX..XX.XX..XX.XXXXX..XX..XX.XX..XX.
|
|
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|
|
.......XX..XX.XX..XX.XX..XX.XX..XX.XX......XX........XX.XX..XX.
|
|
........XXXXX.XXXXX...XXXX...XXXXX..XXXX...XX.....XXX...XX..XX.
|
|
WXYZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~
|
|
( ----- 540 )
|
|
..XX.....XX...XX......XXX......................................
|
|
..............XX.......XX......................................
|
|
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|
|
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|
|
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|
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|
|
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|
|
...............XX..............................................
|
|
...............XX..............................................
|
|
XX.XX...XXXXX.XXXXX..XX..XX.XX..XX.XX...XXXX..XX.XX..XX.XXXXXX.
|
|
XXX.XX.XX......XX....XX..XX.XX..XX.XX.X.XX.XXXX..XX..XX....XX..
|
|
XX......XXXX...XX....XX..XX.XX..XX.XX.X.XX..XX...XX..XX...XX...
|
|
XX.........XX..XX....XX..XX..XXXX..XXXXXXX.XXXX...XXXXX..XX....
|
|
XX.....XXXXX....XXX...XXXXX...XX....XX.XX.XX..XX.....XX.XXXXXX.
|
|
ijklmnopqrstuvwxyz{|}~
|
|
( ----- 541 )
|
|
...XX....XX...XX......XX...X
|
|
..XX.....XX....XX....XX.X.XX
|
|
..XX.....XX....XX....X...XX.
|
|
XXX......XX.....XXX.........
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|
..XX.....XX....XX...........
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..XX.....XX....XX...........
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...XX....XX...XX............
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{|}~
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