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67f1a62596
Version 2.0, full emulation of 6502 op-codes, fully tested and functional. Extended description in ReadMe file. Bin2Hex tool to convert binary images to memory definition format. Microchess, EhBasic added.
1485 lines
38 KiB
NASM
1485 lines
38 KiB
NASM
;----------------------------------------------------------------------------------
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; Tiny Basic port to MKHBC-8-R2 6502 computer
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; by Marek Karcz 2012.
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;
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; Based on the work by:
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;
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; ================= ORIGINAL HEADER ======================================
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;
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; OMS-02 Firmware
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;
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; Bill O'Neill - Last update: 2008/12/06
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;
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; Tiny Basic and minimal Monitor (BIOS)
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;
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; This version is for the assembler that comes with
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; Michal Kowalski's 6502 emulator. To run it, load it
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; into the emulator, assemle it, begin debug mode then,
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; set the PC to $1CF0 then run.
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;
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; The emulator was used to help figure out Tiny Basic
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; and this code is only documented to that extent.
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;
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; It should be easy enough to configure this to run any-
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; where in memory or convert it to assemble with any 6502
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; assembler. The current location is being used as this is
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; to be placed into a controller I designed (OMS-02) around
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; a 6507 CPU (a 6502 variant) that has only 8k off memory.
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; The memory map for the OMS-02 is;
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;
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; $0000-$0FFF RAM
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; $1000-$13FF I/O space (ACIA is at $1200)
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; $1400-$1FFF Tiny Basic and simple monitor
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;
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;
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; Next steps:
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; Write a BREAK routine that will enable a break if any charater is typed at the console
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; More comments to document this code
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; Investigate using assembler variables and directives to make it easy to re-locate this code
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;
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; ============ END OF ORIGINAL HEADER =========================================
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;
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; Revision history (MKHBC-8-R1 port):
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;
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; 1/4/2012:
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; TB port created.
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;
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; 1/5/2012:
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; Version 1.0.1.
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; Added 2-byte peek routine.
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;
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; 1/11/2012:
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; Figured out jump addresses for routines and used symbolic labels
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; instead of hardcoded addresses. Relocated TB to $0400 (from $1400).
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;
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; 2/15/2016
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; Ported to my own 6502 emulator.
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;
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; 2/20/2016
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; Increased stack size. Changed prompt.
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;
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;
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;--------------------------------------------------------------------------------------
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;.segment "BASIC"
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;
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; Tiny Basic starts here
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;
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.org $0400 ; Start of Basic. First 1K of ROM is shaded by I/O on the OMS-02
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SOBAS:
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;CLRSC = ClearScreen
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C_00BC = $00BC ; These are needed because my assembler
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C_20 = $20 ; does not hanle standard 6502 notation
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C_22 = $22 ; properly
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C_24 = $24 ;
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C_2A = $2A ; I may just fix this someday - HA!
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C_2C = $2C ;
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C_2E = $2E ;
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C_B8 = $B8 ;
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C_BC = $BC ;
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C_C1 = $C1 ;
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C_C2 = $C2 ;
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C_C6 = $C6 ;
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SR_V_L = SOBAS + $1E ; Base address for subroutine vector lo byte
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SR_V_H = SOBAS + $1F ; Base address for subroutine vector hi byte
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CV: jmp COLD_S ; Cold start vector
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WV: jmp WARM_S ; Warm start vector
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IN_V: jmp RCCHR ; Input routine address.
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OUT_V: jmp SNDCHR ; Output routine address.
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BREAK: nop ; Begin dummy break routine
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clc ; Clear the carry flag
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rts ; End break routine
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;
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; Some codes
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;
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BSC: .byte $5f ; Backspace code
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LSC: .byte $18 ; Line cancel code
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PCC: .byte $80 ; Pad character control
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TMC: .byte $00 ; Tape mode control
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;SSS: .byte $04 ; Spare Stack size. (was $04 but documentation suggests $20 ?)
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SSS: .byte $20 ; Spare Stack size. (was $04 but documentation suggests $20 ?)
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;
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; Code fragment
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; Seems to store or retreive a byte to/from memory and the accumulator
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; ---
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; M.K.: I think this code it is used from Tiny Basic programs by calling USR to store/retrieve
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; data (since TB does not support arrays, this is one way to emulate them).
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; This location is at exactly 20 bytes distance from the start of TB code.
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; TB programs typically make USR calls to locations:
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; SOBAS+20
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; SOBAS+24
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; E.g:
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; LET S=_SOBAS_ REM (_SOBAS_ is TB start)
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; LET B=_ARRAY_SIZE_+2 (_ARRAY_SIZE_ is the size of 2-dim array)
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; Get byte from location V(I,J), store in Z.
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; LET Z=USR(S+20,V+B*I+J,0)
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; Store Z in location V(I,J)
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; LET Z=USR(S+24,V+B*I+J,Z)
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; From TB documentation:
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; For your convenience two subroutines have been included in the TINY BASIC interpreter to access memory.
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; If S contains the address of the beginning of the TINY BASIC interpreter (256 for standard 6800, 512
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; for standard 6502, etc.), then location S+20 (hex 0114) is the entry point of a subroutine to read one
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; byte from the memory address in the index register, and location S+24 (hex 0118) is the entry point of
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; a subroutine to store one byte into memory.
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;-------------------------------------------------
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; USR (address)
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; USR (address,Xreg)
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; USR (address,Xreg,Areg)
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;
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; This function is actually a machine-language subroutine call to the address in the first argument.
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; If the second argument is included the index registers contain that value on entry to the subroutine,
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; with the most significant part in X. If the third argument is included, the accumulators contain that
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; value on entry to the subroutine, with the least significant part in A. On exit, the value in the
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; Accumulators (for the 6800; A and Y for the 6502) becomes the value of the function, with the least
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; significant part in A. All three arguments are evaluated as normal expressions.
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; It should be noted that machine language subroutine addresses are 16-bit Binary numbers. TINY BASIC
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; evaluates all expressions to 16-bit binary numbers, so any valid expression may be used to define a
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; subroutine address. However, most addresses are expressed in hexadecimal whereas TINY BASIC only accepts
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; numerical constants in decimal. Thus to jump to a subroutine at hex address 40AF, you must code USR(16559).
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; Hex address FFB5 is similarly 65461 in decimal, though the equivalent (-75) may be easier to use.
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;
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OneBytePeek:
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stx $C3 ; read one byte from memory address in the index register
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bcc LBL008
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OneBytePoke:
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stx $C3 ; store one byte into memory
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sta (C_C2),Y
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rts
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LBL008: lda (C_C2),Y
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ldy #$00
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rts
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; These seem to be addresses associated with the IL branch instructions
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;.byte $62,$15, $64,$15, $D8,$15, $05,$16, $33,$16, $FD,$15
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.byte <JUMP01,>JUMP01
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.byte <LBL027,>LBL027
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.byte <JUMP02,>JUMP02
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.byte <JUMP03,>JUMP03
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.byte <JUMP04,>JUMP04
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.byte <JUMP05,>JUMP05
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; NOTE: The original comment below is obsolete now, since I found the jump
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; addresses locations and put them in this table. Now assembler will
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; take care of the reallocation.
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; START OF ORIGINAL COMMENT
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; This appears to be a table of
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; execution addresses to jump to ML routines
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; that handle the the IL instructions.
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; You cannot add code to or relocate this program
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; without updating these
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; END OF ORIGINAL COMMENT
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;.byte $9F,$17, $42,$1B, $3F,$1B, $7A,$17, $FC,$18, $95,$17, $9F,$17, $9F,$17
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.byte <LBL067,>LBL067
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.byte <LBL132,>LBL132
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.byte <JUMP06,>JUMP06
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.byte <JUMP07,>JUMP07
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.byte <LBL035,>LBL035
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.byte <LBL097,>LBL097
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.byte <LBL067,>LBL067
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.byte <LBL067,>LBL067
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;.byte $BD,$1A, $C1,$1A, $8A,$1A, $9B,$1A, $E9,$1A, $61,$17, $51,$17, $41,$1A
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.byte <JUMP08,>JUMP08
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.byte <JUMP09,>JUMP09
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.byte <JUMP10,>JUMP10
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.byte <JUMP11,>JUMP11
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.byte <JUMP12,>JUMP12
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.byte <JUMP13,>JUMP13
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.byte <JUMP14,>JUMP14
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.byte <LBL071,>LBL071
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;.byte $52,$1A, $4F,$1A, $62,$1A, $E7,$19, $CD,$16, $06,$17, $9F,$17, $15,$18
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.byte <JUMP15,>JUMP15
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.byte <JUMP16,>JUMP16
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.byte <JUMP17,>JUMP17
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.byte <JUMP18,>JUMP18
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.byte <JUMP19,>JUMP19
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.byte <JUMP20,>JUMP20
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.byte <LBL067,>LBL067
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.byte <JUMP21,>JUMP21
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;.byte $A7,$17, $B7,$16, $BF,$16, $83,$18, $A1,$16, $9F,$17, $9F,$17, $A8,$18
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.byte <JUMP22,>JUMP22
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.byte <JUMP23,>JUMP23
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.byte <LBL047,>LBL047
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.byte <LBL081,>LBL081
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.byte <LBL013,>LBL013
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.byte <LBL067,>LBL067
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.byte <LBL067,>LBL067
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.byte <JUMP24,>JUMP24
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;.byte $4F,$1B, $4D,$1B, $07,$19, $AA,$14, $37,$17, $BD,$14, $1B,$1B, $B1,$1A
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.byte <JUMP25,>JUMP25
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.byte <JUMP26,>JUMP26
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.byte <JUMP27,>JUMP27
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.byte <MEM_T2,>MEM_T2
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.byte <JUMP28,>JUMP28
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.byte <WARM_S,>WARM_S
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.byte <JUMP29,>JUMP29
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.byte <JUMP30,>JUMP30
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.byte $20,$41, $54,$20 ; No idea ????
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.byte $80 ; No idea
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LBL002: .byte <ILTBL ;$70 ; $70 - lo byte of IL address
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LBL003: .byte >ILTBL ;$1B ; $1B - hi byte of IL address
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;
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;Begin Cold Start
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;
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;
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;
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; Load start of free ram ($1C00) into locations $0020 and $0022
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; The memory between $1000 and $1Bff (3 kB) is free for assembler programs
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; that can be loaded and used simultaneously with TB.
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; $1C00 to the end of writable memory is the BASIC memory space.
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;
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COLD_S: lda #$00 ; Load accumulator with lo byte of lower and upper prg memory limits
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sta $20 ; Store in $20
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sta $22 ; Store in $22
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lda #$1C ; Load accumulator with hi byte of lower and upper prg memory limits
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sta $21 ; Store in $21
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sta $23 ; Store in $23
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; NOTE: $22,$23 vector will be updated by routine below to be the upper RAM limit for TB.
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;
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;
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; Begin test for free ram
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; As a result, memory locations $20,$21 will contain lo,hi byte order address of lower RAM boundary
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; and $22,$23 upper RAM boundary respectively.
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;
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ldy #$01 ; Load register Y with $01
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MEM_T: lda (C_22),Y ; Load accumulator With the contents of a byte of memory
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tax ; Save it to X
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eor #$FF ; Next 4 instuctions test to see if this memeory location
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sta (C_22),Y ; is ram by trying to write something new to it - new value
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cmp (C_22),Y ; gets created by XORing the old value with $FF - store the
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php ; result of the test on the stack to look at later
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txa ; Retrieve the old memory value
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sta (C_22),Y ; Put it back where it came from
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inc $22 ; Increment $22 (for next memory location)
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bne SKP_PI ; Goto $14A6 if we don't need to increment page
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inc $23 ; Increment $23 (for next memory page)
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SKP_PI: plp ; Now look at the result of the memory test
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beq MEM_T ; Go test the next mempry location if the last one was ram
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dey ; If last memory location did not test as ram, decrement Y (should be $00 now)
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MEM_T2: cld ; Make sure we're not in decimal mode
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lda $20 ; Load up the low-order by of the start of free ram
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adc SSS ; Add to the spare stack size
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sta $24 ; Store the result in $0024
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tya ; Retrieve Y
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adc $21 ; And add it to the high order byte of the start of free ram (this does not look right)
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sta $25 ; Store the result in $0025
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tya ; Retrieve Y again
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sta (C_20),Y ; Store A in the first byte of program memory
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iny ; Increment Y
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sta (C_20),Y ; Store A in the second byte of program memory
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;
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;Begin Warm Start;
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;
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WARM_S: lda $22
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sta $C6
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sta $26
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lda $23
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sta $C7
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sta $27
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jsr LBL001 ; Go print CR, LF and pad charachters
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LBL014: lda LBL002
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sta $2A
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lda LBL003
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sta $2B
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lda #$80
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sta $C1
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lda #$30
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sta $C0
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ldx #$00
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stx $BE
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stx $C2
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dex
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txs
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LBL006: cld
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jsr LBL004 ; Go read a byte from the TBIL table
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jsr LBL005
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jmp LBL006
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;
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;
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;
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.byte $83 ; No idea about this
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.byte $65 ; No idea about this
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;
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;
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; Routine to service the TBIL Instructions
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;
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LBL005: cmp #$30 ;
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bcs LBL011 ; If it's $30 or higher, it's a Branch or Jump - go handle it
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cmp #$08 ;
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bcc LBL007 ; If it's less than $08 it's a stack exchange - go handle it
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asl ; Multiply the OP code by 2
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tax ; Transfer it to X
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LBL022: lda SR_V_H,X ; Get the hi byte of the OP Code handling routine
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pha ; and save it on the stack
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lda SR_V_L,X ; Get the lo byte
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pha ; and save it on the stack
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php ; save the processor status too
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rti ; now go execute the OP Code handling routine
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;
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;
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; Routine to handle the stack exchange
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;
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LBL007: adc $C1
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tax
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lda (C_C1),Y
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pha
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lda $00,X
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sta (C_C1),Y
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pla
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sta $00,X
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rts
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;
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;
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;
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LBL015: jsr LBL001 ; Go print CR, LF and pad charachters
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lda #$21 ; Load an ASCII DC2
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jsr OUT_V ; Go print it
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lda $2A ; Load the current TBIL pointer (lo)
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sec ; Set the carry flag
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sbc LBL002 ; Subtract the TBIL table origin (lo)
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tax ; Move the difference to X
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lda $2B ; Load the current TBIL pointer (hi)
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sbc LBL003 ; Subtract the TBIL table origin (hi)
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jsr LBL010
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lda $BE
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beq LBL012
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lda #$7E
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sta $2A
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lda #$20
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sta $2B
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jsr LBL013
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ldx $28
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lda $29
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jsr LBL010
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LBL012: lda #$07 ; ASCII Bell
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jsr OUT_V ; Go ring Bell
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jsr LBL001 ; Go print CR, LF and pad charachters
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LBL060: lda $26
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sta $C6
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lda $27
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sta $C7
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jmp LBL014
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;
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;
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;
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LBL115: ldx #$7C
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LBL048: cpx $C1
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LBL019: bcc LBL015
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ldx $C1
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inc $C1
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inc $C1
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clc
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rts
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;
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;
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;
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JUMP01: dec $BD
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LBL027: lda $BD
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beq LBL015
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LBL017: lda $BC
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sta $2A
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lda $BD
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sta $2B
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rts
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;
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; Branch handling routine
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;
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LBL011: cmp #$40 ;
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bcs LBL016 ; If it's not a Jump, go to branch handler
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pha
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jsr LBL004 ; Go read a byte from the TBIL table
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adc LBL002
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sta $BC
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pla
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pha
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and #$07
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adc LBL003
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sta $BD
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pla
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and #$08
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bne LBL017
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lda $BC
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ldx $2A
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sta $2A
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stx $BC
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lda $BD
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ldx $2B
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sta $2B
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stx $BD
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LBL126: lda $C6
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sbc #$01
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sta $C6
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bcs LBL018
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dec $C7
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LBL018: cmp $24
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lda $C7
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sbc $25
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bcc LBL019
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lda $BC
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sta (C_C6),Y
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iny
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lda $BD
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sta (C_C6),Y
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rts
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;
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;Branch handler
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;
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LBL016: pha
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lsr
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lsr
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lsr
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lsr
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and #$0E
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tax
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pla
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cmp #$60
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and #$1F
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bcs LBL020
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ora #$E0
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LBL020: clc
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beq LBL021
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adc $2A
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sta $BC
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tya
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adc $2B
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LBL021: sta $BD
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JMP LBL022
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;
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;
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;
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JUMP02: lda $2C
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sta $B8
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lda $2D
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sta $B9
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LBL025: jsr LBL023
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jsr LBL024
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eor (C_2A),Y
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tax
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jsr LBL004 ; Go read a byte from the TBIL table
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txa
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beq LBL025
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asl
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beq LBL026
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lda $B8
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sta $2C
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|
lda $B9
|
|
sta $2D
|
|
LBL028: jmp LBL027
|
|
JUMP05: jsr LBL023
|
|
cmp #$0D
|
|
bne LBL028
|
|
LBL026: rts
|
|
;
|
|
;
|
|
;
|
|
JUMP03: jsr LBL023
|
|
cmp #$5B
|
|
bcs LBL028
|
|
cmp #$41
|
|
bcc LBL028
|
|
asl
|
|
jsr LBL029
|
|
LBL024: ldy #$00
|
|
lda (C_2C),Y
|
|
inc $2C
|
|
bne LBL030
|
|
inc $2D
|
|
LBL030: cmp #$0D
|
|
clc
|
|
rts
|
|
;
|
|
;
|
|
|
|
LBL031: jsr LBL024
|
|
LBL023: lda (C_2C),Y
|
|
cmp #$20
|
|
beq LBL031
|
|
cmp #$3A
|
|
clc
|
|
bpl LBL032
|
|
cmp #$30
|
|
LBL032: rts
|
|
;
|
|
;
|
|
;
|
|
JUMP04: jsr LBL023
|
|
bcc LBL028
|
|
sty $BC
|
|
sty $BD
|
|
LBL033: lda $BC
|
|
ldx $BD
|
|
asl $BC
|
|
rol $BD
|
|
asl $BC
|
|
rol $BD
|
|
clc
|
|
adc $BC
|
|
sta $BC
|
|
txa
|
|
adc $BD
|
|
asl $BC
|
|
rol
|
|
sta $BD
|
|
jsr LBL024
|
|
and #$0F
|
|
adc $BC
|
|
sta $BC
|
|
tya
|
|
adc $BD
|
|
sta $BD
|
|
jsr LBL023
|
|
bcs LBL033
|
|
jmp LBL034
|
|
LBL061: jsr LBL035
|
|
lda $BC
|
|
ora $BD
|
|
beq LBL036
|
|
LBL065: lda $20
|
|
sta $2C
|
|
lda $21
|
|
sta $2D
|
|
LBL040: jsr LBL037
|
|
beq LBL038
|
|
lda $28
|
|
cmp $BC
|
|
lda $29
|
|
sbc $BD
|
|
bcs LBL038
|
|
LBL039: jsr LBL024
|
|
bne LBL039
|
|
jmp LBL040
|
|
LBL038: lda $28
|
|
eor $BC
|
|
bne LBL041
|
|
lda $29
|
|
eor $BD
|
|
LBL041: rts
|
|
;
|
|
;
|
|
;
|
|
LBL043: jsr LBL042
|
|
LBL013: jsr LBL004 ; Entry point for TBIL PC (print literal) - Go read a byte from the TBIL table
|
|
bpl LBL043 ;
|
|
LBL042: inc $BF
|
|
bmi LBL044
|
|
jmp OUT_V ; Go print it
|
|
LBL044: dec $BF
|
|
LBL045: rts
|
|
;
|
|
;
|
|
;
|
|
LBL046: cmp #$22
|
|
beq LBL045
|
|
jsr LBL042
|
|
JUMP23: jsr LBL024
|
|
bne LBL046
|
|
LBL036: jmp LBL015
|
|
LBL047: lda #$20
|
|
jsr LBL042
|
|
lda $BF
|
|
and #$87
|
|
bmi LBL045
|
|
bne LBL047
|
|
rts
|
|
;
|
|
;
|
|
;
|
|
JUMP19: ldx #$7B
|
|
jsr LBL048
|
|
inc $C1
|
|
inc $C1
|
|
inc $C1
|
|
sec
|
|
lda $03,X
|
|
sbc $00,X
|
|
sta $00,X
|
|
lda $04,X
|
|
sbc $01,X
|
|
bvc LBL052
|
|
eor #$80
|
|
ora #$01
|
|
LBL052: bmi LBL053
|
|
bne LBL054
|
|
ora $00,X
|
|
beq LBL049
|
|
LBL054: lsr $02,X
|
|
LBL049: lsr $02,X
|
|
LBL053: lsr $02,X
|
|
bcc LBL050
|
|
LBL004: ldy #$00 ; Read a byte from the TBIL Table
|
|
lda (C_2A),Y ;
|
|
inc $2A ; Increment TBIL Table pointer as required
|
|
bne LBL051 ;
|
|
inc $2B ;
|
|
LBL051: ora #$00 ; Check for $00 and set the 'Z' flag acordingly
|
|
LBL050: rts ; Return
|
|
;
|
|
;
|
|
;
|
|
JUMP20: lda $BE
|
|
beq LBL055
|
|
LBL056: jsr LBL024
|
|
bne LBL056
|
|
jsr LBL037
|
|
beq LBL057
|
|
LBL062: jsr LBL058
|
|
jsr BREAK
|
|
bcs LBL059
|
|
lda $C4
|
|
sta $2A
|
|
lda $C5
|
|
sta $2B
|
|
rts
|
|
;
|
|
;
|
|
;
|
|
LBL059: lda LBL002
|
|
sta $2A
|
|
lda LBL003
|
|
sta $2B
|
|
LBL057: jmp LBL015
|
|
LBL055: sta $BF
|
|
jmp LBL060
|
|
JUMP28: lda $20
|
|
sta $2C
|
|
lda $21
|
|
sta $2D
|
|
jsr LBL037
|
|
beq LBL057
|
|
lda $2A
|
|
sta $C4
|
|
lda $2B
|
|
sta $C5
|
|
LBL058: lda #$01
|
|
sta $BE
|
|
rts
|
|
;
|
|
;
|
|
;
|
|
JUMP14: jsr LBL061
|
|
beq LBL062
|
|
LBL066: lda $BC
|
|
sta $28
|
|
lda $BD
|
|
sta $29
|
|
jmp LBL015
|
|
JUMP13: jsr LBL063
|
|
jsr LBL064
|
|
jsr LBL065
|
|
bne LBL066
|
|
rts
|
|
;
|
|
;
|
|
;
|
|
LBL037: jsr LBL024
|
|
sta $28
|
|
jsr LBL024
|
|
sta $29
|
|
ora $28
|
|
rts
|
|
;
|
|
;
|
|
;
|
|
JUMP07: jsr LBL035
|
|
jsr LBL034
|
|
LBL034: lda $BD
|
|
LBL131: jsr LBL029
|
|
lda $BC
|
|
LBL029: ldx $C1
|
|
dex
|
|
sta $00,X
|
|
stx $C1
|
|
cpx $C0
|
|
bne LBL067
|
|
LBL068: jmp LBL015
|
|
LBL097: ldx $C1
|
|
cpx #$80
|
|
bpl LBL068
|
|
lda $00,X
|
|
inc $C1
|
|
LBL067: rts
|
|
;
|
|
;
|
|
;
|
|
LBL010: sta $BD
|
|
stx $BC
|
|
jmp LBL069
|
|
JUMP22: ldx $C1 ; entry point to TBIL PN (print number)
|
|
lda $01,X
|
|
bpl LBL070
|
|
jsr LBL071
|
|
lda #$2D
|
|
jsr LBL042
|
|
LBL070: jsr LBL035
|
|
LBL069: lda #$1F
|
|
sta $B8
|
|
sta $BA
|
|
lda #$2A
|
|
sta $B9
|
|
sta $BB
|
|
ldx $BC
|
|
ldy $BD
|
|
sec
|
|
LBL072: inc $B8
|
|
txa
|
|
sbc #$10
|
|
tax
|
|
tya
|
|
sbc #$27
|
|
tay
|
|
bcs LBL072
|
|
LBL073: dec $B9
|
|
txa
|
|
adc #$E8
|
|
tax
|
|
tya
|
|
adc #$03
|
|
tay
|
|
bcc LBL073
|
|
txa
|
|
LBL074: sec
|
|
inc $BA
|
|
sbc #$64
|
|
bcs LBL074
|
|
dey
|
|
bpl LBL074
|
|
LBL075: dec $BB
|
|
adc #$0A
|
|
bcc LBL075
|
|
ora #$30
|
|
sta $BC
|
|
lda #$20
|
|
sta $BD
|
|
ldx #$FB
|
|
LBL199: stx $C3
|
|
lda $BD,X
|
|
ora $BD
|
|
cmp #$20
|
|
beq LBL076
|
|
ldy #$30
|
|
sty $BD
|
|
ora $BD
|
|
jsr LBL042
|
|
LBL076: ldx $C3
|
|
inx
|
|
bne LBL199
|
|
rts
|
|
;
|
|
;
|
|
;
|
|
JUMP21: lda $2D
|
|
pha
|
|
lda $2C
|
|
pha
|
|
lda $20
|
|
sta $2C
|
|
lda $21
|
|
sta $2D
|
|
lda $24
|
|
ldx $25
|
|
jsr LBL077
|
|
beq LBL078
|
|
jsr LBL077
|
|
LBL078: lda $2C
|
|
sec
|
|
sbc $B6
|
|
lda $2D
|
|
sbc $B7
|
|
bcs LBL079
|
|
jsr LBL037
|
|
beq LBL079
|
|
ldx $28
|
|
lda $29
|
|
jsr LBL010
|
|
lda #$20
|
|
LBL080: jsr LBL042
|
|
jsr BREAK
|
|
bcs LBL079
|
|
jsr LBL024
|
|
bne LBL080
|
|
jsr LBL081
|
|
jmp LBL078
|
|
LBL077: sta $B6
|
|
inc $B6
|
|
bne LBL082
|
|
inx
|
|
LBL082: stx $B7
|
|
ldy $C1
|
|
cpy #$80
|
|
beq LBL083
|
|
jsr LBL061
|
|
LBL099: lda $2C
|
|
ldx $2D
|
|
sec
|
|
sbc #$02
|
|
bcs LBL084
|
|
dex
|
|
LBL084: sta $2C
|
|
jmp LBL085
|
|
LBL079: pla
|
|
sta $2C
|
|
pla
|
|
sta $2D
|
|
LBL083: rts
|
|
LBL081: lda $BF
|
|
bmi LBL083
|
|
;
|
|
;
|
|
; Routine to handle CR, LF and pad characters in the ouput
|
|
;
|
|
LBL001: lda #$0D ; Load up a CR
|
|
jsr OUT_V ; Go print it
|
|
lda PCC ; Load the pad character code
|
|
and #$7F ; Test to see -
|
|
sta $BF ; how many pad charachters to print
|
|
beq LBL086 ; Skip if 0
|
|
LBL088: jsr LBL087 ; Go print pad charcter
|
|
dec $BF ; One less
|
|
bne LBL088 ; Loop until 0
|
|
LBL086: lda #$0A ; Load up a LF
|
|
jmp LBL089 ; Go print it
|
|
;
|
|
;
|
|
;
|
|
LBL092: ldy TMC
|
|
LBL091: sty $BF
|
|
bcs LBL090
|
|
JUMP24: lda #$30 ; Entry pont for TBIL GL (get input line)
|
|
sta $2C
|
|
sta $C0
|
|
sty $2D
|
|
jsr LBL034
|
|
LBL090: eor $80
|
|
sta $80
|
|
jsr IN_V
|
|
ldy #$00
|
|
ldx $C0
|
|
and #$7F
|
|
beq LBL090
|
|
cmp #$7F
|
|
beq LBL090
|
|
cmp #$13
|
|
beq LBL091
|
|
cmp #$0A
|
|
beq LBL092
|
|
cmp LSC
|
|
beq LBL093
|
|
cmp BSC
|
|
bne LBL094
|
|
cpx #$30
|
|
bne LBL095
|
|
LBL093: ldx $2C
|
|
sty $BF
|
|
lda #$0D
|
|
LBL094: cpx $C1
|
|
bmi LBL096
|
|
lda #$07
|
|
jsr LBL042
|
|
jmp LBL090
|
|
LBL096: sta $00,X
|
|
inx
|
|
inx
|
|
LBL095: dex
|
|
stx $C0
|
|
cmp #$0D
|
|
bne LBL090
|
|
jsr LBL081
|
|
LBL035: jsr LBL097
|
|
sta $BC
|
|
jsr LBL097
|
|
sta $BD
|
|
rts
|
|
;
|
|
;
|
|
;
|
|
JUMP27: jsr LBL098
|
|
jsr LBL061
|
|
php
|
|
jsr LBL099
|
|
sta $B8
|
|
stx $B9
|
|
lda $BC
|
|
sta $B6
|
|
lda $BD
|
|
sta $B7
|
|
ldx #$00
|
|
plp
|
|
bne LBL100
|
|
jsr LBL037
|
|
dex
|
|
dex
|
|
LBL101: dex
|
|
jsr LBL024
|
|
bne LBL101
|
|
LBL100: sty $28
|
|
sty $29
|
|
jsr LBL098
|
|
lda #$0D
|
|
cmp (C_2C),Y
|
|
beq LBL102
|
|
inx
|
|
inx
|
|
inx
|
|
LBL103: inx
|
|
iny
|
|
cmp (C_2C),Y
|
|
bne LBL103
|
|
lda $B6
|
|
sta $28
|
|
lda $B7
|
|
sta $29
|
|
LBL102: lda $B8
|
|
sta $BC
|
|
lda $B9
|
|
sta $BD
|
|
clc
|
|
ldy #$00
|
|
txa
|
|
beq LBL104
|
|
bpl LBL105
|
|
adc $2E
|
|
sta $B8
|
|
lda $2F
|
|
sbc #$00
|
|
sta $B9
|
|
LBL109: lda (C_2E),Y
|
|
sta (C_B8),Y
|
|
ldx $2E
|
|
cpx $24
|
|
bne LBL106
|
|
lda $2F
|
|
cmp $25
|
|
beq LBL107
|
|
LBL106: inx
|
|
stx $2E
|
|
bne LBL108
|
|
inc $2F
|
|
LBL108: inc $B8
|
|
bne LBL109
|
|
inc $B9
|
|
bne LBL109
|
|
LBL105: adc $24
|
|
sta $B8
|
|
sta $2E
|
|
tya
|
|
adc $25
|
|
sta $B9
|
|
sta $2F
|
|
lda $2E
|
|
sbc $C6
|
|
lda $2F
|
|
sbc $C7
|
|
bcc LBL110
|
|
dec $2A
|
|
jmp LBL015
|
|
LBL110: lda (C_24),Y
|
|
sta (C_2E),Y
|
|
ldx $24
|
|
bne LBL111
|
|
dec $25
|
|
LBL111: dec $24
|
|
ldx $2E
|
|
bne LBL112
|
|
dec $2F
|
|
LBL112: dex
|
|
stx $2E
|
|
cpx $BC
|
|
bne LBL110
|
|
ldx $2F
|
|
cpx $BD
|
|
bne LBL110
|
|
LBL107: lda $B8
|
|
sta $24
|
|
lda $B9
|
|
sta $25
|
|
LBL104: lda $28
|
|
ora $29
|
|
beq LBL113
|
|
lda $28
|
|
sta (C_BC),Y
|
|
iny
|
|
lda $29
|
|
sta (C_BC),Y
|
|
LBL114: iny
|
|
sty $B6
|
|
jsr LBL024
|
|
php
|
|
ldy $B6
|
|
sta (C_BC),Y
|
|
plp
|
|
bne LBL114
|
|
LBL113: jmp LBL014
|
|
JUMP18: jsr LBL115
|
|
lda $03,X
|
|
and #$80
|
|
beq LBL116
|
|
lda #$FF
|
|
LBL116: sta $BC
|
|
sta $BD
|
|
pha
|
|
adc $02,X
|
|
sta $02,X
|
|
pla
|
|
pha
|
|
adc $03,X
|
|
sta $03,X
|
|
pla
|
|
eor $01,X
|
|
sta $BB
|
|
bpl LBL117
|
|
jsr LBL118
|
|
LBL117: ldy #$11
|
|
lda $00,X
|
|
ora $01,X
|
|
bne LBL119
|
|
jmp LBL015
|
|
LBL119: sec
|
|
lda $BC
|
|
sbc $00,X
|
|
pha
|
|
lda $BD
|
|
sbc $01,X
|
|
pha
|
|
eor $BD
|
|
bmi LBL120
|
|
pla
|
|
sta $BD
|
|
pla
|
|
sta $BC
|
|
sec
|
|
jmp LBL121
|
|
LBL120: pla
|
|
pla
|
|
clc
|
|
LBL121: rol $02,X
|
|
rol $03,X
|
|
rol $BC
|
|
rol $BD
|
|
dey
|
|
bne LBL119
|
|
lda $BB
|
|
bpl LBL122
|
|
LBL071: ldx $C1
|
|
LBL118: sec
|
|
tya
|
|
sbc $00,X
|
|
sta $00,X
|
|
tya
|
|
sbc $01,X
|
|
sta $01,X
|
|
LBL122: rts
|
|
;
|
|
;
|
|
;
|
|
JUMP16: jsr LBL071
|
|
JUMP15: jsr LBL115
|
|
lda $00,X
|
|
adc $02,X
|
|
sta $02,X
|
|
lda $01,X
|
|
adc $03,X
|
|
sta $03,X
|
|
rts
|
|
;
|
|
;
|
|
;
|
|
JUMP17: jsr LBL115
|
|
ldy #$10
|
|
lda $02,X
|
|
sta $BC
|
|
lda $03,X
|
|
sta $BD
|
|
LBL124: asl $02,X
|
|
rol $03,X
|
|
rol $BC
|
|
rol $BD
|
|
bcc LBL123
|
|
clc
|
|
lda $02,X
|
|
adc $00,X
|
|
sta $02,X
|
|
lda $03,X
|
|
adc $01,X
|
|
sta $03,X
|
|
LBL123: dey
|
|
bne LBL124
|
|
rts
|
|
;
|
|
;
|
|
;
|
|
JUMP10: jsr LBL097
|
|
tax
|
|
lda $00,X
|
|
ldy $01,X
|
|
dec $C1
|
|
ldx $C1
|
|
sty $00,X
|
|
jmp LBL029
|
|
JUMP11: ldx #$7D
|
|
jsr LBL048
|
|
lda $01,X
|
|
pha
|
|
lda $00,X
|
|
pha
|
|
jsr LBL097
|
|
tax
|
|
pla
|
|
sta $00,X
|
|
pla
|
|
sta $01,X
|
|
rts
|
|
JUMP30: jsr LBL063
|
|
lda $BC
|
|
sta $2A
|
|
lda $BD
|
|
sta $2B
|
|
rts
|
|
;
|
|
;
|
|
;
|
|
JUMP08: ldx #$2C ; Entry point to Save Basic Pointer SB
|
|
bne LBL125
|
|
JUMP09: ldx #$2E
|
|
LBL125: lda $00,X
|
|
cmp #$80
|
|
bcs LBL098
|
|
lda $01,X
|
|
bne LBL098
|
|
lda $2C
|
|
sta $2E
|
|
lda $2D
|
|
sta $2F
|
|
rts
|
|
;
|
|
;
|
|
;
|
|
LBL098: lda $2C
|
|
ldy $2E
|
|
sty $2C
|
|
sta $2E
|
|
lda $2D
|
|
ldy $2F
|
|
sty $2D
|
|
sta $2F
|
|
ldy #$00
|
|
rts
|
|
;
|
|
;
|
|
;
|
|
JUMP12: lda $28
|
|
sta $BC
|
|
lda $29
|
|
sta $BD
|
|
jsr LBL126
|
|
lda $C6
|
|
sta $26
|
|
lda $C7
|
|
LBL064: sta $27
|
|
LBL129: rts
|
|
;
|
|
;
|
|
;
|
|
LBL063: lda (C_C6),Y
|
|
sta $BC
|
|
jsr LBL127
|
|
lda (C_C6),Y
|
|
sta $BD
|
|
LBL127: inc $C6
|
|
bne LBL128
|
|
inc $C7
|
|
LBL128: lda $22
|
|
cmp $C6
|
|
lda $23
|
|
sbc $C7
|
|
bcs LBL129
|
|
jmp LBL015
|
|
JUMP29: jsr LBL130
|
|
sta $BC
|
|
tya
|
|
jmp LBL131
|
|
LBL130: jsr LBL035
|
|
lda $BC
|
|
sta $B6
|
|
jsr LBL035
|
|
lda $BD
|
|
sta $B7
|
|
ldy $BC
|
|
jsr LBL035
|
|
ldx $B7
|
|
lda $B6
|
|
clc
|
|
jmp (C_00BC)
|
|
JUMP06: jsr LBL132
|
|
LBL132: jsr LBL004 ; Go read a byte from the TBIL Table
|
|
jmp LBL029
|
|
LBL085: stx $2D
|
|
cpx #$00
|
|
rts
|
|
;
|
|
;
|
|
;
|
|
JUMP26: ldy #$02
|
|
JUMP25: sty $BC
|
|
ldy #$29
|
|
sty $BD
|
|
ldy #$00
|
|
lda (C_BC),Y
|
|
cmp #$08
|
|
bne LBL133
|
|
jmp LBL117
|
|
LBL133: rts
|
|
;
|
|
;
|
|
; Subroutine to decide which pad character to print
|
|
;
|
|
LBL089: jsr OUT_V ; Entry point with a charater to print first
|
|
LBL087: lda #$FF ; Normal entry point - Set pad to $FF
|
|
bit PCC ; Check if the pad flag is on
|
|
bmi LBL134 ; Skip it if not
|
|
lda #$00 ; set pad to $00
|
|
LBL134: jmp OUT_V ; Go print it
|
|
|
|
|
|
;
|
|
; TBIL Tables
|
|
;
|
|
ILTBL: .byte $24, $3A, $91, $27, $10, $E1, $59, $C5, $2A, $56, $10, $11, $2C, $8B, $4C
|
|
.byte $45, $D4, $A0, $80, $BD, $30, $BC, $E0, $13, $1D, $94, $47, $CF, $88, $54
|
|
.byte $CF, $30, $BC, $E0, $10, $11, $16, $80, $53, $55, $C2, $30, $BC, $E0, $14
|
|
.byte $16, $90, $50, $D2, $83, $49, $4E, $D4, $E5, $71, $88, $BB, $E1, $1D, $8F
|
|
.byte $A2, $21, $58, $6F, $83, $AC, $22, $55, $83, $BA, $24, $93, $E0, $23, $1D
|
|
.byte $30, $BC, $20, $48, $91, $49, $C6, $30, $BC, $31, $34, $30, $BC, $84, $54
|
|
.byte $48, $45, $CE, $1C, $1D, $38, $0D, $9A, $49, $4E, $50, $55, $D4, $A0, $10
|
|
.byte $E7, $24, $3F, $20, $91, $27, $E1, $59, $81, $AC, $30, $BC, $13, $11, $82
|
|
.byte $AC, $4D, $E0, $1D, $89, $52, $45, $54, $55, $52, $CE, $E0, $15, $1D, $85
|
|
.byte $45, $4E, $C4, $E0, $2D, $98, $4C, $49, $53, $D4, $EC, $24, $00, $00, $00
|
|
.byte $00, $0A, $80, $1F, $24, $93, $23, $1D, $30, $BC, $E1, $50, $80, $AC, $59
|
|
.byte $85, $52, $55, $CE, $38, $0A, $86, $43, $4C, $45, $41, $D2, $2B, $84, $52
|
|
.byte $45, $CD, $1D, $A0, $80, $BD, $38, $14, $85, $AD, $30, $D3, $17, $64, $81
|
|
.byte $AB, $30, $D3, $85, $AB, $30, $D3, $18, $5A, $85, $AD, $30, $D3, $19, $54
|
|
.byte $2F, $30, $E2, $85, $AA, $30, $E2, $1A, $5A, $85, $AF, $30, $E2, $1B, $54
|
|
.byte $2F, $98, $52, $4E, $C4, $0A, $80, $80, $12, $0A, $09, $29, $1A, $0A, $1A
|
|
.byte $85, $18, $13, $09, $80, $12, $01, $0B, $31, $30, $61, $72, $0B, $04, $02
|
|
.byte $03, $05, $03, $1B, $1A, $19, $0B, $09, $06, $0A, $00, $00, $1C, $17, $2F
|
|
.byte $8F, $55, $53, $D2, $80, $A8, $30, $BC, $31, $2A, $31, $2A, $80, $A9, $2E
|
|
.byte $2F, $A2, $12, $2F, $C1, $2F, $80, $A8, $30, $BC, $80, $A9, $2F, $83, $AC
|
|
.byte $38, $BC, $0B, $2F, $80, $A8, $52, $2F, $84, $BD, $09, $02, $2F, $8E, $BC
|
|
.byte $84, $BD, $09, $93, $2F, $84, $BE, $09, $05, $2F, $09, $91, $2F, $80, $BE
|
|
.byte $84, $BD, $09, $06, $2F, $84, $BC, $09, $95, $2F, $09, $04, $2F, $00, $00
|
|
.byte $00
|
|
;
|
|
; End of Tiny Basic
|
|
|
|
|
|
;.segment "MAIN"
|
|
|
|
.org $0CF0 ; Address of main program
|
|
|
|
; Code needs work below here, BIOS must be changed for MKHBC-8-R2
|
|
|
|
;FBLK:
|
|
;
|
|
; Set some symbols
|
|
;
|
|
;ACIARW = $1200 ; Base address of ACIA
|
|
;ACIAST = ACIARW+$01 ; ACIA status register
|
|
;ACIACM = ACIARW+$02 ; ACIA commnad register
|
|
;ACIACN = ACIARW+$03 ; ACIA control register
|
|
|
|
|
|
;
|
|
; Begin base system initialization
|
|
;
|
|
; jmp main ; no 6522 on MKHBC-8-R1
|
|
;--------------------
|
|
; sta ACIAST ; Do a soft reset on the ACIA
|
|
; lda #$0B ; Set it up for :
|
|
; sta ACIACM ; no echo, no parity, RTS low, No IRQ, DTR low
|
|
; lda #$1A ; and :
|
|
; sta ACIACN ; 2400, 8 bits, 1 stop bit, external Rx clock
|
|
;--------------------
|
|
|
|
main:
|
|
jsr CLRSC ; Go clear the screen
|
|
ldy #$00 ; Offset for welcome message and prompt
|
|
jsr SNDMSG ; Go print it
|
|
ST_LP: JSR RCCHR ; Go get a character from the console
|
|
cmp #$43 ; Check for 'C'
|
|
BNE IS_WRM ; If not branch to next check
|
|
jmp COLD_S ; Otherwise cold-start Tiny Basic
|
|
IS_WRM: cmp #$57 ; Check for 'W'
|
|
BNE PRMPT ; If not, branch to re-prompt them
|
|
jmp WARM_S ; Otherwise warm-start Tiny Basic
|
|
PRMPT: ldx #$2F ; Offset of prompt
|
|
jsr SNDMSG ; Go print the prompt
|
|
jmp ST_LP ; Go get the response
|
|
|
|
;.segment "MESG"
|
|
|
|
.org $0E00 ; Address of message area
|
|
MBLK:
|
|
|
|
;
|
|
; The message block begins at $1E00 and is at most 256 bytes long.
|
|
; Messages terminate with an FF.
|
|
;
|
|
.byte "MKHBC-8-R2 TINY BASIC 6502 PORT"
|
|
.byte $0D, $0A ;, $0A
|
|
.byte "Version: 1.0.3, 2/20/2016"
|
|
.byte $0D, $0A ;, $0A
|
|
.byte "(NOTE: Use UPPER CASE.)"
|
|
.byte $0D, $0A ;, $0A
|
|
.byte "Boot ([C]old/[W]arm)? "
|
|
.byte $07, $FF
|
|
|
|
;.segment "SUBR"
|
|
|
|
.org $0F00 ;address of subroutine area
|
|
|
|
SBLK:
|
|
;
|
|
; Begin BIOS subroutines
|
|
;
|
|
|
|
; M.O.S. API defines.
|
|
|
|
StrPtr = $E0
|
|
|
|
; Kernel jump table
|
|
|
|
GetCh = $FFED
|
|
PutCh = $FFF0
|
|
Gets = $FFF3
|
|
Puts = $FFF6
|
|
|
|
|
|
;SNDCHR = PutCh
|
|
;RCCHR = GetCh
|
|
|
|
|
|
;
|
|
; Clear the screen
|
|
;
|
|
ESC = $1b
|
|
|
|
; 2-BYTE PEEK USR FUNCTION
|
|
; For TINY BASIC IL ASSEMBLER VERSION 0
|
|
|
|
TwoBytePeek:
|
|
|
|
STX $C3 ;($C2=00)
|
|
LDA ($C2),Y ;GET MSB
|
|
PHA ;SAVE IT
|
|
INY
|
|
LDA ($C2),Y ;GET LSB
|
|
TAX
|
|
PLA
|
|
TAY ;Y=MSB
|
|
TXA
|
|
RTS
|
|
|
|
|
|
;ClrScrCode:
|
|
|
|
; .BYTE ESC,"[2J",0 ;clear screen sequence (ANSI).
|
|
|
|
;ClearScreen:
|
|
|
|
; lda #<ClrScrCode
|
|
; sta StrPtr
|
|
; lda #>ClrScrCode
|
|
; sta StrPtr+1
|
|
; jsr Puts
|
|
; rts
|
|
|
|
CLRSC: ldx #$19 ; Load X - we're going tp print 25 lines
|
|
lda #$0D ; CR
|
|
jsr SNDCHR ; Send a carriage retuen
|
|
lda #$0A ; LF
|
|
CSLP: jsr SNDCHR ; Send the line feed
|
|
dex ; One less to do
|
|
bne CSLP ; Go send another untill we're done
|
|
rts ; Return
|
|
|
|
;
|
|
; Print a message.
|
|
; This sub expects the messsage offset from MBLK in X.
|
|
;
|
|
SNDMSG: lda MBLK,y ; Get a character from teh message block
|
|
cmp #$FF ; Look for end of message marker
|
|
beq EXSM ; Finish up if it is
|
|
jsr SNDCHR ; Otherwise send the character
|
|
iny ; Increment the pointer
|
|
jmp SNDMSG ; Go get next character
|
|
EXSM: rts ; Return
|
|
|
|
;
|
|
; Get a character from the ACIA
|
|
; Runs into SNDCHR to provide echo
|
|
;
|
|
RCCHR: ;lda ACIAST ; Read the ACAI status to (for OMS-02)
|
|
;and #$08 ; Check if there is character in the receiver (for OMS-02)
|
|
;beq RCCHR ; Loop util we get one (for OMS-02)
|
|
;lda ACIARW ; Load it into the accumulator (for OMS-02)
|
|
LDA $E000 ; Check if a character typed (for emulator)
|
|
BEQ RCCHR ; Loop until we get one (for emulator)
|
|
|
|
;RCCHR: jsr GetCh
|
|
; jsr SNDCHR ; echo character to the console
|
|
; rts
|
|
|
|
;
|
|
;Send a character to the ACIA
|
|
;
|
|
SNDCHR: sta $FE ; Save the character to be printed
|
|
cmp #$FF ; Check for a bunch of characters
|
|
BEQ EXSC ; that we don't want to print to
|
|
cmp #$00 ; the terminal and discard them to
|
|
BEQ EXSC ; clean up the output
|
|
cmp #$91 ;
|
|
BEQ EXSC ;
|
|
cmp #$93 ;
|
|
BEQ EXSC ;
|
|
cmp #$80 ;
|
|
BEQ EXSC ;
|
|
jmp SCLP ; VM6502 emulator, comment for MKHBC-8-R2
|
|
jsr PutCh ; MKHBC-8-R2
|
|
lda $fe
|
|
rts
|
|
SCLP: ;lda ACIAST ; Check ACIA Status (don't need for emulator)
|
|
;and #$10 ; See if transmiter it busy (don't need for emulator)
|
|
;beq SCLP ; Wait for it (don't need for emulator)
|
|
lda $FE ; Restore the character
|
|
;sta ACIARW ; Transmit it (for OMS-02)
|
|
STA $E000 ; Transmit it (for emulator)
|
|
EXSC: rts ; Return
|
|
|
|
; .org $1FFC ; Address of reset vector (for 6507 not required for emulator)
|
|
;RSVEC
|
|
; .byte $F0, $1C ; Reset vector
|
|
|
|
; .org $3000 ; Address of last byte of EPROM
|
|
;EOROM:
|
|
|
|
;--------------------------- END ----------------------------------------------------------------------
|