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2652c81519
...
aa8df95f7d
@ -31,7 +31,7 @@ instrNames:
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.equ I_BRBS 16
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.equ I_BRBS 16
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.db "BRBS", 0
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.db "BRBS", 0
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.db "BRBC", 0
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.db "BRBC", 0
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; Rd(5) + Rr(5) (from here, instrTbl8)
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; Rd(5) + Rr(5) (from here, instrUpMasks1)
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.equ I_ADC 18
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.equ I_ADC 18
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.db "ADC", 0
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.db "ADC", 0
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.db "ADD", 0
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.db "ADD", 0
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@ -66,7 +66,7 @@ instrNames:
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.db "IN", 0
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.db "IN", 0
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.equ I_OUT 45
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.equ I_OUT 45
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.db "OUT", 0
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.db "OUT", 0
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; no arg (from here, instrTbl16)
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; no arg (from here, instrUpMasks2)
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.equ I_BREAK 46
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.equ I_BREAK 46
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.db "BREAK", 0
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.db "BREAK", 0
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.db "CLC", 0
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.db "CLC", 0
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@ -112,104 +112,90 @@ instrNames:
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.db "XCH", 0
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.db "XCH", 0
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.db 0xff
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.db 0xff
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; Instruction table
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;
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; A table row starts with the "argspecs+flags" byte, followed by two upcode
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; bytes.
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;
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; The argspecs+flags byte is separated in two nibbles: Low nibble is a 4bit
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; index (1-based, 0 means no arg) in the argSpecs table. High nibble is for
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; flags. Meaning:
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;
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; Bit 7: Arguments swapped. For example, if we have this bit set on the argspec
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; row 'A', 'R', then what will actually be read is 'R', 'A'. The
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; arguments destination will be, hum, de-swapped, that is, 'A' is going
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; in H and 'R' is going in L. This is used, for example, with IN and OUT.
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; IN has a Rd(5), A(6) signature. OUT could have the same signature, but
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; AVR's mnemonics has those args reversed for more consistency
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; (destination is always the first arg). The goal of this flag is to
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; allow this kind of syntactic sugar with minimal complexity.
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;
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; Bit 6: Second arg is a copy of the first
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; In the same order as in instrNames
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; 8-bit constant masks associated with each instruction. In the same order as
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instrTbl:
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; in instrNames
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instrUpMasks1:
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; Rd(5) + Rd(5): XXXXXXrd ddddrrrr
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; Rd(5) + Rd(5): XXXXXXrd ddddrrrr
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.db 0x02, 0b00011100, 0x00 ; ADC
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.db 0b00011100 ; ADC
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.db 0x02, 0b00001100, 0x00 ; ADD
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.db 0b00001100 ; ADD
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.db 0x02, 0b00100000, 0x00 ; AND
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.db 0b00100000 ; AND
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.db 0x41, 0b00100100, 0x00 ; CLR (Rr copies Rd)
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.db 0b00100100 ; CLR
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.db 0x02, 0b00010100, 0x00 ; CP
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.db 0b00010100 ; CP
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.db 0x02, 0b00000100, 0x00 ; CPC
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.db 0b00000100 ; CPC
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.db 0x02, 0b00010000, 0x00 ; CPSE
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.db 0b00010000 ; CPSE
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.db 0x02, 0b00100100, 0x00 ; EOR
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.db 0b00100100 ; EOR
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.db 0x02, 0b00101100, 0x00 ; MOV
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.db 0b00101100 ; MOV
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.db 0x02, 0b10011100, 0x00 ; MUL
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.db 0b10011100 ; MUL
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.db 0x02, 0b00101000, 0x00 ; OR
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.db 0b00101000 ; OR
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.db 0x02, 0b00001000, 0x00 ; SBC
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.db 0b00001000 ; SBC
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.db 0x02, 0b00011000, 0x00 ; SUB
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.db 0b00011000 ; SUB
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; Rd(4) + K(8): XXXXKKKK ddddKKKK
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; Rd(4) + K(8): XXXXKKKK ddddKKKK
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.db 0x04, 0b01110000, 0x00 ; ANDI
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.db 0b01110000 ; ANDI
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.db 0x04, 0b00110000, 0x00 ; CPI
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.db 0b00110000 ; CPI
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.db 0x04, 0b11100000, 0x00 ; LDI
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.db 0b11100000 ; LDI
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.db 0x04, 0b01100000, 0x00 ; ORI
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.db 0b01100000 ; ORI
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.db 0x04, 0b01000000, 0x00 ; SBCI
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.db 0b01000000 ; SBCI
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.db 0x04, 0b01100000, 0x00 ; SBR
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.db 0b01100000 ; SBR
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.db 0x04, 0b01010000, 0x00 ; SUBI
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.db 0b01010000 ; SUBI
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; Rd(5) + bit: XXXXXXXd ddddXbbb: lonely bit in LSB is 0 in all cases, so we
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; Rd(5) + bit: XXXXXXXd ddddXbbb: lonely bit in LSB is 0 in all cases, so we
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; ignore it.
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; ignore it.
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.db 0x05, 0b11111000, 0x00 ; BLD
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.db 0b11111000 ; BLD
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.db 0x05, 0b11111010, 0x00 ; BST
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.db 0b11111010 ; BST
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.db 0x05, 0b11111100, 0x00 ; SBRC
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.db 0b11111100 ; SBRC
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.db 0x05, 0b11111110, 0x00 ; SBRS
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.db 0b11111110 ; SBRS
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; k(12): XXXXkkkk kkkkkkkk
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; k(12): XXXXkkkk kkkkkkkk
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.db 0x00, 0b11010000, 0x00 ; RCALL
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.db 0b11010000 ; RCALL
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.db 0x00, 0b11000000, 0x00 ; RJMP
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.db 0b11000000 ; RJMP
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; IN and OUT
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; IN and OUT
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.db 0x07, 0b10110000, 0x00 ; IN
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.db 0b10110000 ; IN
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.db 0x87, 0b10111000, 0x00 ; OUT (args reversed)
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.db 0b10111000 ; OUT
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; 16-bit constant masks associated with each instruction. In the same order as
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; in instrNames
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instrUpMasks2:
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; no arg
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; no arg
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.db 0x00, 0b10010101, 0b10011000 ; BREAK
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.db 0b10010101, 0b10011000 ; BREAK
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.db 0x00, 0b10010100, 0b10001000 ; CLC
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.db 0b10010100, 0b10001000 ; CLC
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.db 0x00, 0b10010100, 0b11011000 ; CLH
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.db 0b10010100, 0b11011000 ; CLH
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.db 0x00, 0b10010100, 0b11111000 ; CLI
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.db 0b10010100, 0b11111000 ; CLI
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.db 0x00, 0b10010100, 0b10101000 ; CLN
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.db 0b10010100, 0b10101000 ; CLN
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.db 0x00, 0b10010100, 0b11001000 ; CLS
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.db 0b10010100, 0b11001000 ; CLS
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.db 0x00, 0b10010100, 0b11101000 ; CLT
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.db 0b10010100, 0b11101000 ; CLT
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.db 0x00, 0b10010100, 0b10111000 ; CLV
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.db 0b10010100, 0b10111000 ; CLV
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.db 0x00, 0b10010100, 0b10011000 ; CLZ
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.db 0b10010100, 0b10011000 ; CLZ
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.db 0x00, 0b10010101, 0b00011001 ; EICALL
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.db 0b10010101, 0b00011001 ; EICALL
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.db 0x00, 0b10010100, 0b00011001 ; EIJMP
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.db 0b10010100, 0b00011001 ; EIJMP
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.db 0x00, 0b10010101, 0b00001001 ; ICALL
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.db 0b10010101, 0b00001001 ; ICALL
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.db 0x00, 0b10010100, 0b00001001 ; IJMP
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.db 0b10010100, 0b00001001 ; IJMP
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.db 0x00, 0b00000000, 0b00000000 ; NOP
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.db 0b00000000, 0b00000000 ; NOP
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.db 0x00, 0b10010101, 0b00001000 ; RET
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.db 0b10010101, 0b00001000 ; RET
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.db 0x00, 0b10010101, 0b00011000 ; RETI
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.db 0b10010101, 0b00011000 ; RETI
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.db 0x00, 0b10010100, 0b00001000 ; SEC
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.db 0b10010100, 0b00001000 ; SEC
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.db 0x00, 0b10010100, 0b01011000 ; SEH
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.db 0b10010100, 0b01011000 ; SEH
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.db 0x00, 0b10010100, 0b01111000 ; SEI
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.db 0b10010100, 0b01111000 ; SEI
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.db 0x00, 0b10010100, 0b00101000 ; SEN
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.db 0b10010100, 0b00101000 ; SEN
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.db 0x00, 0b10010100, 0b01001000 ; SES
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.db 0b10010100, 0b01001000 ; SES
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.db 0x00, 0b10010100, 0b01101000 ; SET
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.db 0b10010100, 0b01101000 ; SET
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.db 0x00, 0b10010100, 0b00111000 ; SEV
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.db 0b10010100, 0b00111000 ; SEV
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.db 0x00, 0b10010100, 0b00011000 ; SEZ
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.db 0b10010100, 0b00011000 ; SEZ
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.db 0x00, 0b10010101, 0b10001000 ; SLEEP
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.db 0b10010101, 0b10001000 ; SLEEP
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.db 0x00, 0b10010101, 0b10101000 ; WDR
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.db 0b10010101, 0b10101000 ; WDR
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; Rd(5): XXXXXXXd ddddXXXX
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; Rd(5): XXXXXXXd ddddXXXX
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.db 0x01, 0b10010100, 0b00000101 ; ASR
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.db 0b10010100, 0b00000101 ; ASR
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.db 0x01, 0b10010100, 0b00000000 ; COM
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.db 0b10010100, 0b00000000 ; COM
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.db 0x01, 0b10010100, 0b00001010 ; DEC
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.db 0b10010100, 0b00001010 ; DEC
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.db 0x01, 0b10010100, 0b00000011 ; INC
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.db 0b10010100, 0b00000011 ; INC
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.db 0x01, 0b10010010, 0b00000110 ; LAC
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.db 0b10010010, 0b00000110 ; LAC
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.db 0x01, 0b10010010, 0b00000101 ; LAS
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.db 0b10010010, 0b00000101 ; LAS
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.db 0x01, 0b10010010, 0b00000111 ; LAT
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.db 0b10010010, 0b00000111 ; LAT
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.db 0x01, 0b10010100, 0b00000110 ; LSR
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.db 0b10010100, 0b00000110 ; LSR
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.db 0x01, 0b10010100, 0b00000001 ; NEG
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.db 0b10010100, 0b00000001 ; NEG
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.db 0x01, 0b10010000, 0b00001111 ; POP
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.db 0b10010000, 0b00001111 ; POP
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.db 0x01, 0b10010010, 0b00001111 ; PUSH
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.db 0b10010010, 0b00001111 ; PUSH
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.db 0x01, 0b10010100, 0b00000111 ; ROR
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.db 0b10010100, 0b00000111 ; ROR
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.db 0x01, 0b10010100, 0b00000010 ; SWAP
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.db 0b10010100, 0b00000010 ; SWAP
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.db 0x01, 0b10010010, 0b00000100 ; XCH
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.db 0b10010010, 0b00000100 ; XCH
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; Same signature as getInstID in instr.asm
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; Same signature as getInstID in instr.asm
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; Reads string in (HL) and returns the corresponding ID (I_*) in A. Sets Z if
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; Reads string in (HL) and returns the corresponding ID (I_*) in A. Sets Z if
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@ -247,55 +233,13 @@ getInstID:
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; resulting opcode(s) in I/O.
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; resulting opcode(s) in I/O.
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; Sets Z on success. On error, A contains an error code (ERR_*)
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; Sets Z on success. On error, A contains an error code (ERR_*)
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parseInstruction:
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parseInstruction:
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; *** Step 1: initialization
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; BC, during .spit, is ORred to the spitted opcode.
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; Except setting up our registers, we also check if our index < I_ADC.
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; If we are, we skip regular processing for the .BR processing, which
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; is a bit special.
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; During this processing, BC is used as the "upcode WIP" register. It's
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; there that we send our partial values until they're ready to spit to
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; I/O.
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ld bc, 0
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ld bc, 0
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ld e, a ; Let's keep that instrID somewhere safe
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; Save Instr ID in D, which is less volatile than A. In almost all
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; First, let's fetch our table row
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; cases, we fetch the opcode constant at the end of the processing.
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ld d, a
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cp I_ADC
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cp I_ADC
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jp c, .BR ; BR is special, no table row
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jp c, .BR
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; *** Step 2: parse arguments
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sub I_ADC ; Adjust index for table
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; Our row is at instrTbl + (A * 3)
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ld hl, instrTbl
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call addHL
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sla a ; A * 2
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call addHL ; (HL) is our row
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ld a, (hl)
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push hl \ pop ix ; IX is now our tblrow
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ld hl, 0
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or a
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jr z, .noarg
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and 0xf ; lower nibble
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dec a ; argspec index is 1-based
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ld hl, argSpecs
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sla a ; A * 2
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call addHL ; (HL) is argspec row
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ld d, (hl)
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inc hl
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ld a, (hl)
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ld h, d
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ld l, a ; H and L contain specs now
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bit 7, (ix)
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call nz, .swapHL ; Bit 7 set, swap H and L
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call _parseArgs
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ret nz
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.noarg:
|
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; *** Step 3: place arguments in binary upcode and spit.
|
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; (IX) is table row
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; Parse arg values now in H and L
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; InstrID is E
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bit 7, (ix)
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call nz, .swapHL ; Bit 7 set, swap H and L again!
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bit 6, (ix)
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call nz, .cpHintoL ; Bit 6 set, copy H into L
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ld a, e ; InstrID
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cp I_ANDI
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cp I_ANDI
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jr c, .spitRd5Rr5
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jr c, .spitRd5Rr5
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cp I_BLD
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cp I_BLD
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@ -304,15 +248,25 @@ parseInstruction:
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jr c, .spitRdBit
|
jr c, .spitRdBit
|
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cp I_IN
|
cp I_IN
|
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jr c, .spitK12
|
jr c, .spitK12
|
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cp I_BREAK
|
jp z, .spitIN
|
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jp c, .spitINOUT
|
cp I_OUT
|
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|
jp z, .spitOUT
|
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cp I_ASR
|
cp I_ASR
|
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jp c, .spit ; no arg
|
jr c, .spitNoArg
|
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; spitRd5
|
; spitRd5
|
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|
ld ix, argSpecs ; 'R', 0
|
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|
call _parseArgs
|
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ld a, h
|
ld a, h
|
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call .placeRd
|
call .placeRd
|
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|
; continue to .spitNoArg
|
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|
.spitNoArg:
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|
call .getUp2
|
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jp .spit
|
jp .spit
|
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|
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.spitRd5Rr5:
|
.spitRd5Rr5:
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|
ld ix, argSpecs+2 ; 'R', 'R'
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|
call _parseArgs
|
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|
ret nz
|
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ld a, h
|
ld a, h
|
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call .placeRd
|
call .placeRd
|
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ld a, l
|
ld a, l
|
||||||
@ -327,9 +281,14 @@ parseInstruction:
|
|||||||
rra \ rra \ rra
|
rra \ rra \ rra
|
||||||
or b
|
or b
|
||||||
ld b, a
|
ld b, a
|
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|
call .getUp1
|
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|
; now that's our MSB
|
||||||
jp .spitMSB
|
jp .spitMSB
|
||||||
|
|
||||||
.spitRdK8:
|
.spitRdK8:
|
||||||
|
ld ix, argSpecs+6 ; 'r', 8
|
||||||
|
call _parseArgs
|
||||||
|
ret nz
|
||||||
ld a, h ; Rd
|
ld a, h ; Rd
|
||||||
call .placeRd
|
call .placeRd
|
||||||
ld a, l ; K
|
ld a, l ; K
|
||||||
@ -343,19 +302,25 @@ parseInstruction:
|
|||||||
and 0xf0
|
and 0xf0
|
||||||
rra \ rra \ rra \ rra
|
rra \ rra \ rra \ rra
|
||||||
ld b, a
|
ld b, a
|
||||||
|
call .getUp1
|
||||||
jp .spitMSB
|
jp .spitMSB
|
||||||
|
|
||||||
.spitRdBit:
|
.spitRdBit:
|
||||||
|
ld ix, argSpecs+8 ; 'R', 'b'
|
||||||
|
call _parseArgs
|
||||||
|
ret nz
|
||||||
ld a, h
|
ld a, h
|
||||||
call .placeRd
|
call .placeRd
|
||||||
or l
|
or l
|
||||||
; LSB is in A and is ready to go
|
; LSB is in A and is ready to go
|
||||||
call ioPutB
|
call ioPutB
|
||||||
|
call .getUp1
|
||||||
jr .spitMSB
|
jr .spitMSB
|
||||||
|
|
||||||
.spitK12:
|
.spitK12:
|
||||||
; Let's deal with the upcode constant before we destroy IX below
|
; Let's deal with the upcode constant before we destroy DE below
|
||||||
ld b, (ix+1)
|
call .getUp1
|
||||||
|
ld b, (hl)
|
||||||
call readWord
|
call readWord
|
||||||
call parseExpr
|
call parseExpr
|
||||||
ret nz
|
ret nz
|
||||||
@ -382,6 +347,18 @@ parseInstruction:
|
|||||||
or b
|
or b
|
||||||
jp ioPutB
|
jp ioPutB
|
||||||
|
|
||||||
|
.spitOUT:
|
||||||
|
ld ix, argSpecs+12 ; 'A', 'R'
|
||||||
|
call _parseArgs
|
||||||
|
ret nz
|
||||||
|
ld a, h
|
||||||
|
ld h, l
|
||||||
|
ld l, a
|
||||||
|
jr .spitINOUT
|
||||||
|
.spitIN:
|
||||||
|
ld ix, argSpecs+14 ; 'R', 'A'
|
||||||
|
call _parseArgs
|
||||||
|
ret nz
|
||||||
.spitINOUT:
|
.spitINOUT:
|
||||||
; Rd in H, A in L
|
; Rd in H, A in L
|
||||||
ld a, h
|
ld a, h
|
||||||
@ -397,14 +374,18 @@ parseInstruction:
|
|||||||
and 0b110
|
and 0b110
|
||||||
or b
|
or b
|
||||||
ld b, a
|
ld b, a
|
||||||
|
; MSB is almost ready
|
||||||
|
call .getUp1
|
||||||
jr .spitMSB
|
jr .spitMSB
|
||||||
.spit:
|
.spit:
|
||||||
; LSB is spit *before* MSB
|
; LSB is spit *before* MSB
|
||||||
ld a, (ix+2)
|
inc hl
|
||||||
|
ld a, (hl)
|
||||||
or c
|
or c
|
||||||
call ioPutB
|
call ioPutB
|
||||||
|
dec hl
|
||||||
.spitMSB:
|
.spitMSB:
|
||||||
ld a, (ix+1)
|
ld a, (hl)
|
||||||
or b
|
or b
|
||||||
call ioPutB
|
call ioPutB
|
||||||
xor a ; ensure Z, set success
|
xor a ; ensure Z, set success
|
||||||
@ -429,8 +410,7 @@ parseInstruction:
|
|||||||
.skip1:
|
.skip1:
|
||||||
and 0b111
|
and 0b111
|
||||||
ld c, a ; can't store in H now, (HL) is used
|
ld c, a ; can't store in H now, (HL) is used
|
||||||
ld h, 7
|
ld ix, argSpecs+4 ; 7, 0
|
||||||
ld l, 0
|
|
||||||
call _parseArgs
|
call _parseArgs
|
||||||
ret nz
|
ret nz
|
||||||
; ok, now we can
|
; ok, now we can
|
||||||
@ -456,8 +436,7 @@ parseInstruction:
|
|||||||
; upcode becomes 0b111101
|
; upcode becomes 0b111101
|
||||||
inc b
|
inc b
|
||||||
.rdBRBS:
|
.rdBRBS:
|
||||||
ld h, 'b'
|
ld ix, argSpecs+10 ; bit + k(7)
|
||||||
ld l, 7
|
|
||||||
call _parseArgs
|
call _parseArgs
|
||||||
ret nz
|
ret nz
|
||||||
; bit in H, k in L.
|
; bit in H, k in L.
|
||||||
@ -472,15 +451,20 @@ parseInstruction:
|
|||||||
ld c, a
|
ld c, a
|
||||||
ret
|
ret
|
||||||
|
|
||||||
.swapHL:
|
; Fetch a 8-bit upcode specified by instr index in D and set that upcode in HL
|
||||||
ld a, h
|
.getUp1:
|
||||||
ld h, l
|
ld a, d
|
||||||
ld l, a
|
sub I_ADC
|
||||||
ret
|
ld hl, instrUpMasks1
|
||||||
|
jp addHL
|
||||||
|
|
||||||
.cpHintoL:
|
; Fetch a 16-bit upcode specified by instr index in D and set that upcode in HL
|
||||||
ld l, h
|
.getUp2:
|
||||||
ret
|
ld a, d
|
||||||
|
sub I_BREAK
|
||||||
|
sla a ; A * 2
|
||||||
|
ld hl, instrUpMasks2
|
||||||
|
jp addHL
|
||||||
|
|
||||||
; Argspecs: two bytes describing the arguments that are accepted. Possible
|
; Argspecs: two bytes describing the arguments that are accepted. Possible
|
||||||
; values:
|
; values:
|
||||||
@ -505,11 +489,11 @@ argSpecs:
|
|||||||
.db 'r', 8 ; Rd(4) + K(8)
|
.db 'r', 8 ; Rd(4) + K(8)
|
||||||
.db 'R', 'b' ; Rd(5) + bit
|
.db 'R', 'b' ; Rd(5) + bit
|
||||||
.db 'b', 7 ; bit + k(7)
|
.db 'b', 7 ; bit + k(7)
|
||||||
|
.db 'A', 'R' ; A(6) + Rr(5)
|
||||||
.db 'R', 'A' ; Rd(5) + A(6)
|
.db 'R', 'A' ; Rd(5) + A(6)
|
||||||
|
|
||||||
; Parse arguments from I/O according to specs in HL
|
; Parse arguments in (HL) according to specs in IX
|
||||||
; H for first spec, L for second spec
|
; Puts the results in HL (which is not needed anymore after the parsing).
|
||||||
; Puts the results in HL
|
|
||||||
; First arg in H, second in L.
|
; First arg in H, second in L.
|
||||||
; This routine is not used in all cases, some ops don't fit this pattern well
|
; This routine is not used in all cases, some ops don't fit this pattern well
|
||||||
; and thus parse their args themselves.
|
; and thus parse their args themselves.
|
||||||
@ -518,21 +502,20 @@ _parseArgs:
|
|||||||
; For the duration of the routine, our final value will be in DE, and
|
; For the duration of the routine, our final value will be in DE, and
|
||||||
; then placed in HL at the end.
|
; then placed in HL at the end.
|
||||||
push de
|
push de
|
||||||
ex de, hl ; argspecs now in DE
|
|
||||||
call readWord
|
call readWord
|
||||||
jr nz, .end
|
jr nz, .end
|
||||||
ld a, d
|
ld a, (ix)
|
||||||
call .parse
|
call .parse
|
||||||
jr nz, .end
|
jr nz, .end
|
||||||
ld d, a
|
ld d, a
|
||||||
ld a, e
|
ld a, (ix+1)
|
||||||
or a
|
or a
|
||||||
jr z, .end ; no arg
|
jr z, .end ; no arg
|
||||||
call readComma
|
call readComma
|
||||||
jr nz, .end
|
jr nz, .end
|
||||||
call readWord
|
call readWord
|
||||||
jr nz, .end
|
jr nz, .end
|
||||||
ld a, e
|
ld a, (ix+1)
|
||||||
call .parse
|
call .parse
|
||||||
jr nz, .end
|
jr nz, .end
|
||||||
; we're done with (HL) now
|
; we're done with (HL) now
|
||||||
|
@ -25,7 +25,7 @@ main:
|
|||||||
ori r16, 0x05 ; CS00 + CS02 = 1024 prescaler
|
ori r16, 0x05 ; CS00 + CS02 = 1024 prescaler
|
||||||
out TCCR0B, r16
|
out TCCR0B, r16
|
||||||
|
|
||||||
clr r1
|
;clr r1
|
||||||
|
|
||||||
loop:
|
loop:
|
||||||
in r16, TIFR ; TIFR0
|
in r16, TIFR ; TIFR0
|
||||||
|
@ -1 +1 @@
|
|||||||
å
¿à¿·`¿$·ýÐüÏà¿”þ•
|
å
¿à¿·`¿·ýÐüÏà¿”þ•
|
Loading…
Reference in New Issue
Block a user