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avra: add LD/ST
This commit is contained in:
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51e500e8da
commit
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@ -31,8 +31,11 @@ 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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.equ I_LD 18
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.db "LD", 0
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.db "ST", 0
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; Rd(5) + Rr(5) (from here, instrTbl8)
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; Rd(5) + Rr(5) (from here, instrTbl8)
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.equ I_ADC 18
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.equ I_ADC 20
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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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.db "AND", 0
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.db "AND", 0
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@ -97,7 +100,7 @@ instrNames:
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.db "TST", 0
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.db "TST", 0
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.db "WDR", 0
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.db "WDR", 0
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.db "XCH", 0
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.db "XCH", 0
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.equ I_ANDI 82
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.equ I_ANDI 84
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.db "ANDI", 0
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.db "ANDI", 0
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.db "CBR", 0
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.db "CBR", 0
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.db "CPI", 0
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.db "CPI", 0
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@ -106,10 +109,10 @@ instrNames:
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.db "SBCI", 0
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.db "SBCI", 0
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.db "SBR", 0
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.db "SBR", 0
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.db "SUBI", 0
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.db "SUBI", 0
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.equ I_RCALL 90
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.equ I_RCALL 92
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.db "RCALL", 0
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.db "RCALL", 0
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.db "RJMP", 0
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.db "RJMP", 0
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.equ I_CBI 92
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.equ I_CBI 94
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.db "CBI", 0
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.db "CBI", 0
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.db "SBI", 0
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.db "SBI", 0
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.db "SBIC", 0
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.db "SBIC", 0
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@ -118,7 +121,7 @@ instrNames:
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; ZASM limitation: CALL and JMP constants are 22-bit. In ZASM, we limit
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; ZASM limitation: CALL and JMP constants are 22-bit. In ZASM, we limit
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; ourselves to 16-bit. Supporting 22-bit would incur a prohibitive complexity
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; ourselves to 16-bit. Supporting 22-bit would incur a prohibitive complexity
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; cost. As they say, 64K words ought to be enough for anybody.
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; cost. As they say, 64K words ought to be enough for anybody.
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.equ I_CALL 96
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.equ I_CALL 98
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.db "CALL", 0
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.db "CALL", 0
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.db "JMP", 0
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.db "JMP", 0
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.db 0xff
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.db 0xff
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@ -280,8 +283,11 @@ parseInstruction:
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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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ld e, a ; Let's keep that instrID somewhere safe
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; First, let's fetch our table row
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; First, let's fetch our table row
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cp I_ADC
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cp I_LD
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jp c, .BR ; BR is special, no table row
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jp c, .BR ; BR is special, no table row
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jp z, .LD ; LD is special
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cp I_ADC
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jp c, .ST ; ST is special
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; *** Step 2: parse arguments
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; *** Step 2: parse arguments
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sub I_ADC ; Adjust index for table
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sub I_ADC ; Adjust index for table
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@ -448,6 +454,40 @@ parseInstruction:
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; bit in H, k in L.
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; bit in H, k in L.
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jr .spitBR2
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jr .spitBR2
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.LD:
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ld h, 'R'
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ld l, 'z'
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call _parseArgs
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ret nz
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ld d, 0b10000000
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jr .LDST
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.ST:
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ld h, 'z'
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ld l, 'R'
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call _parseArgs
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ret nz
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ld d, 0b10000010
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call .swapHL
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; continue to .LDST
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.LDST:
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; Rd in H, Z in L, base upcode in D
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call .placeRd
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; We're spitting LSB first, so let's compose it.
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ld a, l
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and 0b00001111
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or c
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call ioPutB
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; Now, MSB's bit 4 is L's bit 4. How convenient!
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ld a, l
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and 0b00010000
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or d
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or b
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; MSB composed!
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call ioPutB
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cp a ; ensure Z
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ret
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; local routines
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; local routines
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; place number in H in BC at position .......d dddd....
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; place number in H in BC at position .......d dddd....
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; BC is assumed to be 0
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; BC is assumed to be 0
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@ -502,6 +542,9 @@ parseInstruction:
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; 'D' - A double-length number which will fill whole HL.
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; 'D' - A double-length number which will fill whole HL.
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; 'R' - an r5 value: r0-r31
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; 'R' - an r5 value: r0-r31
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; 'r' - an r4 value: r16-r31
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; 'r' - an r4 value: r16-r31
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; 'z' - an indirect register (X, Y or Z), with our without post-inc/pre-dec
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; indicator. This will result in a 5-bit number, from which we can place
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; bits 3:0 to upcode's 3:0 and bit 4 at upcode's 12 in LD and ST.
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;
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;
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; All arguments accept expressions, even 'r' ones: in 'r' args, we start by
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; All arguments accept expressions, even 'r' ones: in 'r' args, we start by
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; looking if the arg starts with 'r' or 'R'. If yes, it's a simple 'rXX' value,
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; looking if the arg starts with 'r' or 'R'. If yes, it's a simple 'rXX' value,
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@ -579,6 +622,8 @@ _parseArgs:
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jr z, _readK8
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jr z, _readK8
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cp 'D'
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cp 'D'
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jr z, _readDouble
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jr z, _readDouble
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cp 'z'
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jp z, _readz
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ret ; something's wrong
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ret ; something's wrong
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_readBit:
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_readBit:
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@ -708,4 +753,63 @@ _readExpr:
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pop ix
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pop ix
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ret
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ret
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; Parse one of the following: X, Y, Z, X+, Y+, Z+, -X, -Y, -Z.
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; For each of those values, return a 5-bit value than can then be interleaved
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; with LD or ST upcodes.
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_readz:
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call strlen
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cp 3
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jp nc, unsetZ ; string too long
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; Let's load first char in A and second in A'. This will free HL
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ld a, (hl)
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ex af, af'
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inc hl
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ld a, (hl) ; Good, HL is now free
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ld hl, .tblStraight
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or a
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jr z, .parseXYZ ; Second char null? We have a single char
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; Maybe +
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cp '+'
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jr nz, .skip
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; We have a +
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ld hl, .tblInc
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jr .parseXYZ
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.skip:
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; Maybe a -
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ex af, af'
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cp '-'
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ret nz ; we have nothing
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; We have a -
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ld hl, .tblDec
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; continue to .parseXYZ
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.parseXYZ:
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; We have X, Y or Z in A'
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ex af, af'
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call upcase
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; Now, let's place HL
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cp 'X'
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jr z, .fetch
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inc hl
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cp 'Y'
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jr z, .fetch
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inc hl
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cp 'Z'
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ret nz ; error
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.fetch:
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ld a, (hl)
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; Z already set from earlier cp
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ret
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.tblStraight:
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.db 0b11100 ; X
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.db 0b01000 ; Y
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.db 0b00000 ; Z
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.tblInc:
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.db 0b11101 ; X+
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.db 0b11001 ; Y+
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.db 0b10001 ; Z+
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.tblDec:
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.db 0b11110 ; -X
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.db 0b11010 ; -Y
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.db 0b10010 ; -Z
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343
tools/tests/avra/seg7multiplex.asm
Normal file
343
tools/tests/avra/seg7multiplex.asm
Normal file
@ -0,0 +1,343 @@
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; This is a copy of my seg7multiplex main program, translated for zasm.
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; The output of zasm was verified against avra's.
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; 7-segments multiplexer for an ATtiny45
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;
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; Register usage
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; R0: Digit on AFF1 (rightmost, QH on the SR)
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; R1: Digit on AFF2 (QG on the SR)
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; R2: Digit on AFF3 (QF on the SR)
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; R3: Digit on AFF4 (leftmost, QE on the SR)
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; R5: always zero
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; R6: generic tmp value
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; R16: generic tmp value
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; R18: value to send to the SR. cleared at every SENDSR call
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; in input mode, holds the input buffer
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; R30: (low Z) current digit being refreshed. cycles from 0 to 3
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;
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; Flags on GPIOs
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; GPIOR0 - bit 0: Whether we need to refresh the display
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; GPIOR0 - bit 1: Set when INT_INT0 has received a new bit
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; GPIOR0 - bit 2: The value of the new bit received
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; GPIOR0 - bit 4: input mode enabled
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; Notes on register usage
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; R0 - R3: 4 low bits are for digit, 5th bit is for dot. other bits are unused.
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;
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; Notes on AFF1-4
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; They are reversed (depending on how you see things...). They read right to
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; left. That means that AFF1 is least significant, AFF4 is most.
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;
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; Input mode counter
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; When in input mode, TIMER0_OVF, instead of setting the refresh flag, increases
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; the counter. When it reaches 3, we timeout and consider input invalid.
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;
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; Input procedure
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;
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; Input starts at INT_INT0. What it does there is very simple: is sets up a flag
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; telling it received something and conditionally sets another flag with the
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; value of the received bit.
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;
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; While we do that, we have the input loop eagerly checking for that flag. When
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; it triggers, it records the bit in R18. The way it does so is that it inits
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; R18 at 1 (not 0), then for every bit, it left shifts R18, then adds the new
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; bit. When the 6th bit of R18 is set, it means we have every bit we need, we
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; can flush it into Z.
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; Z points directly to R3, then R2, then R1, then R0. Because display refresh
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; is disabled during input, it won't result in weird displays, and because
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; partial numbers result in error display, then partial result won't lead to
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; weird displays, just error displays.
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;
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; When input mode begins, we change Z to point to R3 (the first digit we
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; receive) and we decrease the Z pointer after every digit we receive. When we
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; receive the last bit of the last digit and that we see that R30 is 0, we know
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; that the next (and last) digit is the checksum.
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.inc "avr.h"
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.inc "tn254585.h"
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.inc "tn45.h"
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; pins
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.equ RCLK 0 ; on PORTB
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.equ SRCLK 3 ; on PORTB
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.equ SER_DP 4 ; on PORTB
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.equ INSER 1 ; on PORTB
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; Let's begin!
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.org 0x0000
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RJMP MAIN
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RJMP INT_INT0
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RETI ; PCINT0
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RETI ; TIMER1_COMPA
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RETI ; TIMER1_OVF
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RJMP INT_TIMER0_OVF
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MAIN:
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LDI R16, RAMEND&0xff
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OUT SPL, R16
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LDI R16, RAMEND}8
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OUT SPH, R16
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SBI DDRB, RCLK
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SBI DDRB, SRCLK
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SBI DDRB, SER_DP
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; we generally keep SER_DP high to avoid lighting DP
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SBI PORTB, SER_DP
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; target delay: 600us. At 1Mhz, that's 75 ticks with a 1/8 prescaler.
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LDI R16, 0x02 ; CS01, 1/8 prescaler
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OUT TCCR0B, R16
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LDI R16, 0xb5 ; TOP - 75 ticks
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OUT TCNT0, R16
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; Enable TIMER0_OVF
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IN R16, TIMSK
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ORI R16, 0x02 ; TOIE0
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OUT TIMSK, R16
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; Generate interrupt on rising edge of INT0
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IN R16, MCUCR
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ORI R16, 0b00000011 ; ISC00 + ISC01
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OUT MCUCR, R16
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IN R16, GIMSK
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ORI R16, 0b01000000 ; INT0
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OUT GIMSK, R16
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; we never use indirect addresses above 0xff through Z and never use
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; R31 in other situations. We can set it once and forget about it.
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CLR R31 ; high Z
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; put 4321 in R2-5
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CLR R30 ; low Z
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LDI R16, 0x04
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ST Z+, R16 ; 4
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DEC R16
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ST Z+, R16 ; 3
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DEC R16
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ST Z+, R16 ; 2
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DEC R16
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ORI R16, 0b00010000 ; DP
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ST Z, R16 ; 1
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CLR R30 ; replace Z to 0
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SEI
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LOOP:
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RCALL INPT_CHK ; verify that we shouldn't enter input mode
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SBIC GPIOR0, 0 ; refesh flag cleared? skip next
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RCALL RDISP
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RJMP LOOP
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; ***** DISPLAY *****
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; refresh display with current number
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RDISP:
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; First things first: setup the timer for the next time
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LDI R16, 0xb5 ; TOP - 75 ticks
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OUT TCNT0, R16
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CBI GPIOR0, 0 ; Also, clear the refresh flag
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; Let's begin with the display selector. We select one display at once
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; (not ready for multi-display refresh operations yet). Let's decode our
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; binary value from R30 into R16.
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MOV R6, R30
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INC R6 ; we need values 1-4, not 0-3
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LDI R16, 0x01
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RDISP1:
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DEC R6
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BREQ RDISP2 ; == 0? we're finished
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LSL R16
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RJMP RDISP1
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; select a digit to display
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; we do so in a clever way: our registers just happen to be in SRAM
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; locations 0x00, 0x01, 0x02 and 0x03. Handy eh!
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RDISP2:
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LD R18, Z+ ; Indirect load of Z into R18 then increment
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CPI R30, 4
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BRCS RDISP3 ; lower than 4 ? don't reset
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CLR R30 ; not lower than 4? reset
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; in the next step, we're going to join R18 and R16 together, but
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; before we do, we have one thing to process: R18's 5th bit. If it's
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; high, it means that DP is highlighted. We have to store this
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; information in R6 and use it later. Also, we have to clear the higher
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; bits of R18.
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RDISP3:
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SBRC R18, 4 ; 5th bit cleared? skip next
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INC R6 ; if set, then set R6 as well
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ANDI R18, 0xf ; clear higher bits
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; Now we have our display selector in R16 and our digit to display in
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; R18. We want it all in R18.
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SWAP R18 ; digit goes in high "nibble"
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OR R18, R16
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||||||
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; While we send value to the shift register, SER_DP will change.
|
||||||
|
; Because we want to avoid falsely lighting DP, we need to disable
|
||||||
|
; output (disable OE) while that happens. This is why we set RCLK,
|
||||||
|
; which is wired to OE too, HIGH (OE disabled) at the beginning of
|
||||||
|
; the SR operation.
|
||||||
|
;
|
||||||
|
; Because RCLK was low before, this triggers a "buffer clock" on
|
||||||
|
; the SR, but it doesn't matter because the value that was there
|
||||||
|
; before has just been invalidated.
|
||||||
|
SBI PORTB, RCLK ; high
|
||||||
|
RCALL SENDSR
|
||||||
|
; Flush out the buffer with RCLK
|
||||||
|
CBI PORTB, RCLK ; OE enabled, but SR buffer isn't flushed
|
||||||
|
NOP
|
||||||
|
SBI PORTB, RCLK ; SR buffer flushed, OE disabled
|
||||||
|
NOP
|
||||||
|
CBI PORTB, RCLK ; OE enabled
|
||||||
|
|
||||||
|
; We're finished! Oh no wait, one last thing: should we highlight DP?
|
||||||
|
; If we should, then we should keep SER_DP low rather than high for this
|
||||||
|
; SR round.
|
||||||
|
SBI PORTB, SER_DP ; SER_DP generally kept high
|
||||||
|
SBRC R6, 0 ; R6 is cleared? skip DP set
|
||||||
|
CBI PORTB, SER_DP ; SER_DP low highlight DP
|
||||||
|
|
||||||
|
RET ; finished for real this time!
|
||||||
|
|
||||||
|
; send R18 to shift register.
|
||||||
|
; We send highest bits first so that QH is the MSB and QA is the LSB
|
||||||
|
; low bits (QD - QA) control display's power
|
||||||
|
; high bits (QH - QE) select the glyph
|
||||||
|
SENDSR:
|
||||||
|
LDI R16, 8 ; we will loop 8 times
|
||||||
|
CBI PORTB, SER_DP ; low
|
||||||
|
SBRC R18, 7 ; if latest bit isn't cleared, set SER_DP high
|
||||||
|
SBI PORTB, SER_DP ; high
|
||||||
|
RCALL TOGCP
|
||||||
|
LSL R18 ; shift our data left
|
||||||
|
DEC R16
|
||||||
|
BRNE SENDSR+2 ; not zero yet? loop! (+2 to avoid reset)
|
||||||
|
RET
|
||||||
|
|
||||||
|
; toggle SRCLK, waiting 1us between pin changes
|
||||||
|
TOGCP:
|
||||||
|
CBI PORTB, SRCLK ; low
|
||||||
|
NOP ; At 1Mhz, this is enough for 1us
|
||||||
|
SBI PORTB, SRCLK ; high
|
||||||
|
RET
|
||||||
|
|
||||||
|
; ***** INPUT MODE *****
|
||||||
|
|
||||||
|
; check whether we should enter input mode and enter it if needed
|
||||||
|
INPT_CHK:
|
||||||
|
SBIS GPIOR0, 1 ; did we just trigger INT_INT0?
|
||||||
|
RET ; no? return
|
||||||
|
; yes? continue in input mode
|
||||||
|
|
||||||
|
; Initialize input mode and start the loop
|
||||||
|
INPT_BEGIN:
|
||||||
|
SBI GPIOR0, 4 ; enable input mode
|
||||||
|
CBI GPIOR0, 1 ; The first trigger was an empty one
|
||||||
|
|
||||||
|
; At 1/8 prescaler, a "full" counter overflow is 2048us. That sounds
|
||||||
|
; about right for an input timeout. So we co the easy route and simply
|
||||||
|
; clear TCNT0 whenever we want to reset the timer
|
||||||
|
OUT TCNT0, R5 ; R5 == 0
|
||||||
|
CBI GPIOR0, 0 ; clear refresh flag in case it was just set
|
||||||
|
LDI R30, 0x04 ; make Z point on R3+1 (we use pre-decrement)
|
||||||
|
LDI R18, 0x01 ; initialize input buffer
|
||||||
|
|
||||||
|
; loop in input mode. When in input mode, we don't refresh the display, we use
|
||||||
|
; all our processing power to process input.
|
||||||
|
INPT_LOOP:
|
||||||
|
RCALL INPT_READ
|
||||||
|
|
||||||
|
; Check whether we've reached timeout
|
||||||
|
SBIC GPIOR0, 0 ; refesh flag cleared? skip next
|
||||||
|
RCALL INPT_TIMEOUT
|
||||||
|
|
||||||
|
SBIC GPIOR0, 4 ; input mode cleared? skip next, to INPT_END
|
||||||
|
RJMP INPT_LOOP ; not cleared? loop
|
||||||
|
|
||||||
|
INPT_END:
|
||||||
|
; We received all our date or reached timeout. let's go back in normal
|
||||||
|
; mode.
|
||||||
|
CLR R30 ; Ensure Z isn't out of bounds
|
||||||
|
SBI GPIOR0, 0 ; set refresh flag so we start refreshing now
|
||||||
|
RET
|
||||||
|
|
||||||
|
; Read, if needed, the last received bit
|
||||||
|
INPT_READ:
|
||||||
|
SBIS GPIOR0, 1
|
||||||
|
RET ; flag cleared? nothing to do
|
||||||
|
|
||||||
|
; Flag is set, we have to read
|
||||||
|
CBI GPIOR0, 1 ; unset flag
|
||||||
|
LSL R18
|
||||||
|
SBIC GPIOR0, 2 ; data flag cleared? skip next
|
||||||
|
INC R18
|
||||||
|
|
||||||
|
; Now, let's check if we have our 5 digits
|
||||||
|
SBRC R18, 5 ; 6th bit cleared? nothing to do
|
||||||
|
RCALL INPT_PUSH
|
||||||
|
|
||||||
|
OUT TCNT0, R5 ; clear timeout counter
|
||||||
|
|
||||||
|
RET
|
||||||
|
|
||||||
|
; Push the digit currently in R18 in Z and reset R18.
|
||||||
|
INPT_PUSH:
|
||||||
|
ANDI R18, 0b00011111 ; Remove 6th bit flag
|
||||||
|
|
||||||
|
TST R30 ; is R30 zero?
|
||||||
|
BREQ INPT_CHECKSUM ; yes? it means we're at checksum phase.
|
||||||
|
|
||||||
|
; Otherwise, its a regular digit push
|
||||||
|
ST -Z, R18
|
||||||
|
LDI R18, 0x01
|
||||||
|
RET
|
||||||
|
|
||||||
|
INPT_CHECKSUM:
|
||||||
|
CBI GPIOR0, 4 ; clear input mode, whether we error or not
|
||||||
|
MOV R16, R0
|
||||||
|
ADD R16, R1
|
||||||
|
ADD R16, R2
|
||||||
|
ADD R16, R3
|
||||||
|
; only consider the first 5 bits of the checksum since we can't receive
|
||||||
|
; more. Otherwise, we couldn't possibly validate a value like 9999
|
||||||
|
ANDI R16, 0b00011111
|
||||||
|
CP R16, R18
|
||||||
|
BRNE INPT_ERROR
|
||||||
|
RET
|
||||||
|
|
||||||
|
INPT_TIMEOUT:
|
||||||
|
CBI GPIOR0, 4 ; timeout reached, clear input flag
|
||||||
|
; continue to INPT_ERROR
|
||||||
|
|
||||||
|
INPT_ERROR:
|
||||||
|
LDI R16, 0x0c ; some weird digit
|
||||||
|
MOV R0, R16
|
||||||
|
MOV R1, R16
|
||||||
|
MOV R2, R16
|
||||||
|
MOV R3, R16
|
||||||
|
RET
|
||||||
|
|
||||||
|
; ***** INTERRUPTS *****
|
||||||
|
|
||||||
|
; Record received bit
|
||||||
|
; The main loop has to be fast enough to process that bit before we receive the
|
||||||
|
; next one!
|
||||||
|
; no SREG fiddling because no SREG-modifying instruction
|
||||||
|
INT_INT0:
|
||||||
|
CBI GPIOR0, 2 ; clear received data
|
||||||
|
SBIC PINB, INSER ; INSER clear? skip next
|
||||||
|
SBI GPIOR0, 2 ; INSER set? record this
|
||||||
|
SBI GPIOR0, 1 ; indicate that we've received a bit
|
||||||
|
RETI
|
||||||
|
|
||||||
|
; Set refresh flag whenever timer0 overflows
|
||||||
|
; no SREG fiddling because no SREG-modifying instruction
|
||||||
|
INT_TIMER0_OVF:
|
||||||
|
SBI GPIOR0, 0
|
||||||
|
RETI
|
||||||
|
|
||||||
|
|
BIN
tools/tests/avra/seg7multiplex.expected
Normal file
BIN
tools/tests/avra/seg7multiplex.expected
Normal file
Binary file not shown.
18
tools/tests/avra/testldst.asm
Normal file
18
tools/tests/avra/testldst.asm
Normal file
@ -0,0 +1,18 @@
|
|||||||
|
ld r0, X
|
||||||
|
ld r1, Y
|
||||||
|
ld r2, Z
|
||||||
|
ld r3, X+
|
||||||
|
ld r4, Y+
|
||||||
|
ld r5, Z+
|
||||||
|
ld r6, -X
|
||||||
|
ld r7, -Y
|
||||||
|
ld r8, -Z
|
||||||
|
st X, r9
|
||||||
|
st Y, r10
|
||||||
|
st Z, r11
|
||||||
|
st X+, r12
|
||||||
|
st Y+, r13
|
||||||
|
st Z+, r14
|
||||||
|
st -X, r15
|
||||||
|
st -Y, r16
|
||||||
|
st -Z, r17
|
2
tools/tests/avra/testldst.expected
Normal file
2
tools/tests/avra/testldst.expected
Normal file
@ -0,0 +1,2 @@
|
|||||||
|
<0C>€ €=<3D>I<EFBFBD>Q<EFBFBD>n<EFBFBD>z<EFBFBD>‚<EFBFBD>ś’¨‚°‚Í’Ů’á’ţ’
|
||||||
|
““
|
Loading…
Reference in New Issue
Block a user