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avra: a little code deduplication

This commit is contained in:
Virgil Dupras 2019-12-15 18:52:00 -05:00
parent e9c692ed50
commit 52359a4e42

View File

@ -134,23 +134,23 @@ instrNames:
; In the same order as in instrNames ; In the same order as in instrNames
instrTbl: instrTbl:
; Rd(5) + Rd(5) (0x02) and Rd(5) + bit (0x05) (same processing) ; Rd(5) + Rd(5) (0x02) and Rd(5) + bit (0x05) (same processing)
.db 0x02, 0b00011100, 0x00 ; ADC .db 0x02, 0b00011100, 0x00 ; ADC Rd, Rr
.db 0x02, 0b00001100, 0x00 ; ADD .db 0x02, 0b00001100, 0x00 ; ADD Rd, Rr
.db 0x02, 0b00100000, 0x00 ; AND .db 0x02, 0b00100000, 0x00 ; AND Rd, Rr
.db 0x05, 0b11111000, 0x00 ; BLD .db 0x05, 0b11111000, 0x00 ; BLD Rd, b
.db 0x05, 0b11111010, 0x00 ; BST .db 0x05, 0b11111010, 0x00 ; BST Rd, b
.db 0x41, 0b00100100, 0x00 ; CLR (Rr copies Rd) .db 0x41, 0b00100100, 0x00 ; CLR Rd (Bit 6)
.db 0x02, 0b00010100, 0x00 ; CP .db 0x02, 0b00010100, 0x00 ; CP Rd, Rr
.db 0x02, 0b00000100, 0x00 ; CPC .db 0x02, 0b00000100, 0x00 ; CPC Rd, Rr
.db 0x02, 0b00010000, 0x00 ; CPSE .db 0x02, 0b00010000, 0x00 ; CPSE Rd, Rr
.db 0x02, 0b00100100, 0x00 ; EOR .db 0x02, 0b00100100, 0x00 ; EOR Rd, Rr
.db 0x02, 0b00101100, 0x00 ; MOV .db 0x02, 0b00101100, 0x00 ; MOV Rd, Rr
.db 0x02, 0b10011100, 0x00 ; MUL .db 0x02, 0b10011100, 0x00 ; MUL Rd, Rr
.db 0x02, 0b00101000, 0x00 ; OR .db 0x02, 0b00101000, 0x00 ; OR Rd, Rr
.db 0x02, 0b00001000, 0x00 ; SBC .db 0x02, 0b00001000, 0x00 ; SBC Rd, Rr
.db 0x05, 0b11111100, 0x00 ; SBRC .db 0x05, 0b11111100, 0x00 ; SBRC Rd, b
.db 0x05, 0b11111110, 0x00 ; SBRS .db 0x05, 0b11111110, 0x00 ; SBRS Rd, b
.db 0x02, 0b00011000, 0x00 ; SUB .db 0x02, 0b00011000, 0x00 ; SUB Rd, Rr
; Rd(4) + K(8): XXXXKKKK ddddKKKK ; Rd(4) + K(8): XXXXKKKK ddddKKKK
.db 0x04, 0b01110000, 0x00 ; ANDI .db 0x04, 0b01110000, 0x00 ; ANDI
.db 0x04, 0b00110000, 0x00 ; CPI .db 0x04, 0b00110000, 0x00 ; CPI
@ -164,7 +164,7 @@ instrTbl:
.db 0x00, 0b11000000, 0x00 ; RJMP .db 0x00, 0b11000000, 0x00 ; RJMP
; IN and OUT ; IN and OUT
.db 0x07, 0b10110000, 0x00 ; IN .db 0x07, 0b10110000, 0x00 ; IN
.db 0x87, 0b10111000, 0x00 ; OUT (args reversed) .db 0x87, 0b10111000, 0x00 ; OUT (Bit 7)
; no arg ; no arg
.db 0x00, 0b10010101, 0b10011000 ; BREAK .db 0x00, 0b10010101, 0b10011000 ; BREAK
.db 0x00, 0b10010100, 0b10001000 ; CLC .db 0x00, 0b10010100, 0b10001000 ; CLC
@ -304,43 +304,20 @@ parseInstruction:
cp I_ASR cp I_ASR
jp c, .spit ; no arg jp c, .spit ; no arg
; spitRd5 ; spitRd5
ld a, h
call .placeRd call .placeRd
jp .spit jp .spit
.spitRd5Rr5: .spitRd5Rr5:
; This is used for both Rd(5) + Rr(5) and Rd(5) + bit because the same ; This is used for both Rd(5) + Rr(5) and Rd(5) + bit because the same
; logic works for both cases. ; logic works for both cases.
ld a, h
call .placeRd call .placeRd
ld a, l call .placeRr
; let's start with the 4 lower bits jr .spit
and 0xf
or c
; We now have our LSB in A. Let's spit it now.
call ioPutB
ld a, l
; and now that last high bit, currently bit 4, which must become bit 1
and 0b00010000
rra \ rra \ rra
or b
ld b, a
jp .spitMSB
.spitRdK8: .spitRdK8:
ld a, h ; Rd
call .placeRd call .placeRd
ld a, l ; K call .placeRr
; let's start with the 4 lower bits rr b ; K(8) start at B's 1st bit, not 2nd
and 0xf jr .spit
or c
; We now have our LSB in A. Let's spit it now.
call ioPutB
ld a, l
; and now those high 4 bits
and 0xf0
rra \ rra \ rra \ rra
ld b, a
jp .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 IX below
@ -373,7 +350,6 @@ parseInstruction:
.spitINOUT: .spitINOUT:
; Rd in H, A in L ; Rd in H, A in L
ld a, h
call .placeRd call .placeRd
ld a, l ld a, l
and 0xf and 0xf
@ -453,12 +429,29 @@ parseInstruction:
jr .spitBR2 jr .spitBR2
; local routines ; local routines
; place number in A in BC at position .......d dddd.... ; place number in H in BC at position .......d dddd....
; BC is assumed to be 0 ; BC is assumed to be 0
.placeRd: .placeRd:
sla a \ rla \ rla \ rla ; last RLA might set carry sla h \ rl h \ rl h \ rl h ; last RL H might set carry
rl b rl b
ld c, h
ret
; place number in L in BC at position ...rrrr. ....rrrr
; BC is assumed to be either 0 or to be set by .placeRd, that is, that the
; high 4 bits of C and lowest bit of B will be preserved.
.placeRr:
; let's start with the 4 lower bits
ld a, l
and 0x0f
or c
ld c, a ld c, a
ld a, l
; and now those high 4 bits which go in B.
and 0xf0
rra \ rra \ rra
or b
ld b, a
ret ret
.swapHL: .swapHL: