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zasm: add support for RLC r and RRC r
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@ -2,7 +2,7 @@
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; Number of rows in the argspec table
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ARGSPEC_TBL_CNT .equ 31
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; Number of rows in the primary instructions table
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INSTR_TBL_CNT .equ 148
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INSTR_TBL_CNT .equ 150
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; size in bytes of each row in the primary instructions table
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INSTR_TBL_ROWSIZE .equ 6
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; Instruction IDs They correspond to the index of the table in instrNames
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@ -53,14 +53,16 @@ I_RETI .equ 0x2b
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I_RETN .equ 0x2c
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I_RL .equ 0x2d
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I_RLA .equ 0x2e
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I_RLCA .equ 0x2f
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I_RR .equ 0x30
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I_RRA .equ 0x31
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I_RRCA .equ 0x32
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I_SBC .equ 0x33
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I_SCF .equ 0x34
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I_SUB .equ 0x35
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I_XOR .equ 0x36
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I_RLC .equ 0x2f
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I_RLCA .equ 0x30
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I_RR .equ 0x31
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I_RRA .equ 0x32
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I_RRC .equ 0x33
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I_RRCA .equ 0x34
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I_SBC .equ 0x35
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I_SCF .equ 0x36
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I_SUB .equ 0x37
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I_XOR .equ 0x38
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; Checks whether A is 'N' or 'M'
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checkNOrM:
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@ -585,12 +587,24 @@ getUpcode:
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ld de, instrUpcode ; from this point, DE points to "where we are"
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; in terms of upcode writing.
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inc de ; make DE point to where we should write next.
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ld c, 1 ; C holds our upcode count
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; Now, let's determine if we have one or two upcode. As a general rule,
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; we simply have to check if (ix+5) == 0, which means one upcode.
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; However, some two-upcodes instructions have a 0 (ix+5) because they
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; expect group OR-ing into it and all other bits are zero. See "RLC r".
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; To handle those cases, we *also* check for Bit 6 in (ix+3).
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ld a, (ix+5) ; second upcode
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cp 0 ; do we have a second upcode?
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jr z, .onlyOneUpcode
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or a ; do we have a second upcode?
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jr nz, .twoUpcodes
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bit 6, (ix+3)
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jr z, .onlyOneUpcode ; not set: single upcode
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.twoUpcodes:
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; we have two upcodes
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ld (de), a
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inc de
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inc c
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.onlyOneUpcode:
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; now, let's see if we're dealing with a group here
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ld a, (ix+1) ; first argspec
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@ -653,8 +667,7 @@ getUpcode:
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call checknmxy
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jr z, .withByte
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; nope, no number, alright, we're finished here
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ld c, 1
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jr .computeBytesWritten
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jr .end
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.withByte:
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inc hl
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; HL points to our number (LSB), with (HL+1) being our MSB which should
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@ -669,9 +682,9 @@ getUpcode:
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; First, check whether we're on first pass. If we are, skip processing
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; below because not having real symbol value makes relative address
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; verification falsely fail.
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ld c, 2 ; this is a two bytes instruction
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inc c ; one extra byte is written
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call zasmIsFirstPass
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jr z, .computeBytesWritten
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jr z, .end
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; We're on second pass
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push de ; Don't let go of this, that's our dest
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@ -698,7 +711,7 @@ getUpcode:
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or a ; cp 0
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jr nz, .numberTruncated ; if A is anything but zero, we're out
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; of bounds.
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jr .computeBytesWritten
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jr .end
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.absoluteValue:
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; verify that the MSB in argument is zero
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@ -707,26 +720,20 @@ getUpcode:
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dec hl ; HL now points to LSB
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or a ; cp 0
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jr nz, .numberTruncated
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push bc
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ldi
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ld c, 2
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jr .computeBytesWritten
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pop bc
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inc c
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jr .end
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.withWord:
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inc hl ; HL now points to LSB
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; Clear to proceed. HL already points to our number
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push bc
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ldi ; LSB written, we point to MSB now
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ldi ; MSB written
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ld c, 3
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jr .computeBytesWritten
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.computeBytesWritten:
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; At this point, everything that we needed to write in instrUpcode is
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; written an C is 1 if we have no extra byte, 2 if we have an extra
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; byte and 3 if we have an extra word. What we need to do here is check
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; if ix+5 is non-zero and increase C if it is.
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ld a, (ix+5)
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cp 0
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jr z, .end ; no second upcode? nothing to do.
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; We have 2 base upcodes
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pop bc
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inc c ; two extra bytes are written
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inc c
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jr .end
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.numberTruncated:
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@ -945,9 +952,11 @@ instrNames:
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.db "RETN"
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.db "RL", 0, 0
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.db "RLA", 0
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.db "RLC", 0
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.db "RLCA"
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.db "RR", 0, 0
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.db "RRA", 0
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.db "RRC", 0
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.db "RRCA"
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.db "SBC", 0
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.db "SCF", 0
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@ -1114,9 +1123,11 @@ instrTBl:
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.db I_RETN,0, 0, 0, 0xed, 0x45 ; RETN
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.db I_RL, 0xb, 0,0x40, 0xcb, 0b00010000 ; RL r
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.db I_RLA, 0, 0, 0, 0x17 , 0 ; RLA
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.db I_RLC, 0xb, 0,0x40, 0xcb, 0b00000000 ; RLC r
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.db I_RLCA,0, 0, 0, 0x07 , 0 ; RLCA
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.db I_RR, 0xb, 0,0x40, 0xcb, 0b00011000 ; RR r
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.db I_RRA, 0, 0, 0, 0x1f , 0 ; RRA
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.db I_RRC, 0xb, 0,0x40, 0xcb, 0b00001000 ; RRC r
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.db I_RRCA,0, 0, 0, 0x0f , 0 ; RRCA
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.db I_SBC, 'A', 'l', 0, 0x9e , 0 ; SBC A, (HL)
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.db I_SBC, 'A', 0xb, 0, 0b10011000 , 0 ; SBC A, r
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@ -1138,4 +1149,3 @@ curArg2:
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instrUpcode:
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.db 0, 0, 0, 0
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@ -23,3 +23,4 @@ label2: .dw 0x42
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ld b, baz-3
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rl d
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rr e
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rlc c
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