mirror of
https://github.com/mi57730/a2d.git
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670 lines
18 KiB
PHP
670 lines
18 KiB
PHP
;;; ============================================================
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;;; Generic Macros
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;;; ============================================================
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.define _is_immediate(arg) (.match (.mid (0, 1, {arg}), #))
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.define _is_register(arg) (.match ({arg}, x) .or .match ({arg}, y))
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.define _is_y_register(arg) (.match ({arg}, y))
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.define _immediate_value(arg) (.right (.tcount ({arg})-1, {arg}))
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.macro _op_lo op, arg
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.if _is_immediate {arg}
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op #<_immediate_value {arg}
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.else
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op arg
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.endif
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.endmacro
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.macro _op_hi op, arg
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.if _is_immediate {arg}
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op #>_immediate_value {arg}
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.else
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op arg+1
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.endif
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.endmacro
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;;; ============================================================
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;;; Length-prefixed string
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;;;
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;;; Can include control chars by using:
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;;;
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;;; PASCAL_STRING {"abc",$0D,"def"}
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.macro PASCAL_STRING str,res
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.local data
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.local end
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.byte end - data
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data: .byte str
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end:
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.if .paramcount > 1
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.res res - (end - data), 0
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.endif
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.endmacro
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;;; ============================================================
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;;; Pad with zeros to the given address
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.macro PAD_TO addr
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.if (addr - *) >= 0
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.res addr - *, 0
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.else
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.error .sprintf("Padding offset %d", addr - *)
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.endif
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.endmacro
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;;; ============================================================
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;;; Common patterns
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.define AS_BYTE(arg) arg & $FF
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.define AS_WORD(arg) arg & $FFFF
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.macro return arg
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lda arg
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rts
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.endmacro
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.macro copy arg1, arg2, arg3, arg4
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.if _is_register {arg2} && _is_register {arg4}
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;; indexed load/indexed store
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lda arg1,arg2
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sta arg3,arg4
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.elseif _is_register {arg2}
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;; indexed load variant (arg2 is x or y)
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lda arg1,arg2
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sta arg3
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.elseif _is_register {arg3}
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;; indexed store variant (arg3 is x or y)
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lda arg1
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sta arg2,arg3
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.else
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lda arg1
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sta arg2
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.endif
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.endmacro
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;;; ============================================================
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;;; Calls with one parameter (address in A,X)
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.macro addr_call target, addr
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lda #<addr
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ldx #>addr
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jsr target
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.endmacro
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.macro addr_call_indirect target, addr
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lda addr
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ldx addr+1
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jsr target
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.endmacro
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.macro addr_jump target, addr
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lda #<addr
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ldx #>addr
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jmp target
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.endmacro
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;;; ============================================================
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;;; Calls with two parameters (call # in y, address in A,X)
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;;; (various output orders to match original binary)
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.macro axy_call target, yparam, addr
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lda #<addr
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ldx #>addr
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ldy #yparam
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jsr target
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.endmacro
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.macro yax_call target, yparam, addr
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ldy #yparam
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lda #<addr
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ldx #>addr
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jsr target
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.endmacro
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.macro yxa_call target, yparam, addr
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ldy #yparam
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ldx #>addr
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lda #<addr
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jsr target
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.endmacro
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.macro yxa_jump target, yparam, addr
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ldy #yparam
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ldx #>addr
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lda #<addr
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jmp target
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.endmacro
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;;; ============================================================
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;;; 16-bit pseudo-ops
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;;; Load A,X
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;;; ldax #$1234 ; immediate
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;;; ldax $1234 ; absolute
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.macro ldax arg
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_op_lo lda, {arg}
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_op_hi ldx, {arg}
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.endmacro
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;;; Load A,Y
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;;; lday #$1234 ; immediate
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;;; lday $1234 ; absolute
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.macro lday arg
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_op_lo lda, {arg}
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_op_hi ldy, {arg}
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.endmacro
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;;; Load X,Y
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;;; ldxy #$1234 ; immediate
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;;; ldxy $1234 ; absolute
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.macro ldxy arg
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_op_lo ldx, {arg}
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_op_hi ldy, {arg}
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.endmacro
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;;; Store A,X
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;;; stax $1234 ; absolute
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.macro stax arg
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sta arg
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stx arg+1
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.endmacro
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;;; Store X,Y
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;;; stxy $1234 ; absolute
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.macro stxy arg
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stx arg
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sty arg+1
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.endmacro
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;;; Core for add16/sub16
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.macro _addsub16 op, opc, arg1, arg2, arg3, arg4, arg5, arg6
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.if _is_register {arg2} && _is_register {arg4} && _is_register {arg6}
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;; xxx16 $1111,x, $2222,x, $3333,x
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lda arg1,arg2
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opc
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op arg3,arg4
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sta arg5,arg6
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lda arg1+1,arg2
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op arg3+1,arg4
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sta arg5+1,arg6
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.elseif _is_register {arg2} && _is_register {arg4}
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;; xxx16 $1111,x, $2222,x, $3333
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lda arg1,arg2
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opc
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op arg3,arg4
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sta arg5
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lda arg1+1,arg2
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op arg3+1,arg4
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sta arg5+1
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.elseif _is_register {arg2} && _is_register {arg5}
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;; xxx16 $1111,x, $2222, $3333,x
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;; xxx16 $1111,x, #$2222, $3333,x
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lda arg1,arg2
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opc
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_op_lo op, {arg3}
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sta arg4,arg5
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lda arg1+1,arg2
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_op_hi op, {arg3}
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sta arg4+1,arg5
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.elseif _is_register {arg2}
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;; xxx16 $1111,x, $2222, $3333
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;; xxx16 $1111,x, #$2222, $3333
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lda arg1,arg2
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opc
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_op_lo op, {arg3}
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sta arg4
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lda arg1+1,arg2
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_op_hi op, {arg3}
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sta arg4+1
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.elseif _is_register {arg3}
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;; xxx16 $1111, $2222,x $3333
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;; xxx16 #$1111, $2222,x $3333
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_op_lo lda, {arg1}
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opc
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op arg2,arg3
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sta arg4
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_op_hi lda, {arg1}
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op arg2+1,arg3
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sta arg4+1
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.elseif _is_register {arg4}
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;; xxx16 $1111, $2222, $3333,x
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;; xxx16 #$1111, $2222, $3333,x
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;; xxx16 $1111, #$2222, $3333,x
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;; xxx16 #$1111, #$2222, $3333,x
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_op_lo lda, {arg1}
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opc
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_op_lo op, {arg2}
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sta arg3,arg4
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_op_hi lda, {arg1}
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_op_hi op, {arg2}
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sta arg3+1,arg4
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.else
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;; xxx16 $1111, $2222, $3333
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;; xxx16 #$1111, $2222, $3333
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;; xxx16 $1111, #$2222, $3333
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;; xxx16 #$1111, #$2222, $3333
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_op_lo lda, {arg1}
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opc
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_op_lo op, {arg2}
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sta arg3
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_op_hi lda, {arg1}
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_op_hi op, {arg2}
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sta arg3+1
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.endif
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.endmacro
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;;; Core for add16/sub16, with leading carry operation
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.macro _addsub16lc op, opc, arg1, arg2, arg3, arg4, arg5, arg6
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opc
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.if _is_register {arg2} && _is_register {arg4} && _is_register {arg6}
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;; xxx16 $1111,x, $2222,x, $3333,x
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lda arg1,arg2
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op arg3,arg4
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sta arg5,arg6
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lda arg1+1,arg2
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op arg3+1,arg4
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sta arg5+1,arg6
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.elseif _is_register {arg2} && _is_register {arg4}
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;; xxx16 $1111,x, $2222,x, $3333
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lda arg1,arg2
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op arg3,arg4
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sta arg5
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lda arg1+1,arg2
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op arg3+1,arg4
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sta arg5+1
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.elseif _is_register {arg2} && _is_register {arg5}
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;; xxx16 $1111,x, $2222, $3333,x
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;; xxx16 $1111,x, #$2222, $3333,x
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lda arg1,arg2
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_op_lo op, {arg3}
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sta arg4,arg5
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lda arg1+1,arg2
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_op_hi op, {arg3}
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sta arg4+1,arg5
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.elseif _is_register {arg2}
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;; xxx16 $1111,x, $2222, $3333
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;; xxx16 $1111,x, #$2222, $3333
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lda arg1,arg2
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_op_lo op, {arg3}
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sta arg4
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lda arg1+1,arg2
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_op_hi op, {arg3}
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sta arg4+1
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.elseif _is_register {arg3}
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;; xxx16 $1111, $2222,x $3333
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;; xxx16 #$1111, $2222,x $3333
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_op_lo lda, {arg1}
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op arg2,arg3
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sta arg4
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_op_hi lda, {arg1}
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op arg2+1,arg3
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sta arg4+1
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.elseif _is_register {arg4}
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;; xxx16 $1111, $2222, $3333,x
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;; xxx16 #$1111, $2222, $3333,x
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;; xxx16 $1111, #$2222, $3333,x
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;; xxx16 #$1111, #$2222, $3333,x
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_op_lo lda, {arg1}
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_op_lo op, {arg2}
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sta arg3,arg4
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_op_hi lda, {arg1}
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_op_hi op, {arg2}
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sta arg3+1,arg4
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.else
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;; xxx16 $1111, $2222, $3333
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;; xxx16 #$1111, $2222, $3333
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;; xxx16 $1111, #$2222, $3333
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;; xxx16 #$1111, #$2222, $3333
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_op_lo lda, {arg1}
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_op_lo op, {arg2}
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sta arg3
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_op_hi lda, {arg1}
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_op_hi op, {arg2}
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sta arg3+1
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.endif
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.endmacro
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;;; Core for add16in/sub16in
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.macro _addsub16in op, opc, arg1, arg2, arg3, arg4, arg5, arg6
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.if _is_y_register {arg2} && _is_y_register {arg4} && _is_y_register {arg6}
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;; xxx16in $1111,y, $2222,y, $3333,y
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lda (arg1),y
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opc
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op (arg3),y
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sta (arg5),y
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iny
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lda (arg1),y
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op (arg3),y
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sta (arg5),y
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.elseif _is_y_register {arg2} && _is_y_register {arg4}
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;; xxx16in $1111,y, $2222,y, $3333
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lda (arg1),y
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opc
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op (arg3),y
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sta arg5
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iny
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lda (arg1),y
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op (arg3),y
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sta arg5+1
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.elseif _is_y_register {arg2} && _is_y_register {arg5}
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;; xxx16in $1111,y, $2222, $3333,y
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;; xxx16in $1111,y, #$2222, $3333,y
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lda (arg1),y
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opc
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_op_lo op, {arg3}
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sta (arg4),y
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iny
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lda (arg1),y
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_op_hi op, {arg3}
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sta (arg4),y
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.elseif _is_y_register {arg2}
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;; xxx16in $1111,x, $2222, $3333
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;; xxx16in $1111,x, #$2222, $3333
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lda (arg1),y
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opc
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_op_lo op, {arg3}
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sta arg4
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iny
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lda (arg1),y
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_op_hi op, {arg3}
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sta arg4+1
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.elseif _is_y_register {arg3}
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;; xxx16in $1111, $2222,y $3333
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;; xxx16in #$1111, $2222,y $3333
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_op_lo lda, {arg1}
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opc
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op (arg2),y
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sta arg4
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iny
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_op_hi lda, {arg1}
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op (arg2),y
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sta arg4+1
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.elseif _is_y_register {arg4}
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;; xxx16in $1111, $2222, $3333,y
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;; xxx16in #$1111, $2222, $3333,y
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;; xxx16in $1111, #$2222, $3333,y
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;; xxx16in #$1111, #$2222, $3333,y
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_op_lo lda, {arg1}
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opc
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_op_lo op, {arg2}
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sta (arg3),y
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iny
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_op_hi lda, {arg1}
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_op_hi op, {arg2}
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sta (arg3),y
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.else
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.error "Indirect indexed required at least one use of y reg"
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.endif
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.endmacro
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;;; Add arg1 to arg2, store to arg3
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;;; add16 $1111, $2222, $3333 ; absolute, absolute, absolute
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;;; add16 $1111, #$2222, $3333 ; absolute, immediate, absolute
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;;; add16 $1111,x, $2222, $3333 ; indexed, absolute, absolute
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;;; add16 $1111, $2222,x, $3333 ; absolute, indexed, absolute
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;;; add16 $1111, $2222, $3333,x ; absolute, absolute, indexed
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;;; add16 $1111,x, $2222, $3333,x ; indexed, absolute, indexed
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;;; add16 $1111,x, $2222,x, $3333,x ; indexed, indexed, indexed
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.macro add16 arg1, arg2, arg3, arg4, arg5, arg6
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_addsub16 adc, clc, arg1, arg2, arg3, arg4, arg5, arg6
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.endmacro
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;;; (as above, but clc precedes first lda)
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.macro add16lc arg1, arg2, arg3, arg4, arg5, arg6
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_addsub16lc adc, clc, arg1, arg2, arg3, arg4, arg5, arg6
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.endmacro
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;;; (as above, but indirect indexed, y register is incremented)
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.macro add16in arg1, arg2, arg3, arg4, arg5, arg6
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_addsub16in adc, clc, arg1, arg2, arg3, arg4, arg5, arg6
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.endmacro
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;;; Add arg1 (absolute) to arg2 (8-bit absolute), store to arg3
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;;; add16_8 $1111, #$22, $3333 ; absolute, immediate, absolute
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;;; add16_8 $1111, $22, $3333 ; absolute, absolute, absolute
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.macro add16_8 arg1, arg2, arg3
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_op_lo lda, {arg1}
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clc
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adc arg2
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sta arg3
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_op_hi lda, {arg1}
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adc #0
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sta arg3+1
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.endmacro
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;;; Add A,Z to arg1 (immediate or absolute), store to arg2
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;;; addax #$1111, $3333 ; immediate, absolute
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;;; addax $1111, $3333 ; absolute, absolute
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.macro addax arg1, arg2
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clc
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_op_lo adc, {arg1}
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sta arg2
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txa
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_op_hi adc, {arg1}
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sta arg2+1
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.endmacro
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;;; Subtract arg2 from arg1, store to arg3
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;;; sub16 #$1111, #$2222, $3333 ; immediate, immediate, absolute
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;;; sub16 #$1111, $2222, $3333 ; immediate, absolute, absolute
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;;; sub16 $1111, #$2222, $3333 ; absolute, immediate, absolute
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;;; sub16 $1111, $2222, $3333 ; absolute, absolute, absolute
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;;; sub16 $1111, $2222,x, $3333 ; absolute, indexed, absolute
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;;; sub16 $1111, $2222, $3333,x ; absolute, absolute, indexed
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;;; sub16 $1111,x, $2222,x, $3333 ; indexed, indexed, absolute
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;;; sub16 $1111,x, $2222, $3333,x ; indexed, absolute, indexed
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;;; sub16 $1111,x, $2222,x $3333,x ; indexed, indexed, indexed
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.macro sub16 arg1, arg2, arg3, arg4, arg5, arg6
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_addsub16 sbc, sec, arg1, arg2, arg3, arg4, arg5, arg6
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.endmacro
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;;; (as above, but sec precedes first lda)
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.macro sub16lc arg1, arg2, arg3, arg4, arg5, arg6
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_addsub16lc sbc, sec, arg1, arg2, arg3, arg4, arg5, arg6
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.endmacro
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;;; (as above, but indirect indexed, y register incremented)
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.macro sub16in arg1, arg2, arg3, arg4, arg5, arg6
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_addsub16in sbc, sec, arg1, arg2, arg3, arg4, arg5, arg6
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.endmacro
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;;; Subtract arg2 from arg1, store to arg3
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;;; sub16_8 #$1111, #$22, $3333 ; immediate, immediate, absolute
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;;; sub16_8 #$1111, $22, $3333 ; immediate, absolute, absolute
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;;; sub16_8 $1111, #$22, $3333 ; absolute, immediate, absolute
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;;; sub16_8 $1111, $22, $3333 ; absolute, absolute, absolute
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.macro sub16_8 arg1, arg2, arg3
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_op_lo lda, {arg1}
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sec
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sbc arg2
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sta arg3
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_op_hi lda, {arg1}
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sbc #0
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sta arg3+1
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.endmacro
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;;; Copy 16-bit value
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;;; copy16 #$1111, $2222 ; immediate, absolute
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;;; copy16 $1111, $2222 ; absolute, absolute
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;;; copy16 $1111,x, $2222 ; indirect load, absolute store
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;;; copy16 $1111, $2222,x ; absolute load, indirect store
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;;; copy16 $1111,x $2222,x ; indirect load, indirect store
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;;; copy16 #$1111, $2222,x ; immediate load, indirect store
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.macro copy16 arg1, arg2, arg3, arg4
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.if _is_register {arg2} && _is_register {arg4}
|
|
;; indexed load/indexed store
|
|
lda arg1,arg2
|
|
sta arg3,arg4
|
|
lda arg1+1,arg2
|
|
sta arg3+1,arg4
|
|
.elseif _is_register {arg2}
|
|
;; indexed load variant (arg2 is x or y)
|
|
lda arg1,arg2
|
|
sta arg3
|
|
lda arg1+1,arg2
|
|
sta arg3+1
|
|
.elseif _is_register {arg3}
|
|
;; indexed store variant (arg3 is x or y)
|
|
_op_lo lda, {arg1}
|
|
sta arg2,arg3
|
|
_op_hi lda, {arg1}
|
|
sta arg2+1,arg3
|
|
.else
|
|
_op_lo lda, {arg1}
|
|
sta arg2
|
|
_op_hi lda, {arg1}
|
|
sta arg2+1
|
|
.endif
|
|
.endmacro
|
|
|
|
;;; Copy 16-bit value, indexed indirect, y register incremented
|
|
;;; copy16in #$1111, ($2222),y ; immediate load, indexed indirect store
|
|
;;; copy16in $1111, ($2222),y ; absolute load, indexed indirect store
|
|
;;; copy16in ($1111),y, $2222 ; indexed indirect load, absolute store
|
|
;;; copy16in ($1111),y ($2222),y ; indexed indirect load, indexed indirect store
|
|
.macro copy16in arg1, arg2, arg3, arg4
|
|
.if _is_y_register {arg2} && _is_y_register {arg4}
|
|
;; copy16in ($1111),y, ($2222),y
|
|
lda (arg1),y
|
|
sta (arg3),y
|
|
iny
|
|
lda (arg1),y
|
|
sta (arg3),y
|
|
.elseif _is_y_register {arg2}
|
|
;; copy16in ($1111),y, $2222
|
|
lda (arg1),y
|
|
sta arg3
|
|
iny
|
|
lda (arg1),y
|
|
sta arg3+1
|
|
.elseif _is_y_register {arg3}
|
|
;; copy16in #$1111, ($2222),y
|
|
;; copy16in $1111, ($2222),y
|
|
_op_lo lda, {arg1}
|
|
sta (arg2),y
|
|
iny
|
|
_op_hi lda, {arg1}
|
|
sta (arg2),y
|
|
.else
|
|
.error "Indirect indexed required at least one use of y reg"
|
|
.endif
|
|
.endmacro
|
|
|
|
|
|
;;; Compare 16-bit values
|
|
;;; cmp16 #$1111, #$2222 ; immediate, immediate (silly, but supported)
|
|
;;; cmp16 #$1111, $2222 ; immediate, absolute
|
|
;;; cmp16 $1111, #$2222 ; absolute, immediate
|
|
;;; cmp16 $1111, $2222 ; absolute, absolute
|
|
;;; cmp16 $1111,x, $2222 ; indirect, absolute
|
|
;;; cmp16 $1111, $2222,x ; absolute, indirect
|
|
.macro cmp16 arg1, arg2, arg3
|
|
.if _is_register {arg2}
|
|
;; indexed variant (arg2 is x or y)
|
|
lda arg1,arg2
|
|
cmp arg3
|
|
lda arg1+1,arg2
|
|
sbc arg3+1
|
|
.elseif _is_register {arg3}
|
|
;; indexed variant (arg3 is x or y)
|
|
lda arg1
|
|
cmp arg2,arg3
|
|
lda arg1+1
|
|
sbc arg2+1,arg3
|
|
.else
|
|
_op_lo lda, {arg1}
|
|
_op_lo cmp, {arg2}
|
|
_op_hi lda, {arg1}
|
|
_op_hi sbc, {arg2}
|
|
.endif
|
|
.endmacro
|
|
|
|
;;; Shift 16-bit values
|
|
;;; lsr16 $1111 ; absolute
|
|
.macro lsr16 arg1
|
|
lsr arg1+1
|
|
ror arg1
|
|
.endmacro
|
|
|
|
;;; asl16 $1111 ; absolute
|
|
.macro asl16 arg1
|
|
asl arg1
|
|
rol arg1+1
|
|
.endmacro
|
|
|
|
;;; Increment 16-bit value
|
|
.macro inc16 arg
|
|
.local skip
|
|
inc arg
|
|
bne skip
|
|
inc arg+1
|
|
skip:
|
|
.endmacro
|
|
|
|
;;; Decrement 16-bit value
|
|
.macro dec16 arg
|
|
.local skip
|
|
lda arg
|
|
bne skip
|
|
dec arg+1
|
|
skip: dec arg
|
|
.endmacro
|
|
|
|
;;; Helper macros to set up a scoped block of parameters at a pre-determined
|
|
;;; address.
|
|
;;;
|
|
;;; Note: to use this macro, your cfg must have a BSS segment:
|
|
;;; (BSS: load = BSS, type = bss)
|
|
;;;
|
|
;;; Example:
|
|
;;; .proc my_function
|
|
;;; PARAM_BLOCK params, $82
|
|
;;; arg1: .res 1
|
|
;;; arg2: .res 2
|
|
;;; arg3: .res 2
|
|
;;; END_PARAM_BLOCK
|
|
;;;
|
|
;;; lda params::arg1 ; equiv. to lda $82
|
|
;;; lda params::arg2 ; equiv. to lda $83
|
|
;;; lda params::arg3 ; equiv. to lda $85
|
|
;;;
|
|
.macro PARAM_BLOCK name, addr
|
|
name := addr
|
|
.scope name
|
|
saved_org := *
|
|
.pushseg
|
|
.bss
|
|
.org addr
|
|
start := *
|
|
.endmacro
|
|
|
|
.macro END_PARAM_BLOCK
|
|
size := * - start
|
|
.popseg
|
|
.org saved_org
|
|
.endscope
|
|
.endmacro
|
|
|
|
;;; ============================================================
|
|
;;; Structure Helpers
|
|
;;; ============================================================
|
|
|
|
.macro COPY_BYTES size, src, dst
|
|
.scope
|
|
ldx #size - 1
|
|
loop: lda src,x
|
|
sta dst,x
|
|
dex
|
|
bpl loop
|
|
.endscope
|
|
.endmacro
|
|
|
|
.macro COPY_STRUCT type, src, dst
|
|
COPY_BYTES .sizeof(type), src, dst
|
|
.endmacro
|
|
|
|
.macro COPY_BLOCK block, dst
|
|
COPY_BYTES .sizeof(block), block, dst
|
|
.endmacro
|