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C02/x16/include/veramem.a02

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; Vera Memory Access Assembly Language Routines for C02
; Requires External Routines RESRXY, SETDST, and SETSRC
; and External Variables TEMP0 and TEMP1
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;Vera External Registers
;$9F20 Address LSB
;$9F21 Address MSB
;$9F22 Auto-Increment and Address Bank
;$9F23 Data Port 0
;$9F24 Data Port 1
;$9F25 Control Register
;$9F26 Interrupt Enable
;$9F27 Interrupt Status
;asladr() - Shift Vera Address Left`
;Args: X = Number of Bits to Shift
;Updates: TEMP0 = Bank
; TEMP1 = Address LSB
; TEMP3 = Address MSB
;Returns: A = Bank
; Y,X = Address
ASLADR: ASL TEMP1 ;Shift LSB Left
ROL TEMP2 ;Rotate Carry Left into MSB
ROL TEMP0 ;Rotate Carry Left into LSB
DEX ;Decrement Shift Count
BNE ASLADR ;and Loop if Not Zero
BRA RESREG ;Return Bank, MSB, LSB
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;chkadr(opts,addr) - Check Vera Address
;Args: A = Bank + Auto-Increment
; Y,X = Address
;Returns: A = $00 - Address is Invalid
; $FF - Address is Valid
CHKADR: AND #$0F ;Isolate Bank
CMP #$0F ;If Registers
BEQ GETVRT ; Return True
CMP #$02 ;Else If <2
BCS GETVRT ; Return True
LDA #$0 ;Else Return False
RTS
;clrmem(count) - Write Array to Vera Memory
;Args: A = Number of Bytes to Clear
;Returns: A,Y = 0
; X = Current Data Port
CLRMEM: TAY ;Copy Number of Bytes to Y
LDA #0 ;Set Write Value to Zero
;filmem(byte, count) - Fill Vera Memory with Byte
;Args: A = Byte to Fill Memory With
; Y = Number of Bytes to Fill
;Returns: Y = 0
; X = Current Data Port
FILMEM LDX $9F25 ;Get Current Data Port
FILMEL: STA $9F23,X ;Write Byte to Data Port
DEY ;Decrement Counter
BNE FILMEL ;If Not Zero Loop
RTS
;getadr() - Get Vera Address
;Args: A = Bank + Auto-Increment
; Y,X = Address
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GETADR: LDX $9F20 ;Read Address LSB
LDY $9F21 ;Read Address MSB
LDA $9F22 ;Read Bank & Auto-Increment
RTS
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;getvrb(&addr) - Get Vera Register Bit Status
;Args: A = Bit Mask
; Y,X = Address
;Returns: A = Mode
; X = Current Data Port
GETVRB: STA TEMP0 ;Save Bit Mask
JSR GETVRG ;Read Register
AND TEMP0 ;Mask Register Bit
BEQ GETVRX ;If Set
GETVRT: LDA #$FF ; Return TRUE
GETVRX: RTS ;Else Return FALSE
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;getvrg(&addr) - Read Vera Internal Register
;Args: Y,X = Address
;Returns: A = Mode
; X = Current Data Port
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GETVRG: LDA #$0F ;Set Bank to Registers
;and Execute GETBYT
;getbyt(&addr);
;Args: A = Bank
; Y,X = Address
;Affects: Y
;Returns: A = Contents of Memory
; X = Current Data Port
GETBYT: JSR SETADR ;Set Vera Address
LDX $9F25 ;Get Current Data Port
LDA $9F23,X ;Read LSB from Data Port
RTS
;getmem(count, &addr) - Read Array From Vera Memory
;Args: A = Number of Bytes to Read
; Y,X = Address of Array to Read Into
;Requires: setadr()
;Sets: DSTLO,DSTHI = Address of Array
; TEMP0 = Number of Bytes to Read
;Affects: A
;Returns: Y = Number of Bytes Read
; X = Current Data Port
GETMEM: JSR SETDST ;Save Destination Address
GETMEA: STA TEMP0 ;Save Number of Bytes
LDY #0 ;Initialize Counter
LDX $9F25 ;Get Current Data Port
GETMEL: LDA $9F23,X ;Read Byte from Data Port
STA (DSTLO),Y ;Store in Memory
INY ;Increment Counter
CPY TEMP0 ;If Limit Not Reached
BNE GETMEL ; Loop
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TYA ;Return Count
RTS
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;getvri(addr); Read Vera Register Pair
;Args: Y,X = Address
;Returns: A,X = Integer LSB
; Y = Integer LSB
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GETVRI: LDA #$0F ;Set Bank to Registers
;getint(addr); Read Integer from Vera Memory
;Args: A = Bank
; Y,X = Address
;Returns: A,X = Integer LSB
; Y = Integer LSB
GETINT: AND #$0F ;Set Auto-Increment to 1
ORA #$10
JSR SETADR ;Set Vera Address
LDX $9F25 ;Get Current Data Port
LDA $9F23,X ;Read LSB from Data Port
LDY $9F23,X ;Read MSB Data Port
TAX ;Copy LSB to X
RTS
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;regadr(addr) - Set Vera Address to Internal Register
;Args: Y,X = Register Address
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;Returns: A = Bank | Auto-Increment
REGADR: LDA #$0F ;Set Bank and Auto-Increment
;setadi(bank,addr) - Set Vera Address with Auto-Increment
;Args: A = Bank
; Y,X = Address
SETADI: ORA #$10 ;Set Auto-Increment to 1
;setadr(opts,addr) - Set Vera Address
;Args: A = Bank + Auto-Increment
; Y,X = Address
SETADR: STX $9F20 ;Store Address LSB
STY $9F21 ;Store Address MSB
STA $9F22 ;Store Bank & Auto-Increment
RTS
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;setvrb(bits, &addr) - Set Vera Register Bits
;Args: A = Bit Pattern
; Y,X = Address
;Uses: TEMP0 = Bit Mask
;Sets: TEMP1 = Bit Pattern
;Affects: A,Y,X
SETVRB: STA TEMP1 ;Save Bit Pattern
JSR GETVRG ;Read Register
AND TEMP0 ;Mask Result
ORA TEMP1 ;Set Bits
BRA SETBYN ;Write Back to Register
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;setreg(addr) - Set Register
;Args: A = Value to Write
; Y,X = Address
;Sets: TEMP0 = Value to Write
;Returns: A = Value Written
; X = Current Data Port
SETREG: STA TEMP0 ;Save Value to Write
SETREH: LDA #$0F ;Set Bank, Auto-Increment
;setbyt(addr) - Write Byte to Vera Memory
;Args: A = Bank
; Y,X = Address
;Uses: TEMP0 = Value to Write
;Returns: A = Value Written
; X = Current Data Port
SETBYT: JSR SETADR ;Set Vera Address
LDA TEMP0 ;Retrieve Value to Write
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SETBYN: LDX $9F25 ;Get Current Data Port
STA $9F23,X ;Write Value to Data Port
RTS
;setrei(addr) - Set Vera Register to Integer
;Args: Y,X = Address
;Uses: TEMP1,TEMP2 = Integer Value
;Affects: A,Y
;Returns: X = Current Data Port
SETREI: LDA #$0F ;Set Bank to Registers
;setina(addr) - Write Integer to Vera Address
;Args: A = Bank
; Y,X = Address
;Uses: TEMP1,TEMP2 = Integer Value
;Affects: A,Y
;Returns: X = Current Data Port
SETINA: ORA #$10 ;Set Auto-Increment to 1
JSR SETADR ;Set Vera Address
JSR RESRXY ;Restore Integer into Y,X
;setint(addr) - Write Integer to Vera Memory
;Args: Y,X = Integer to Write
;Requires: setadr();
;Affects: A,Y
;Returns: X = Current Data Port
SETINT: TXA ;Copy LSB to Accumlator
LDX $9F25 ;Get Current Data Port
STA $9F23,X ;Write to Data Port
TYA ;Copy MSB to Accumlator
STA $9F23,X ;Write to Data Port
RTS
;setmem(count, &addr) - Write Array to Vera Memory
;Args: A = Number of Bytes to Write
; Y,X = Address of Array to Write From
;Requires: setadr()
;Sets: SRCLO,SRCHI = Address of Array
; TEMP0 = Number of Bytes to Write
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;Returns: A,Y = Number of Bytes Written
; X = Current Data Port
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SETMEM: JSR SETSRC ;Save Source Address
SETMET: STA TEMP0 ;Save Number of Bytes
SETMEA: LDX $9F25 ;Get Current Data Port
LDY #0 ;Initialize Counter
SETMEL: LDA (SRCLO),Y ;Read Byte from Array
STA $9F23,X ;Write Byte to Data Port
INY ;Increment Counter
CPY TEMP0 ;If Limit Not Reached
BNE SETMEL ; Loop
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TYA ;Return Count
RTS