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https://github.com/elliotnunn/supermario.git
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221 lines
7.5 KiB
Plaintext
221 lines
7.5 KiB
Plaintext
;EASE$$$ READ ONLY COPY of file “IOPDefs.aii”
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; 1.2 CCH 07/08/1989 Added EASE comments to file.
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;•1.1 GGD 06/15/1989 Updated to use equates for the latest rev of the IOP chip,
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; re-formated tab stops in source.
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; 1.0 CCH 11/ 9/1988 Adding to EASE.
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; END EASE MODIFICATION HISTORY
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macro
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assert &boolExpr
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if not(&Eval(&boolExpr)) then
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aerror &concat('Assertion Failed - ',&boolExpr)
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endif
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endm
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; 65C02 definitions
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pswC equ %00000001 ; carry bit
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pswZ equ %00000010 ; zero bit
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pswI equ %00000100 ; interrupt bit
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pswD equ %00001000 ; decimal bit
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pswB equ %00010000 ; break bit
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psw5 equ %00100000 ; bit 5 unused
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pswV equ %01000000 ; overflow bit
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pswN equ %10000000 ; negative bit
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StackPage equ $0100 ; page 1 is the stack
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vNMI equ $FFFA ; non-maskable interrupt
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vRESET equ $FFFC ; reset vector
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vINT equ $FFFE ; interrupt vector
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; IOP Hardware offsets
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IOBase equ $F000 ; base of I/O space
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; TIMER Hardware Control
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TimerCounterL equ IOBase+$10 ; (RW) Timer low counter (latch on write)
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TimerCounterH equ IOBase+$11 ; (RW) Timer high counter (load on write)
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TimerLatchL equ IOBase+$12 ; (RW) Timer low latch
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TimerLatchH equ IOBase+$13 ; (RW) Timer high latch
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; DMA Hardware Control
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DMA1Control equ IOBase+$20 ; (RW) DMA channel 1 control
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DMAEN1 equ %00000001 ; enable DMA channel 1
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DREQ1 equ %00000010 ; DMA request 1 active
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DMADIR1 equ %00000100 ; transfer I/O to RAM
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DEN1ON2 equ %00001000 ; start DMA 1 after DMA 2 complete
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IOA1 equ %00010000 ; DMA I/O address
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DMA1RAMAddressL equ IOBase+$21 ; (RW) DMA channel 1 RAM address low byte
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DMA1RAMAddressH equ IOBase+$22 ; (RW) DMA channel 1 RAM address high byte
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DMA1XferCountL equ IOBase+$23 ; (RW) DMA channel 1 transfer count low byte
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DMA1XferCountH equ IOBase+$24 ; (RW) DMA channel 1 transfer count high byte
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DMA2Control equ IOBase+$28 ; (RW) DMA channel 2 control
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DMAEN2 equ %00000001 ; enable DMA channel 2
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DREQ2 equ %00000010 ; DMA request 2 active
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DMADIR2 equ %00000100 ; transfer I/O to RAM
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DEN2ON1 equ %00001000 ; start DMA 2 after DMA 1 complete
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IOA2 equ %00010000 ; DMA I/O address
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DMA2RAMAddressL equ IOBase+$29 ; (RW) DMA channel 2 RAM address low byte
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DMA2RAMAddressH equ IOBase+$2A ; (RW) DMA channel 2 RAM address high byte
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DMA2XferCountL equ IOBase+$2B ; (RW) DMA channel 2 transfer count low byte
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DMA2XferCountH equ IOBase+$2C ; (RW) DMA channel 2 transfer count high byte
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; Miscelaneous Hardware Control
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SCCControlReg equ IOBase+$30 ; (RW) SCC control register
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BYPASS equ %00000001 ; Host processor controls SCC/ISM
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SCCISM equ %00000010 ; ISM port
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* equ %00000100 ; unused
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RTXCA equ %00001000 ; selects SCC channel A clock source
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RTXCB equ %00100000 ; selects SCC channel B clock source
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GPOUT1 equ %10000000 ; general purpose output 1
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RTXC3MHz equ %00 ; 3.6864MHz
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RTXCDPCLK equ %01 ; DPCLK/10
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RTXCDPLLOut equ %10 ; Digital phase locked loop output
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RTXCGPI equ %11 ; GPIA or GPIB
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IOControlReg equ IOBase+$31 ; (RW) I/O Control register
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IODurationCount equ %00000001 ; I/O duration count
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IODelayCount equ %00010000 ; I/O delay count
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TimerDPLLctl equ IOBase+$32 ; (RW) Timer/DPLL control
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CONT equ %00000001 ; timer continuous mode
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GPOUT0 equ %00000010 ; general purpose output 0
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GPIN0 equ %00000100 ; general purpose input 0
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GPIN1 equ %00001000 ; general purpose input 1
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DPLL1EN equ %00010000 ; DPLL 1 enabled
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CRSNS1 equ %00100000 ; carrier present on RXDA
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DPLL2EN equ %01000000 ; DPLL 2 enabled
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CRSNS2 equ %10000000 ; carrier present on RXDB
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InterruptMask equ IOBase+$33 ; (RW) Interrupt Mask Register
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DMA1ENI equ %00000010 ; enable DMA channel 1 interrupts
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DMA2ENI equ %00000100 ; enable DMA channel 2 interrupts
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SCCENI equ %00001000 ; enable SCC interrupts
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HSTENI equ %00010000 ; enable interrupts from the host processor
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TMRENI equ %00100000 ; enable timer interrupts
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InterruptReg equ IOBase+$34 ; (RW) Interrupt Register
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DMA1INT equ %00000010 ; DMA channel 1 interrupt
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DMA2INT equ %00000100 ; DMA channel 2 interrupt
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SCCINT equ %00001000 ; SCC interrupt
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HSTINT equ %00010000 ; interrupt from the host processor
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TMRINT equ %00100000 ; timer interrupt
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HostControl equ IOBase+$35 ; (RW) Host Register
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INTHST0 equ %00000100 ; host interrupt 0 active
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INTHST1 equ %00001000 ; host interrupt 1 active
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MsgCompletedINT equ INTHST0 ; indicates message in MessageCompleted state
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NewMsgSentINT equ INTHST1 ; indicates message in NewMessageSent state
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; IOP Shared Memory Addresses
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RCVMsgBase equ $0200 ; receive message page
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RCVMsgMax equ RCVMsgBase+$00 ; Highest receive message number
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RCVMsg1State equ RCVMsgBase+$01 ; receive message 1 state
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RCVMsg2State equ RCVMsgBase+$02 ; receive message 2 state
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RCVMsg3State equ RCVMsgBase+$03 ; receive message 3 state
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RCVMsg4State equ RCVMsgBase+$04 ; receive message 4 state
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RCVMsg5State equ RCVMsgBase+$05 ; receive message 5 state
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RCVMsg6State equ RCVMsgBase+$06 ; receive message 6 state
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RCVMsg7State equ RCVMsgBase+$07 ; receive message 7 state
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PatchReq equ RCVMsgBase+$1F ; Host wants to patch IOP code
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RCVMsg1Data equ RCVMsgBase+$20 ; receive message 1 data
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RCVMsg2Data equ RCVMsgBase+$40 ; receive message 2 data
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RCVMsg3Data equ RCVMsgBase+$60 ; receive message 3 data
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RCVMsg4Data equ RCVMsgBase+$80 ; receive message 4 data
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RCVMsg5Data equ RCVMsgBase+$A0 ; receive message 5 data
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RCVMsg6Data equ RCVMsgBase+$C0 ; receive message 6 data
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RCVMsg7Data equ RCVMsgBase+$E0 ; receive message 7 data
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XMTMsgBase equ $0300 ; transmit message page
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XMTMsgMax equ XMTMsgBase+$00 ; Highest transmit message number
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XMTMsg1State equ XMTMsgBase+$01 ; transmit message 1 state
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XMTMsg2State equ XMTMsgBase+$02 ; transmit message 2 state
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XMTMsg3State equ XMTMsgBase+$03 ; transmit message 3 state
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XMTMsg4State equ XMTMsgBase+$04 ; transmit message 4 state
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XMTMsg5State equ XMTMsgBase+$05 ; transmit message 5 state
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XMTMsg6State equ XMTMsgBase+$06 ; transmit message 6 state
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XMTMsg7State equ XMTMsgBase+$07 ; transmit message 7 state
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Alive equ XMTMsgBase+$1F ; IOP is alive flag
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XMTMsg1Data equ XMTMsgBase+$20 ; transmit message 1 data
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XMTMsg2Data equ XMTMsgBase+$40 ; transmit message 2 data
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XMTMsg3Data equ XMTMsgBase+$60 ; transmit message 3 data
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XMTMsg4Data equ XMTMsgBase+$80 ; transmit message 4 data
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XMTMsg5Data equ XMTMsgBase+$A0 ; transmit message 5 data
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XMTMsg6Data equ XMTMsgBase+$C0 ; transmit message 6 data
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XMTMsg7Data equ XMTMsgBase+$E0 ; transmit message 7 data
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; IOP Message States
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Idle equ 0 ; message buffer idle
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NewMessageSent equ 1 ; new message arrived
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MessageReceived equ 2 ; message being processed
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MessageCompleted equ 3 ; request completed
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; Block Copy Message Assignments
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BCxmtState equ XMTMsg1State
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BCxmtData equ XMTMsg1Data
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; Block Copy Driver request format
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bcIOPtoHOST equ $00
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bcHOSTtoIOP equ $01
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bcCompare equ $02
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bcReqCmd equ BCxmtData+$00 ; (byte) Request Kind
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bcReqByteCount equ BCxmtData+$02 ; (word) transfer byte count
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bcReqHostAddr equ BCxmtData+$04 ; (long) host RAM address
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bcReqIopAddr equ BCxmtData+$08 ; (word) IOP RAM address
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bcReqCompRel equ BCxmtData+$0A ; (byte) Compare Relation (output)
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; TMPB Time constants (1 tick = 256 clocks @1.9584MHz = 130.71895 uSec)
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TMPB1second equ 7650 ; 1 second
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TMPB100ms equ TMPB1second/10 ; 100 milliseconds
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TMPB10ms equ TMPB1second/100 ; 10 milliseconds
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TMPB1ms equ TMPB1second/1000 ; 1 millisecond
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