supermario/base/SuperMarioProj.1994-02-09/Drivers/Video/JMFBDepVideoEqu.a

;
;	File:		JMFBDepVideoEqu.a
;
;	Contains:	Hardware-specific equates for the 4•8/8•24 Cards.
;
;	Written by:	Casey King/Mike Puckett
;
;	Copyright:	© 1986-1993 by Apple Computer, Inc., all rights reserved.
;
;   This file is used in these builds: Mac32
;
;
;	Change History (most recent first):
;
;	   <SM2>	 6/14/93	kc		Roll in Ludwig.
;	   <LW2>	 3/24/93	mal		Removed block xfer equ's that are now in ROMEqu.a.
;		 <1>	  1/7/92	RB		first checked in
;	=============== Terror History ========================
;
;		 <4>	  4/4/91	jmp		Cleaned up conditional assembly stuff (i.e., started using
;									ForRom instead of PadForOverPatch).
;		 <3>	 2/25/91	jmp		Rolled in Casey’s latest version, and extracted out the
;									TERROR-ROM only stuff (to be INCLUDE’d from ComVideoEqu.a).
;		 <2>	  1/7/91	jmp		Prior to my last full build and checking this file in, I somehow
;									deleted the word “Version” from “RAMVersion” in this file
;									causing the TERROR build to break. Oops. I guess I’ll do builds
;									AFTER I check things back in next time. Sorry BG.
;		 <1>	  1/6/91	jmp		Checked into TERROR ROM for first time.
;		 <0>	11/19/90	jmp		Formatted for use with TERROR ROM (as opposed to a
;									declaration ROM), removed duplicate equates, etc….

;-------------------------------------------------------------------
;
; (c) Apple Computer, Inc.	1986-1990
; All rights reserved.
;
;-------------------------------------------------------------------
;
;	File   			: ElmerRom.a
;	Author			: Casey KIng
;
;	These are the configuration ROM equates that are specific only to 
;	the MegaDeth Video Card.  This includes mode information such as
;	resolution and physical rowbytes, as well as hardware control 
;	registers on the card itself.
;
;-------------------------------------------------------------------
;	Mod History :
;
;		Refer to Projetor change history for revision details
;-------------------------------------------------------------------

					If ForROM Then
					Include 'ComVideoEqu.a'
					EndIf

;---------------------------------------------------
; 
; Rowbytes and page count constants
;
;	These constants are closely interrelated, so check them carefully.
;	
;---------------------------------------------------

; Kong rowbytes as a f(mode)
OBM100RB			EQU		144			
TBM100RB			EQU		288			
FBM100RB			EQU		576			
EBM100RB			EQU	   	1152		
TFBM100RB			EQU		  0

; Portrait rowbytes as a f(mode)
OBM57RB				EQU		 80
TBM57RB				EQU		160
FBM57RB				EQU		320
EBM57RB				EQU		640
TFBM57RB			EQU		  0

; Standard rowbytes as a f(mode)
OBM30RB				EQU		 80			
TBM30RB				EQU		160
FBM30RB				EQU		320
EBM30RB				EQU		640
TFBM30RB			EQU	   2560			; 2560 for quickdraw, 1920 for JMFB 

; Rubik rowbytes as a f(mode)
OBM16RB				EQU		 64			
TBM16RB				EQU		128
FBM16RB				EQU		256
EBM16RB				EQU		512
TFBM16RB			EQU	   2048			

; Exact non convolved PAL overscan (768 x 576) rowbytes as a f(mode).
OBM14RB				EQU		1024
TBM14RB				EQU		1024
FBM14RB				EQU		1024
EBM14RB				EQU		  0
TFBM14RB			EQU		  0

; Exact non convolved PAL underscan (616 x 518) rowbytes as a f(mode).
OBM14uRB			EQU		1024		; round 77 up to power of 2
TBM14uRB			EQU		1024		; round 154 up to power of 2
FBM14uRB			EQU		1024		; round 308 up to power of 2
EBM14uRB			EQU		1024
TFBM14uRB			EQU		2560	; ** use the same value as rs170, because the exact value (2456) is incompatible
									; ** with the size of the JMFB rowbytes register (long aligned).

; Convolution cases for PAL rowbytes as a f(mode)
OBM14CRB			EQU	   1024	 
TBM14CRB			EQU	   1024
FBM14CRB			EQU	   1024
EBM14CRB			EQU	   1024
TFBM14CRB			EQU		  0

; Exact NTSC rowbytes as a f(mode).  These are not used.
OBM12RB				EQU		 80
TBM12RB				EQU		160
FBM12RB				EQU		320
EBM12RB				EQU		640
TFBM12RB			EQU	   2560			; 2560 for quickdraw, 1920 for JMFB 

; NTSC rowbytes as a f(mode)
OBM12CRB			EQU	   1024	 
TBM12CRB			EQU	   1024
FBM12CRB			EQU	   1024
EBM12CRB			EQU	   1024
TFBM12CRB			EQU		2560

; All page counts are now zero based!!! Only GetPage will return nonzero based counts!
; Kong page counts as a f(mode) 
OBMPages100A		EQU		3		
OBMPages100B		EQU		7
TBMPages100A		EQU		1
TBMPages100B		EQU		3
FBMPages100A		EQU	    0
FBMPages100B		EQU		1
EBMPages100A		EQU		-1			; not enough memory so its an invalid mode
EBMPages100B		EQU		0
TFBMPages100A		EQU		-1			; invalid mode so page count is invalid
TFBMPages100B		EQU		-1			; invalid mode so page count is invalid

; Portrait page counts as a f(mode)
OBMPages57A			EQU		6
OBMPages57B			EQU		14
TBMPages57A			EQU		2
TBMPages57B			EQU		6
FBMPages57A			EQU	    0
FBMPages57B			EQU		2
EBMPages57A			EQU		-1
EBMPages57B			EQU		0
TFBMPages57A		EQU		-1
TFBMPages57B		EQU		-1

; Standard page counts as a f(mode)
OBMPages30A			EQU		12
OBMPages30B			EQU		26
TBMPages30A			EQU		 5
TBMPages30B			EQU		12
FBMPages30A			EQU		 2
FBMPages30B			EQU		 5
EBMPages30A			EQU		 0
EBMPages30B			EQU		 2
TFBMPages30A		EQU		 -1
TFBMPages30B		EQU		 0

; Rubik page counts as a f(mode)
OBMPages16A			EQU		20			
OBMPages16B			EQU		41
TBMPages16A			EQU		9
TBMPages16B			EQU		20
FBMPages16A			EQU		4
FBMPages16B			EQU		9
EBMPages16A			EQU		1
EBMPages16B			EQU		4
TFBMPages16A		EQU		-1
TFBMPages16B		EQU		0

; PAL page counts as a f(mode), u stands for underscan, otherwise overscan
OBMPages14A			EQU		 0				
OBMPages14Au		EQU		 0				
TBMPages14A			EQU		 0
TBMPages14Au		EQU		 0
FBMPages14A			EQU		 0
FBMPages14Au		EQU		 0
EBMPages14A			EQU		 0
EBMPages14Au		EQU		 0
TFBMPages14A		EQU		 -1
TFBMPages14Au		EQU		 -1
TFBMPages14Bu		EQU		0				; there is no overscan PAL 24 bpp!				

; PAL Convolution page counts as a f(mode)
OBMPages14CB		EQU		 0
TBMPages14CB		EQU		 0
FBMPages14CB		EQU		 0
EBMPages14CB		EQU		 0
TFBMPages14CB		EQU		 -1

; NTSC page counts as a f(mode)
OBMPages12A			EQU		 0				; use same rowbytes as convolution
OBMPages12B			EQU		 1
TBMPages12A			EQU		 0
TBMPages12B			EQU		 1
FBMPages12A			EQU		 0
FBMPages12B			EQU		 1
EBMPages12A			EQU		 0
EBMPages12B			EQU		 1
TFBMPages12A		EQU		 -1
TFBMPages12B		EQU		 0

; Convolution page counts as a f(mode)
OBMPages12CA		EQU		 0
OBMPages12CB		EQU		 1
TBMPages12CA		EQU		 0
TBMPages12CB		EQU		 1
FBMPages12CA		EQU		 0
FBMPages12CB		EQU		 1
EBMPages12CA		EQU		 0
EBMPages12CB		EQU		 1
TFBMPages12CA		EQU		 -1
TFBMPages12CB		EQU		 -1

; Invalid page count 
InvalPageCnt		EQU		-1

; Gray Screen Patterns
OneBitGray			EQU		$AAAAAAAA
TwoBitGray			EQU		$CCCCCCCC
FourBitGray			EQU		$F0F0F0F0
EightBitGray		EQU		$FF00FF00
TwentyFourBitGray	EQU		$00000000		; upper byte is padding and is not used
											; note 24 bpp dither appears backwards, but it's not!

; Invalid sRsrc ID  (used to build up spID for mode to be disabled in interlaced modes)

InvalidSRsrcID		EQU		$F0

; Flag bits for sResource ID
fSRsrcBigScrnBit	EQU		0				; indicates if Portrait or Kong monitor (bit0 = 1 if true)
fSRsrcRGBBit		EQU		2				; indicates if monitor is BW or RGB (significant for Big Screens only)
fSRsrcOscanBit		EQU		3				; indicates if in interlaced overscan mode (must be interlaced mode)
fSRsrc24Bit			EQU		4				; indicates whether the sRsrc is based on 24 bit address or 32
fSRsrcXMemBit		EQU		5				; indicates whether the sRsrc is extended memory or not
fSRsrcMSBBit		EQU		7				; simply the most significant bit of the 8 bit sResource ID

; Raw Sense Line IDs
RGBKong				EQU		0				; raw sense line combo for RGBKong
Kong				EQU		3				; reformated sense line for all Kongs (x11)
Portrait			EQU		1				; reformated sense line for all Portraits (x01)
Standard			EQU		6
_NTSC_				EQU		4
Rubik				EQU		2
NoSense				EQU		7
Sarnoff				EQU		$14				; breakout box xtnd sense = 010100
PAL					EQU		$00				; breakout box PAL xtnd sense = 000000
PALmonitor			EQU		$30				; PAL monitor xtnded sense code = 110000
; Reformatted Sense Line ID's
rRGBKong			EQU		7
rPAL				EQU		0

; monitor sense mask for sResource ID (low 3 bits)
monSenseMask		EQU		7

; Value for b1:b0 in reformatted sense line ID to signify interlaced monitor connect (low 2 bits)
interlacedScreen	EQU		0 				; (bits 0:1 = 0, refer to Karnaugh map in ERS)

; Mode IDs (zero based)
Mode1BPP			EQU		0
Mode2BPP			EQU		1
Mode4BPP			EQU		2
Mode8BPP			EQU		3
Mode24BPP			EQU		4

; Mode Depth IDs
Depth1BPP			EQU		1
Depth2BPP			EQU		2
Depth4BPP			EQU		4
Depth8BPP			EQU		8
Depth24BPP			EQU	   16				

; Miscellaneous
LongDelay			EQU		1000			; long delay used in pinit h/w setup due to natl clk setup
ShortDelay			EQU		5				; short delay used in drvr
sRsrcDisable		EQU		1				; used to tell the slot mgr to disable a sRsrc
readBC				EQU		4				; used in the xtended sense scheme (drive a hi, read b and c)
readAC				EQU		2				; used in the xtended sense scheme (drive b hi, read a and c)
readAB				EQU		1				; used in the xtended sense scheme (drive c hi, read a and b)


;---------------------------------------------------
;
; Screen configuration / Bounds information
;
;---------------------------------------------------

defmBounds_T100		EQU		0							; top in 100MHz mode
defmBounds_L100		EQU		0							; left in 100MHz mode
defmBounds_B100		EQU		870							; bottom in 100MHz mode
defmBounds_R100		EQU		1152						; right in 100MHz mode

defmBounds_T57		EQU		0							; top in 58MHz mode
defmBounds_L57		EQU		0							; left in 58MHz mode
defmBounds_B57		EQU		870							; bottom in 58MHz mode
defmBounds_R57		EQU		640							; right in 58MHz mode

defmBounds_T30		EQU		0							; top in 30MHz mode
defmBounds_L30		EQU		0							; left in 30MHz mode
defmBounds_B30		EQU		480							; bottom in 30MHz mode
defmBounds_R30		EQU		640							; right in 30MHz mode

defmBounds_T16		EQU		0							; top in 16MHz mode
defmBounds_L16		EQU		0							; left in 16MHz mode
defmBounds_B16		EQU		384							; bottom in 16MHz mode
defmBounds_R16		EQU		512							; right in 16MHz mode

defmBounds_T14		EQU		0							; top in 14MHz mode
defmBounds_L14		EQU		0							; left in 14MHz mode
defmBounds_B14		EQU		576							; bottom in 14MHz mode
defmBounds_R14		EQU		768							; right in 14MHz mode

defmBounds_T14u		EQU		0							; top in 14MHz mode
defmBounds_L14u		EQU		0							; left in 14MHz mode
defmBounds_B14u		EQU		480							; bottom in 14MHz mode
defmBounds_R14u		EQU		640							; right in 14MHz mode

defmBounds_T12		EQU		0							; top in 12MHz mode
defmBounds_L12		EQU		0							; left in 12MHz mode
defmBounds_B12		EQU		480							; bottom in 12MHz mode
defmBounds_R12		EQU		640							; right in 12MHz mode

defmBounds_T12u		EQU		0							; top in 12MHz mode
defmBounds_L12u		EQU		0							; left in 12MHz mode
defmBounds_B12u		EQU		384							; bottom in 12MHz mode
defmBounds_R12u		EQU		512							; right in 12MHz mode

defmBounds_T12C		EQU		0							; top in 12MHz mode
defmBounds_L12C		EQU		0							; left in 12MHz mode
defmBounds_B12C		EQU		480							; bottom in 12MHz mode
defmBounds_R12C		EQU		640							; right in 12MHz mode

defVersion			EQU		0							; Version = 0

; The format of the following fields is upper 16 bits = integer part, and lower 16 bits = fractional part

defmHRes12			EQU		$480000						; (72 dpi) Horizontal Pixels/inch
defmVRes12			EQU		$480000						; (72 dpi) Vertical pixels/inch
defmHRes14			EQU		$480000						; (72 dpi) Horizontal Pixels/inch
defmVRes14			EQU		$480000						; (72 dpi) Vertical pixels/inch
defmHRes16			EQU		$480000						; (72 dpi) Horizontal Pixels/inch
defmVRes16			EQU		$480000						; (72 dpi) Vertical pixels/inch
defmHRes30			EQU		$480000						; (72 dpi) Horizontal Pixels/inch
defmVRes30			EQU		$480000						; (72 dpi) Vertical pixels/inch
defmHRes57			EQU		$500000						; (80 dpi) Horizontal Pixels/inch for Portrait Display
defmVRes57			EQU		$500000						; (80 dpi) Vertical pixels/inch for Portrait Display
defmHRes100			EQU		$4D0000						; (77 dpi) Horizontal Pixels/inch for 2-Page Display
defmVRes100			EQU		$4D0000						; (77 dpi) Vertical pixels/inch for 2-Page Display

defPixelType		EQU		0							; pixeltype=chunky
chunkyDirect		EQU		16							; pixeltype=chunky direct
defCmpCount			EQU		1							; Number of components in pixel
defmPlaneBytes		EQU		0							; Offset from one plane to the next
defmVertRefRate		EQU		75							; Vert refresh rate

defmDevType			EQU		0							; 0 = CLUTType


;---------------------------------------------------
;
; Hardware Definitions
;
;---------------------------------------------------

defMinorBase		EQU		0							; Video RAM Offset is 0
defmBaseOffset		EQU		2560						; base offset for the little screens (12,14,16, and 30 MHz)
defmBaseOffset12	EQU		$2000						; Offset to base of vRAM for NTSC/PAL convolution only
convBOfix			EQU		$1400						; Base offset correction for interlaced convolution
specBaseOffset12	EQU		2560						; Special base offset for ntsc to be used in 24 bpp
defmBaseOffsetBS	EQU		$80							; Offset to base of vRAM for the big screens (Kong and Portrait)
defMinorLengthA		EQU		$80000						; Video RAM length on 512K card
defMinorLengthB		EQU		$100000						; Video RAM length on 1024K card

ROMSize				EQU		$4000						;16K byte ROM

JMFB				EQU		$200000						; Offset to JMFB Control Registers
Stopwatch			EQU		$200100						; Offset to Stopwatch Registers
CLUT				EQU		$200200						; Offset to CLUT Registers
Endeavor			EQU		$200300						; Offset to Endeavor Registers

JMFBCSR				EQU		$00							; Offset to Control and Status Register
JMFBLSR				EQU		$04							; Offset to Load/Sync Register
JMFBVideoBase		EQU		$08							
JMFBRowWords		EQU		$0C

SWICReg				EQU		$3C							; Offset to Stopwatch Interrupt/Control Register
SWStatusReg			EQU		$C0							; Offset to Stopwatch Status Registers (used to read Interrupt state)
SWClrVInt			EQU		$48							; Offset to Stopwatch Clear Vertical Interrupt

; Special bits in the JMFBCSReg and Stopwatch.  Refer to the parameter documentation and the 
; software ERS for a description of these flags and their importance in the hardware 
; initialization process.

REFEN				EQU		$8							; Refresh enable bit in JMFBCSR word
VIDGO				EQU		$40							; VideoTransfer Cycle Enable bit in JMFBCSR word 
PIXSEL1				EQU		$2000						; Endeavor reset bit (in the Natl board it's used to select 100 MHz or Natl)
VRSTB				EQU		$8000						; Master reset bit in JMFBCSR word
MaskSenseLine		EQU		$F1FF						; Masks off the 3 bit sense line in JMFB CSR

SRST				EQU		0							; soft reset for Stopwatch
ENVERTI				EQU		1							; enable vertical interrupts for Stopwatch
CLRNMRQ				EQU		0							; clear NMRQ~ interrupt for Stopwatch

; Offsets to the CLUT registers

CLUTAddrReg			EQU		$00							; Offset to CLUT Address Register
CLUTDataReg			EQU		$04							; Offset to CLUT Data Register
CLUTPBCR			EQU		$08							; Offset to CLUT Pixel Bus Control Register

; Offsets to the Endeavor registers

EndeavorM			EQU		$00							; Offset to Endeavor M register
EndeavorN			EQU		$04							; Offset to Endeavor N register
EndeavorExtClkSel	EQU		$08							; Offset to Endeavor External Clock Select
EndeavorReserved	EQU		$0C							; Endeavor Reserved

EndeavorID			EQU		$00
NationalID			EQU		$FFFF

ROM					EQU		$F0000


; RAM test locations

TestPos			EQU		1002240							; Right past 1152x870 first page

; Equates that are used in the driver for offsets to private storage which
;	is stored in the dCtlStorage field of the DCE.  It must be placed here
;	since 2ndInit must patch the DCE if it is the startup screen and we 
;	would like to use the symbolic reference.  The assembler does not do
;	forward referencing tho.

saveMode			EQU		0						; the current mode setting
savePage			EQU		saveMode+2				; the current page setting
saveBaseAddr 		EQU		savePage+2				; the current base address
saveSQElPtr 		EQU		saveBaseAddr+4			; the SQ element pointer (for _SIntRemove).
saveGammaPtr 		EQU		saveSQElPtr+4			; the pointer to the Gamma correction table
GFlags				EQU		saveGammaPtr+4			; flags word
saveVidParms		EQU		GFlags+2				; pointer to video configuration data
saveID				EQU		saveVidParms+4			; saved sense value
saveHardBase		EQU		saveID+2				; hardware base address
saveMonSense		EQU		saveHardBase+4			; reformatted sense line combo from videoOpen
moreGFlags			EQU		saveMonSense+2
saveGammaPtrHead	EQU		moreGFlags+2
dCtlSize			EQU		saveGammaPtrHead+4			; size of dCtlStorage

; Flags within GFlags word

GrayFlag		EQU		15						; luminance mapped if GFlags(GrayFlag) = 1
IntDisFlag		EQU		14						; interrupts disabled if GFlags(IntFlag) =1
RAM512KFlag		EQU		13						; 512K vidRAM if GFlags(RAM512K) = 1
MonoFlag		EQU		12						; true if monochrome monitor
Interlaced		EQU		11						; true if 12MHz NTSC mode
DirectModeFlag	EQU		10						; true if direct mode (24 BPP) otherwise indexed
BigScreen		EQU		9						; true if Kong or Portrait, false otherwise
sRsrc32Bit		EQU		8						; true if the spID indicates it's a 32 bit sRsrc

; Flags within moreGFlags word

UnderScanFlag	EQU		15
ConvOnFlag		EQU		14
PALFlag			EQU		13
NationalFlag	EQU		12

;
; Glue for slot manager and 32 BQD
;

UnImplTrapNum	EQU		$09F							; low 10 bits of trap number for NGetTrapAddress
UnNamedQD32Trap	EQU		$303							; low 10 bits of trap number for NGetTrapAddress

; new IDs for NuBus Block Transfer capability

;sBlockTransferInfo		EQU		20
;sMaxBlockTransferCount	EQU		21						; Trident doesn't use this one (board and video sRsrc level)
;mBlockTransferInfo		EQU		5
;mMaxBlockTransferCount	EQU		6						; Trident doesn't use this one (parameter list level)

allSlaveBlockSizes		EQU		$0000800F	; has slave block and suports 16,8,4,2 long xfers
noSlaveBlockSizes		EQU		$00008000

savedMode		EQU		2								; VendorUse1 offset into sPRAM record
savedSRsrcID	EQU		3								; VendorUse2 offset into sPRAM record
savedRawSRsrcID	EQU		4								; VendorUse3 offset into sPRAM record
specialFlag		EQU		5
savedClockType	EQU		6				
;
; card-specific ID's
;

NameMacIIResID		EQU		512
NameUScanResID		EQU		513
NameOScanResID		EQU		514
NamePortraitResID	EQU		515
NameKongResID		EQU		516
NameRubikResID		EQU		517
NamePALUScanResID	EQU		518
NamePALOScanResID	EQU		519

StdGammaResID			EQU		1024
KongGammaResID			EQU		1025
PortraitGammaResID		EQU		1026
RubikGammaResID			EQU		1027
NTSCGammaResID			EQU		1028