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512 lines
18 KiB
Plaintext
512 lines
18 KiB
Plaintext
;
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; File: JMFBDepVideoEqu.a
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;
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; Contains: Hardware-specific equates for the 4•8/8•24 Cards.
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;
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; Written by: Casey King/Mike Puckett
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;
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; Copyright: © 1986-1993 by Apple Computer, Inc., all rights reserved.
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;
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; This file is used in these builds: Mac32
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;
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;
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; Change History (most recent first):
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;
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; <SM2> 6/14/93 kc Roll in Ludwig.
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; <LW2> 3/24/93 mal Removed block xfer equ's that are now in ROMEqu.a.
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; <1> 1/7/92 RB first checked in
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; =============== Terror History ========================
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;
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; <4> 4/4/91 jmp Cleaned up conditional assembly stuff (i.e., started using
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; ForRom instead of PadForOverPatch).
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; <3> 2/25/91 jmp Rolled in Casey’s latest version, and extracted out the
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; TERROR-ROM only stuff (to be INCLUDE’d from ComVideoEqu.a).
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; <2> 1/7/91 jmp Prior to my last full build and checking this file in, I somehow
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; deleted the word “Version” from “RAMVersion” in this file
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; causing the TERROR build to break. Oops. I guess I’ll do builds
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; AFTER I check things back in next time. Sorry BG.
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; <1> 1/6/91 jmp Checked into TERROR ROM for first time.
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; <0> 11/19/90 jmp Formatted for use with TERROR ROM (as opposed to a
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; declaration ROM), removed duplicate equates, etc….
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;-------------------------------------------------------------------
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;
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; (c) Apple Computer, Inc. 1986-1990
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; All rights reserved.
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;
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;-------------------------------------------------------------------
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;
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; File : ElmerRom.a
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; Author : Casey KIng
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;
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; These are the configuration ROM equates that are specific only to
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; the MegaDeth Video Card. This includes mode information such as
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; resolution and physical rowbytes, as well as hardware control
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; registers on the card itself.
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;
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;-------------------------------------------------------------------
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; Mod History :
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;
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; Refer to Projetor change history for revision details
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;-------------------------------------------------------------------
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If ForROM Then
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Include 'ComVideoEqu.a'
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EndIf
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;---------------------------------------------------
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;
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; Rowbytes and page count constants
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;
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; These constants are closely interrelated, so check them carefully.
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;
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;---------------------------------------------------
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; Kong rowbytes as a f(mode)
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OBM100RB EQU 144
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TBM100RB EQU 288
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FBM100RB EQU 576
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EBM100RB EQU 1152
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TFBM100RB EQU 0
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; Portrait rowbytes as a f(mode)
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OBM57RB EQU 80
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TBM57RB EQU 160
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FBM57RB EQU 320
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EBM57RB EQU 640
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TFBM57RB EQU 0
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; Standard rowbytes as a f(mode)
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OBM30RB EQU 80
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TBM30RB EQU 160
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FBM30RB EQU 320
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EBM30RB EQU 640
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TFBM30RB EQU 2560 ; 2560 for quickdraw, 1920 for JMFB
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; Rubik rowbytes as a f(mode)
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OBM16RB EQU 64
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TBM16RB EQU 128
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FBM16RB EQU 256
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EBM16RB EQU 512
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TFBM16RB EQU 2048
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; Exact non convolved PAL overscan (768 x 576) rowbytes as a f(mode).
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OBM14RB EQU 1024
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TBM14RB EQU 1024
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FBM14RB EQU 1024
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EBM14RB EQU 0
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TFBM14RB EQU 0
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; Exact non convolved PAL underscan (616 x 518) rowbytes as a f(mode).
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OBM14uRB EQU 1024 ; round 77 up to power of 2
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TBM14uRB EQU 1024 ; round 154 up to power of 2
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FBM14uRB EQU 1024 ; round 308 up to power of 2
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EBM14uRB EQU 1024
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TFBM14uRB EQU 2560 ; ** use the same value as rs170, because the exact value (2456) is incompatible
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; ** with the size of the JMFB rowbytes register (long aligned).
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; Convolution cases for PAL rowbytes as a f(mode)
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OBM14CRB EQU 1024
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TBM14CRB EQU 1024
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FBM14CRB EQU 1024
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EBM14CRB EQU 1024
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TFBM14CRB EQU 0
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; Exact NTSC rowbytes as a f(mode). These are not used.
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OBM12RB EQU 80
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TBM12RB EQU 160
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FBM12RB EQU 320
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EBM12RB EQU 640
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TFBM12RB EQU 2560 ; 2560 for quickdraw, 1920 for JMFB
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; NTSC rowbytes as a f(mode)
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OBM12CRB EQU 1024
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TBM12CRB EQU 1024
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FBM12CRB EQU 1024
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EBM12CRB EQU 1024
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TFBM12CRB EQU 2560
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; All page counts are now zero based!!! Only GetPage will return nonzero based counts!
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; Kong page counts as a f(mode)
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OBMPages100A EQU 3
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OBMPages100B EQU 7
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TBMPages100A EQU 1
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TBMPages100B EQU 3
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FBMPages100A EQU 0
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FBMPages100B EQU 1
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EBMPages100A EQU -1 ; not enough memory so its an invalid mode
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EBMPages100B EQU 0
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TFBMPages100A EQU -1 ; invalid mode so page count is invalid
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TFBMPages100B EQU -1 ; invalid mode so page count is invalid
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; Portrait page counts as a f(mode)
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OBMPages57A EQU 6
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OBMPages57B EQU 14
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TBMPages57A EQU 2
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TBMPages57B EQU 6
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FBMPages57A EQU 0
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FBMPages57B EQU 2
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EBMPages57A EQU -1
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EBMPages57B EQU 0
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TFBMPages57A EQU -1
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TFBMPages57B EQU -1
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; Standard page counts as a f(mode)
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OBMPages30A EQU 12
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OBMPages30B EQU 26
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TBMPages30A EQU 5
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TBMPages30B EQU 12
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FBMPages30A EQU 2
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FBMPages30B EQU 5
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EBMPages30A EQU 0
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EBMPages30B EQU 2
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TFBMPages30A EQU -1
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TFBMPages30B EQU 0
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; Rubik page counts as a f(mode)
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OBMPages16A EQU 20
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OBMPages16B EQU 41
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TBMPages16A EQU 9
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TBMPages16B EQU 20
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FBMPages16A EQU 4
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FBMPages16B EQU 9
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EBMPages16A EQU 1
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EBMPages16B EQU 4
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TFBMPages16A EQU -1
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TFBMPages16B EQU 0
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; PAL page counts as a f(mode), u stands for underscan, otherwise overscan
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OBMPages14A EQU 0
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OBMPages14Au EQU 0
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TBMPages14A EQU 0
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TBMPages14Au EQU 0
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FBMPages14A EQU 0
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FBMPages14Au EQU 0
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EBMPages14A EQU 0
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EBMPages14Au EQU 0
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TFBMPages14A EQU -1
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TFBMPages14Au EQU -1
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TFBMPages14Bu EQU 0 ; there is no overscan PAL 24 bpp!
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; PAL Convolution page counts as a f(mode)
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OBMPages14CB EQU 0
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TBMPages14CB EQU 0
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FBMPages14CB EQU 0
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EBMPages14CB EQU 0
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TFBMPages14CB EQU -1
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; NTSC page counts as a f(mode)
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OBMPages12A EQU 0 ; use same rowbytes as convolution
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OBMPages12B EQU 1
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TBMPages12A EQU 0
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TBMPages12B EQU 1
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FBMPages12A EQU 0
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FBMPages12B EQU 1
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EBMPages12A EQU 0
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EBMPages12B EQU 1
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TFBMPages12A EQU -1
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TFBMPages12B EQU 0
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; Convolution page counts as a f(mode)
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OBMPages12CA EQU 0
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OBMPages12CB EQU 1
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TBMPages12CA EQU 0
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TBMPages12CB EQU 1
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FBMPages12CA EQU 0
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FBMPages12CB EQU 1
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EBMPages12CA EQU 0
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EBMPages12CB EQU 1
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TFBMPages12CA EQU -1
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TFBMPages12CB EQU -1
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; Invalid page count
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InvalPageCnt EQU -1
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; Gray Screen Patterns
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OneBitGray EQU $AAAAAAAA
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TwoBitGray EQU $CCCCCCCC
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FourBitGray EQU $F0F0F0F0
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EightBitGray EQU $FF00FF00
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TwentyFourBitGray EQU $00000000 ; upper byte is padding and is not used
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; note 24 bpp dither appears backwards, but it's not!
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; Invalid sRsrc ID (used to build up spID for mode to be disabled in interlaced modes)
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InvalidSRsrcID EQU $F0
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; Flag bits for sResource ID
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fSRsrcBigScrnBit EQU 0 ; indicates if Portrait or Kong monitor (bit0 = 1 if true)
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fSRsrcRGBBit EQU 2 ; indicates if monitor is BW or RGB (significant for Big Screens only)
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fSRsrcOscanBit EQU 3 ; indicates if in interlaced overscan mode (must be interlaced mode)
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fSRsrc24Bit EQU 4 ; indicates whether the sRsrc is based on 24 bit address or 32
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fSRsrcXMemBit EQU 5 ; indicates whether the sRsrc is extended memory or not
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fSRsrcMSBBit EQU 7 ; simply the most significant bit of the 8 bit sResource ID
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; Raw Sense Line IDs
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RGBKong EQU 0 ; raw sense line combo for RGBKong
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Kong EQU 3 ; reformated sense line for all Kongs (x11)
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Portrait EQU 1 ; reformated sense line for all Portraits (x01)
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Standard EQU 6
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_NTSC_ EQU 4
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Rubik EQU 2
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NoSense EQU 7
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Sarnoff EQU $14 ; breakout box xtnd sense = 010100
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PAL EQU $00 ; breakout box PAL xtnd sense = 000000
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PALmonitor EQU $30 ; PAL monitor xtnded sense code = 110000
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; Reformatted Sense Line ID's
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rRGBKong EQU 7
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rPAL EQU 0
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; monitor sense mask for sResource ID (low 3 bits)
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monSenseMask EQU 7
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; Value for b1:b0 in reformatted sense line ID to signify interlaced monitor connect (low 2 bits)
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interlacedScreen EQU 0 ; (bits 0:1 = 0, refer to Karnaugh map in ERS)
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; Mode IDs (zero based)
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Mode1BPP EQU 0
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Mode2BPP EQU 1
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Mode4BPP EQU 2
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Mode8BPP EQU 3
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Mode24BPP EQU 4
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; Mode Depth IDs
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Depth1BPP EQU 1
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Depth2BPP EQU 2
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Depth4BPP EQU 4
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Depth8BPP EQU 8
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Depth24BPP EQU 16
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; Miscellaneous
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LongDelay EQU 1000 ; long delay used in pinit h/w setup due to natl clk setup
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ShortDelay EQU 5 ; short delay used in drvr
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sRsrcDisable EQU 1 ; used to tell the slot mgr to disable a sRsrc
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readBC EQU 4 ; used in the xtended sense scheme (drive a hi, read b and c)
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readAC EQU 2 ; used in the xtended sense scheme (drive b hi, read a and c)
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readAB EQU 1 ; used in the xtended sense scheme (drive c hi, read a and b)
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;---------------------------------------------------
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;
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; Screen configuration / Bounds information
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;
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;---------------------------------------------------
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defmBounds_T100 EQU 0 ; top in 100MHz mode
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defmBounds_L100 EQU 0 ; left in 100MHz mode
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defmBounds_B100 EQU 870 ; bottom in 100MHz mode
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defmBounds_R100 EQU 1152 ; right in 100MHz mode
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defmBounds_T57 EQU 0 ; top in 58MHz mode
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defmBounds_L57 EQU 0 ; left in 58MHz mode
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defmBounds_B57 EQU 870 ; bottom in 58MHz mode
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defmBounds_R57 EQU 640 ; right in 58MHz mode
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defmBounds_T30 EQU 0 ; top in 30MHz mode
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defmBounds_L30 EQU 0 ; left in 30MHz mode
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defmBounds_B30 EQU 480 ; bottom in 30MHz mode
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defmBounds_R30 EQU 640 ; right in 30MHz mode
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defmBounds_T16 EQU 0 ; top in 16MHz mode
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defmBounds_L16 EQU 0 ; left in 16MHz mode
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defmBounds_B16 EQU 384 ; bottom in 16MHz mode
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defmBounds_R16 EQU 512 ; right in 16MHz mode
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defmBounds_T14 EQU 0 ; top in 14MHz mode
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defmBounds_L14 EQU 0 ; left in 14MHz mode
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defmBounds_B14 EQU 576 ; bottom in 14MHz mode
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defmBounds_R14 EQU 768 ; right in 14MHz mode
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defmBounds_T14u EQU 0 ; top in 14MHz mode
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defmBounds_L14u EQU 0 ; left in 14MHz mode
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defmBounds_B14u EQU 480 ; bottom in 14MHz mode
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defmBounds_R14u EQU 640 ; right in 14MHz mode
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defmBounds_T12 EQU 0 ; top in 12MHz mode
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defmBounds_L12 EQU 0 ; left in 12MHz mode
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defmBounds_B12 EQU 480 ; bottom in 12MHz mode
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defmBounds_R12 EQU 640 ; right in 12MHz mode
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defmBounds_T12u EQU 0 ; top in 12MHz mode
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defmBounds_L12u EQU 0 ; left in 12MHz mode
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defmBounds_B12u EQU 384 ; bottom in 12MHz mode
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defmBounds_R12u EQU 512 ; right in 12MHz mode
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defmBounds_T12C EQU 0 ; top in 12MHz mode
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defmBounds_L12C EQU 0 ; left in 12MHz mode
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defmBounds_B12C EQU 480 ; bottom in 12MHz mode
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defmBounds_R12C EQU 640 ; right in 12MHz mode
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defVersion EQU 0 ; Version = 0
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; The format of the following fields is upper 16 bits = integer part, and lower 16 bits = fractional part
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defmHRes12 EQU $480000 ; (72 dpi) Horizontal Pixels/inch
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defmVRes12 EQU $480000 ; (72 dpi) Vertical pixels/inch
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defmHRes14 EQU $480000 ; (72 dpi) Horizontal Pixels/inch
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defmVRes14 EQU $480000 ; (72 dpi) Vertical pixels/inch
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defmHRes16 EQU $480000 ; (72 dpi) Horizontal Pixels/inch
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defmVRes16 EQU $480000 ; (72 dpi) Vertical pixels/inch
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defmHRes30 EQU $480000 ; (72 dpi) Horizontal Pixels/inch
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defmVRes30 EQU $480000 ; (72 dpi) Vertical pixels/inch
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defmHRes57 EQU $500000 ; (80 dpi) Horizontal Pixels/inch for Portrait Display
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defmVRes57 EQU $500000 ; (80 dpi) Vertical pixels/inch for Portrait Display
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defmHRes100 EQU $4D0000 ; (77 dpi) Horizontal Pixels/inch for 2-Page Display
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defmVRes100 EQU $4D0000 ; (77 dpi) Vertical pixels/inch for 2-Page Display
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defPixelType EQU 0 ; pixeltype=chunky
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chunkyDirect EQU 16 ; pixeltype=chunky direct
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defCmpCount EQU 1 ; Number of components in pixel
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defmPlaneBytes EQU 0 ; Offset from one plane to the next
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defmVertRefRate EQU 75 ; Vert refresh rate
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defmDevType EQU 0 ; 0 = CLUTType
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;---------------------------------------------------
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;
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; Hardware Definitions
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;
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;---------------------------------------------------
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defMinorBase EQU 0 ; Video RAM Offset is 0
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defmBaseOffset EQU 2560 ; base offset for the little screens (12,14,16, and 30 MHz)
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defmBaseOffset12 EQU $2000 ; Offset to base of vRAM for NTSC/PAL convolution only
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convBOfix EQU $1400 ; Base offset correction for interlaced convolution
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specBaseOffset12 EQU 2560 ; Special base offset for ntsc to be used in 24 bpp
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defmBaseOffsetBS EQU $80 ; Offset to base of vRAM for the big screens (Kong and Portrait)
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defMinorLengthA EQU $80000 ; Video RAM length on 512K card
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defMinorLengthB EQU $100000 ; Video RAM length on 1024K card
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ROMSize EQU $4000 ;16K byte ROM
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JMFB EQU $200000 ; Offset to JMFB Control Registers
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Stopwatch EQU $200100 ; Offset to Stopwatch Registers
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CLUT EQU $200200 ; Offset to CLUT Registers
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Endeavor EQU $200300 ; Offset to Endeavor Registers
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JMFBCSR EQU $00 ; Offset to Control and Status Register
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JMFBLSR EQU $04 ; Offset to Load/Sync Register
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JMFBVideoBase EQU $08
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JMFBRowWords EQU $0C
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SWICReg EQU $3C ; Offset to Stopwatch Interrupt/Control Register
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SWStatusReg EQU $C0 ; Offset to Stopwatch Status Registers (used to read Interrupt state)
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SWClrVInt EQU $48 ; Offset to Stopwatch Clear Vertical Interrupt
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; Special bits in the JMFBCSReg and Stopwatch. Refer to the parameter documentation and the
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; software ERS for a description of these flags and their importance in the hardware
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; initialization process.
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REFEN EQU $8 ; Refresh enable bit in JMFBCSR word
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VIDGO EQU $40 ; VideoTransfer Cycle Enable bit in JMFBCSR word
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PIXSEL1 EQU $2000 ; Endeavor reset bit (in the Natl board it's used to select 100 MHz or Natl)
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VRSTB EQU $8000 ; Master reset bit in JMFBCSR word
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MaskSenseLine EQU $F1FF ; Masks off the 3 bit sense line in JMFB CSR
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SRST EQU 0 ; soft reset for Stopwatch
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ENVERTI EQU 1 ; enable vertical interrupts for Stopwatch
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CLRNMRQ EQU 0 ; clear NMRQ~ interrupt for Stopwatch
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; Offsets to the CLUT registers
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CLUTAddrReg EQU $00 ; Offset to CLUT Address Register
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CLUTDataReg EQU $04 ; Offset to CLUT Data Register
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CLUTPBCR EQU $08 ; Offset to CLUT Pixel Bus Control Register
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; Offsets to the Endeavor registers
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EndeavorM EQU $00 ; Offset to Endeavor M register
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EndeavorN EQU $04 ; Offset to Endeavor N register
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EndeavorExtClkSel EQU $08 ; Offset to Endeavor External Clock Select
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EndeavorReserved EQU $0C ; Endeavor Reserved
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EndeavorID EQU $00
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NationalID EQU $FFFF
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ROM EQU $F0000
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; RAM test locations
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TestPos EQU 1002240 ; Right past 1152x870 first page
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; Equates that are used in the driver for offsets to private storage which
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; is stored in the dCtlStorage field of the DCE. It must be placed here
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; since 2ndInit must patch the DCE if it is the startup screen and we
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; would like to use the symbolic reference. The assembler does not do
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; forward referencing tho.
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saveMode EQU 0 ; the current mode setting
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savePage EQU saveMode+2 ; the current page setting
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saveBaseAddr EQU savePage+2 ; the current base address
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saveSQElPtr EQU saveBaseAddr+4 ; the SQ element pointer (for _SIntRemove).
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saveGammaPtr EQU saveSQElPtr+4 ; the pointer to the Gamma correction table
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GFlags EQU saveGammaPtr+4 ; flags word
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saveVidParms EQU GFlags+2 ; pointer to video configuration data
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saveID EQU saveVidParms+4 ; saved sense value
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saveHardBase EQU saveID+2 ; hardware base address
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saveMonSense EQU saveHardBase+4 ; reformatted sense line combo from videoOpen
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moreGFlags EQU saveMonSense+2
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saveGammaPtrHead EQU moreGFlags+2
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dCtlSize EQU saveGammaPtrHead+4 ; size of dCtlStorage
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; Flags within GFlags word
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GrayFlag EQU 15 ; luminance mapped if GFlags(GrayFlag) = 1
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IntDisFlag EQU 14 ; interrupts disabled if GFlags(IntFlag) =1
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RAM512KFlag EQU 13 ; 512K vidRAM if GFlags(RAM512K) = 1
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MonoFlag EQU 12 ; true if monochrome monitor
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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
|