Simple SNES shoot-'em-up game.
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248 lines
8.9 KiB

; Definitions of commonly-used special memory addresses.
;
; These are commonly called "registers" in online documentation, even though
; that feels like a misnomer; these aren't necessarily hardware registers in
; the same sense as PC, A, X, Y, and so on. Despite that, I call them
; "registers" too, since that's what everyone else calls them.
;
; I've often named these register definitions in the same way that they're
; named in Yoshi's venerable snes.txt document. In some cases (where the
; mnemonic is too obscure) I've invented a different name. In particular,
; I've changed "ADD" to "ADDR" to reduce possible confusion between "addresses"
; and "addition". The original name from Yoshi's doc is still listed in
; brackets, like [CGADD], for easy cross-referencing.
;
; I've also heavily borrowed from Yoshi's descriptions of what these registers
; do, though in many cases I've clarified / simplified the descriptions based
; on my own understanding, or simply reformatted them a bit.
;
; Here is a link to an online version of Yoshi's doc (v. 2.30):
; http://patpend.net/technical/snes/snes.txt
; Anomie's register doc is more up-to-date and might have better info:
; http://www.dforce3000.de/pub/doc/anomie_regs.txt
; $2100: Screen display initialization [INIDISP]
; x000bbbb x: 0 = screen on, 1 = screen off, bbbb: Brightness ($0-$F)
.define INIDISP $2100
; $2101: OAM size [OBSEL]
; The upper 3 bits select the size of "small" and "large" sprites.
; sssnnbbb s: 000 = 8x8 or 16x16.
; 001 = 8x8 or 32x32.
; 010 = 8x8 or 64x64.
; 011 = 16x16 or 32x32.
; 100 = 16x16 or 64x64.
; 101 = 32x32 or 64x64.
; 110 = 16x32 or 32x64 ('undocumented')
; 111 = 16x32 or 32x32 ('undocumented')
; n: Name selection (upper 4k word addr).
; b: Base selection (8k word seg. addr).
.define OAMSIZE $2101
; $2102-$2103: OAM address register [OAMADDL/OAMADDH]
; aaaaaaaa r000000m a: OAM address.
; r: OAM priority rotation.
; m: OAM address MSB.
.define OAMADDR $2102
; $2105: Screen mode register [BGMODE]
; abcdefff a: BG4 tile size (0=8x8, 1=16x16).
; b: BG3 tile size (0=8x8, 1=16x16).
; c: BG2 tile size (0=8x8, 1=16x16).
; d: BG1 tile size (0=8x8, 1=16x16).
; e: Highest priority for BG3 in MODE 1.
; f: MODE definition.
.define BGMODE $2105
; $2107-210A: BG1-4 tilemap registers [BGxSC]
; xxxxxxab x: Base address (in VRAM, shifted left 11 bits).
; ab: SC size (00=32x32 01=64x32 10=32x64 11=64x64)
.define BG1TILEMAP $2107
.define BG2TILEMAP $2108
.define BG3TILEMAP $2109
.define BG4TILEMAP $210A
; $210B: BG1 & BG2 VRAM location register [BG12NBA]
; $210C: BG3 & BG4 VRAM location register [BG34NBA]
; aaaabbbb a: Base address for BG2 (or BG4).
; b: Base address for BG1 (or BG3).
.define BG12NBA $210B
.define BG34NBA $210C
; BG1 horizontal scroll offset. [BG1HOFS]
; BG1 vertical scroll offset. [BG1VOFS]
; ... and similar registers for BG2-4.
; Write to all of these twice, as they want 2 bytes of data.
; mmmmmaaa aaaaaaaa a: Horizontal offset.
; m: Only set with MODE 7.
.define BG1HOFS $210D
.define BG1VOFS $210E
.define BG2HOFS $210F
.define BG2VOFS $2110
.define BG3HOFS $2111
.define BG3VOFS $2112
.define BG4HOFS $2113
.define BG4VOFS $2114
; $2115: Video port control [VMAIN]
; i000abcd i: 0 = Address increment after writing to $2118 or reading
; from $2139.
; 1 = Address increment after writing to $2119 or reading
; from $213A.
; ab: Full graphic (see table below).
; cd: SC increment (see table below).
;
; abcd Result
; 0100 Increment by 8 for 32 times (2-bit formation).
; 1000 Increment by 8 for 64 times (4-bit formation).
; 1100 Increment by 8 for 128 times (8-bit formation).
; 0000 Address increments 1x1.
; 0001 Address increments 32x32.
; 0010 Address increments 64x64.
; 0011 Address increments 128x128.
.define VMAIN $2115
; $2116-$2117: Video port address. 2 bytes. [VMADDL/VMADDH]
; Sets the initial address of a VRAM upload or download.
.define VMADDR $2116
; $2118-$2119: Video port data. 2 bytes. [VMDATAL/VMDATAH]
; According to bit 7 of VMAIN, the data can be stored as:
; Bit 7
; 0 Write to $2118 only. Lower 8-bits written then
; address is increased.
; 0 Write to $2119 then $2118. Address increased when both
; are written to (in order).
; 1 Write to $2119 only. Upper 8-bits written, then
; address is increased.
; 1 Write to $2118 then $2119. Address increased when both
; are written to (in order).
.define VMDATA $2118
; $2121: Color palette selection register [CGADD]
; Entry 0 corresponds to the SNES background color.
.define CGADDR $2121
; $2122: Color data register [CGDATA]
; The palette color format is 15-bit: [0bbbbbgg][gggrrrrr].
; You will typically write to this register twice in a row: first for the
; low-order byte (containing green and red) and then for the high-order byte
; (containing blue and green).
.define CGDATA $2122
; $212C: Main screen designation [TM]
; 000abcde a: OBJ/OAM disable/enable.
; b: Disable/enable BG4.
; c: Disable/enable BG3.
; d: Disable/enable BG2.
; e: Disable/enable BG1.
.define MSENABLE $212C
; $4200: Counter enable [NMITIMEN]
; n-vh---j n: NMI interrupt enable v: vertical counter enable
; h: horizontal counter enable j: joypad enable
.define NMITIMEN $4200
; $420B: DMA enable [MDMAEN]
; Each bit that's set enables one channel: 76543210
.define DMAENABLE $420B
; $4212: VBlank/HBlank/Joypad status [HVBJOY]
; vh-----a
; v = V-Blank Flag. If we're currently in V-Blank, this flag is set,
; otherwise it is clear. The setting seems to occur at H Counter
; about $16-$17 when V Counter is $E1, and the clearing at about $1E
; with V Counter 0.
; h = H-Blank Flag. If we're currently in H-Blank, this flag is set,
; otherwise it is clear. The setting seems to occur at H Counter
; about $121-$122, and the clearing at about $12-$18.
; a = Auto-Joypad Status. This is set while Auto-Joypad Read is in
; progress, and cleared when complete. It typically turns on at
; the start of V-Blank, and completes 3 scanlines later.
.define HVBJOY $4212
; $4218: Joypad #1 status [JOY1L]
; Format: AXLR0000
.define JOY1L $4218
; $4219: Joypad #1 status [JOY1H]
; Format: BYsSudlr (s=select, S=start, udlr = joypad)
.define JOY1H $4219
; $421A: Joypad #2 status [JOY2L]
; Format: AXLR0000
.define JOY2L $421A
; $421B: Joypad #2 status [JOY2H]
; Format: BYsSudlr (s=select, S=start, udlr = joypad)
.define JOY2H $421B
; $43x0: DMA control for channel x. [DMAPX]
; vh0cbaaa v: 0 = CPU memory -> PPU.
; 1 = PPU -> CPU memory.
; h: For HDMA only:
; 0 = Absolute addressing.
; 1 = Indirect addressing.
; c: 0 = Auto address inc/decrement.
; 1 = Fixed address (for VRAM, etc.).
; b: 0 = Automatic increment.
; 1 = Automatic decrement.
; a: Transfer type:
; 000 = 1 address write twice: LH.
; 001 = 2 addresses: LH.
; 010 = 1 address write once.
; 011 = 2 addresses write twice: LLHH
; 100 = 4 addresses: LHLH
.define DMA0CTRL $4300
.define DMA1CTRL $4310
.define DMA2CTRL $4320
.define DMA3CTRL $4330
.define DMA4CTRL $4340
.define DMA5CTRL $4350
.define DMA6CTRL $4360
.define DMA7CTRL $4370
; $43x1: DMA destination for channel x. [BBADX]
; The upper byte is assumed to be $21, so the possible destinations are
; $2100-$21FF.
.define DMA0DST $4301
.define DMA1DST $4311
.define DMA2DST $4321
.define DMA3DST $4331
.define DMA4DST $4341
.define DMA5DST $4351
.define DMA6DST $4361
.define DMA7DST $4371
; $43x2-$43x3: DMA source address for channel x. 2 bytes. [AITXL/AITXH]
.define DMA0SRC $4302
.define DMA1SRC $4312
.define DMA2SRC $4322
.define DMA3SRC $4332
.define DMA4SRC $4342
.define DMA5SRC $4352
.define DMA6SRC $4362
.define DMA7SRC $4372
; $43x4: DMA source bank for channel x [AIBX]
.define DMA0SRCBANK $4304
.define DMA1SRCBANK $4314
.define DMA2SRCBANK $4324
.define DMA3SRCBANK $4334
.define DMA4SRCBANK $4344
.define DMA5SRCBANK $4354
.define DMA6SRCBANK $4364
.define DMA7SRCBANK $4374
; $43x5: DMA transfer size & HDMA address. 2 bytes. [DASXL/DASXH]
; When using DMA, $43x5 defines the # of bytes to be transferred via DMA
; itself. When using HDMA, $43x5 defines the data address ($43x5 = low byte,
; $43x6 = hi byte).
.define DMA0SIZE $4305
.define DMA1SIZE $4315
.define DMA2SIZE $4325
.define DMA3SIZE $4335
.define DMA4SIZE $4345
.define DMA5SIZE $4355
.define DMA6SIZE $4365
.define DMA7SIZE $4375