Sprite graphics format: Difference between revisions
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The NeoGeo uses 16x16 pixels, 4bpp tiles for sprites. | The NeoGeo uses 16x16 pixels, 4bpp tiles for sprites. |
Latest revision as of 06:24, 10 July 2024
The NeoGeo uses 16x16 pixels, 4bpp tiles for sprites.
They are stored as 4, 8x8 pixels blocks. Each row of these 8x8 blocks is stored backwards in a 4bit planar organization.
- On cartridge systems, bitplanes 0 and 1 go in the odd C ROMs (C1, C3...), while bitplanes 2 and 3 go in the even ones (C2, C4...).
- On CD systems, bitplanes follow a 1/0/3/2 order.
Size
One tile is 16 * 16 pixels * 4 bits per pixel = 1024 bits = 128 bytes.
Addressing
Bit # ...543210 ...nCLLLL n: Tile number (multiple bits) C: Block column, 0 = blocks 1 & 2, 1 = blocks 3 & 4 L: Block line # (0~15)
CA4 is "C".
"Consolegfx"-style definition
Each group represents one byte.
- t is the 8x8 block number (1 to 4) as shown above.
- r is the row number in the block (0 to 7).
- bp is the bitplane number (0 to 3).
Odd C ROMs
[t1, r0, bp0], [t1, r0, bp1], [t1, r1, bp0], [t1, r1, bp1], [t1, r2, bp0], [t1, r2, bp1], [t1, r3, bp0], [t1, r3, bp1], [t1, r4, bp0], [t1, r4, bp1], [t1, r5, bp0], [t1, r5, bp1], [t1, r6, bp0], [t1, r6, bp1], [t1, r7, bp0], [t1, r7, bp1], [t2, r0, bp0], [t2, r0, bp1], [t2, r1, bp0], [t2, r1, bp1], [t2, r2, bp0], [t2, r2, bp1], [t2, r3, bp0], [t2, r3, bp1], [t2, r4, bp0], [t2, r4, bp1], [t2, r5, bp0], [t2, r5, bp1], [t2, r6, bp0], [t2, r6, bp1], [t2, r7, bp0], [t2, r7, bp1] [t3, r0, bp0], [t3, r0, bp1], [t3, r1, bp0], [t3, r1, bp1], [t3, r2, bp0], [t3, r2, bp1], [t3, r3, bp0], [t3, r3, bp1], [t3, r4, bp0], [t3, r4, bp1], [t3, r5, bp0], [t3, r5, bp1], [t3, r6, bp0], [t3, r6, bp1], [t3, r7, bp0], [t3, r7, bp1] [t4, r0, bp0], [t4, r0, bp1], [t4, r1, bp0], [t4, r1, bp1], [t4, r2, bp0], [t4, r2, bp1], [t4, r3, bp0], [t4, r3, bp1], [t4, r4, bp0], [t4, r4, bp1], [t4, r5, bp0], [t4, r5, bp1], [t4, r6, bp0], [t4, r6, bp1], [t4, r7, bp0], [t4, r7, bp1]
Even C ROMs
[t1, r0, bp2], [t1, r0, bp3], [t1, r1, bp2], [t1, r1, bp3], [t1, r2, bp2], [t1, r2, bp3], [t1, r3, bp2], [t1, r3, bp3], [t1, r4, bp2], [t1, r4, bp3], [t1, r5, bp2], [t1, r5, bp3], [t1, r6, bp2], [t1, r6, bp3], [t1, r7, bp2], [t1, r7, bp3], [t2, r0, bp2], [t2, r0, bp3], [t2, r1, bp2], [t2, r1, bp3], [t2, r2, bp2], [t2, r2, bp3], [t2, r3, bp2], [t2, r3, bp3], [t2, r4, bp2], [t2, r4, bp3], [t2, r5, bp2], [t2, r5, bp3], [t2, r6, bp2], [t2, r6, bp3], [t2, r7, bp2], [t2, r7, bp3] [t3, r0, bp2], [t3, r0, bp3], [t3, r1, bp2], [t3, r1, bp3], [t3, r2, bp2], [t3, r2, bp3], [t3, r3, bp2], [t3, r3, bp3], [t3, r4, bp2], [t3, r4, bp3], [t3, r5, bp2], [t3, r5, bp3], [t3, r6, bp2], [t3, r6, bp3], [t3, r7, bp2], [t3, r7, bp3] [t4, r0, bp2], [t4, r0, bp3], [t4, r1, bp2], [t4, r1, bp3], [t4, r2, bp2], [t4, r2, bp3], [t4, r3, bp2], [t4, r3, bp3], [t4, r4, bp2], [t4, r4, bp3], [t4, r5, bp2], [t4, r5, bp3], [t4, r6, bp2], [t4, r6, bp3], [t4, r7, bp2], [t4, r7, bp3]
Decoding
Pseudocode:
for block = 0 to 3 { select block { case 0: xOfs = 8: yOfs = 0 case 1: xOfs = 8: yOfs = 8 case 2: xOfs = 0: yOfs = 0 case 3: xOfs = 0: yOfs = 8 } for row = 0 to 7 { BitPlane(0) = ReadByte(1) BitPlane(1) = ReadByte(1) BitPlane(2) = ReadByte(2) BitPlane(3) = ReadByte(2) for pixels = 0 to 7 { xPos = pixels + xOfs yPos = row + yOfs ColorIndex = 0 for bitplanes = 0 to 3 ColorIndex .= GetBit(BitPlane(3 - bitplanes)), 7 - pixels) PixelSet (xPos, yPos), Palette[ColorIndex] } } }