PPU nametables: Difference between revisions
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{{main|Mirroring}} | {{main|Mirroring}} | ||
The NES has four nametables, arranged in a 2x2 pattern. Each occupies a 1 KiB chunk of PPU address space, starting at $2000 at the top left, $2400 at the top right, $2800 at the bottom left, and $2C00 at the bottom right. | The NES has four nametables, arranged in a 2x2 pattern. Each occupies a 1 KiB chunk of PPU address space, starting at $2000 at the top left, $2400 at the top right, $2800 at the bottom left, and $2C00 at the bottom right. | ||
Each byte in the nametable controls one 8x8 pixel character cell, and each nametable has 30 rows of 32 tiles each, for 960 ($3C0) bytes; the rest is used by each nametable's [[attribute table]]. | Each byte in the nametable controls one 8x8 pixel character cell, and each nametable has 30 rows of 32 tiles each, for 960 ($3C0) bytes; the rest is used by each nametable's [[PPU attribute tables|attribute table]]. | ||
With each tile being 8x8 pixels, this makes a total of 256x240 pixels in one map, the same size as one full screen. | With each tile being 8x8 pixels, this makes a total of 256x240 pixels in one map, the same size as one full screen. | ||
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# Fetch a nametable entry from $2000-$2FBF. | # Fetch a nametable entry from $2000-$2FBF. | ||
# Fetch the corresponding [[attribute table]] entry from $23C0-$2FFF and increment the current VRAM address within the same row. | # Fetch the corresponding [[PPU attribute tables|attribute table]] entry from $23C0-$2FFF and increment the current VRAM address within the same row. | ||
# Fetch the low-order byte of a 8x1 pixel sliver of pattern table from $0000-$0FF7 or $1000-$1FF7. | # Fetch the low-order byte of a 8x1 pixel sliver of pattern table from $0000-$0FF7 or $1000-$1FF7. | ||
# Fetch the high-order byte of this sliver from an address 8 bytes higher. | # Fetch the high-order byte of this sliver from an address 8 bytes higher. | ||
Revision as of 01:52, 4 March 2013
(0,0) (256,0) (511,0)
+-----------+-----------+
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| | |
| $2000 | $2400 |
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(0,240)+-----------+-----------+(511,240)
| | |
| | |
| $2800 | $2C00 |
| | |
| | |
+-----------+-----------+
(0,479) (256,479) (511,479)
Mirroring
- Main article: Mirroring
The NES has four nametables, arranged in a 2x2 pattern. Each occupies a 1 KiB chunk of PPU address space, starting at $2000 at the top left, $2400 at the top right, $2800 at the bottom left, and $2C00 at the bottom right. Each byte in the nametable controls one 8x8 pixel character cell, and each nametable has 30 rows of 32 tiles each, for 960 ($3C0) bytes; the rest is used by each nametable's attribute table. With each tile being 8x8 pixels, this makes a total of 256x240 pixels in one map, the same size as one full screen.
But the NES system board itself has only 2 KiB of VRAM (called CIRAM), enough for two nametables; hardware on the cartridge controls address bit 10 of CIRAM to map one nametable on top of another.
- Vertical mirroring: $2000 equals $2800 and $2400 equals $2C00 (e.g. Super Mario Bros.)
- Horizontal mirroring: $2000 equals $2400 and $2800 equals $2C00 (e.g. Kid Icarus)
- One-screen mirroring: All nametables refer to the same memory at any given time, and the mapper directly manipulates CIRAM address bit 10 (e.g. many Rare games using AxROM)
- Four-screen mirroring: CIRAM is disabled, and the cartridge contains additional VRAM used for all nametables (e.g. Gauntlet, Rad Racer 2)
Background evaluation
Conceptually, the PPU does this 33 times for each scanline:
- Fetch a nametable entry from $2000-$2FBF.
- Fetch the corresponding attribute table entry from $23C0-$2FFF and increment the current VRAM address within the same row.
- Fetch the low-order byte of a 8x1 pixel sliver of pattern table from $0000-$0FF7 or $1000-$1FF7.
- Fetch the high-order byte of this sliver from an address 8 bytes higher.
- Turn the attribute data and the pattern table data into palette indices, and combine them with data from sprite data using priority.
It also does a fetch of a 34th (nametable, attribute, pattern) tuple that is never used, but some mappers rely on this fetch for timing purposes.
