User:Ddribin/PPU Sandbox: Difference between revisions

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=== Bit 7 - NMIE<nowiki>:</nowiki> NMI Enable ===
=== Bit 7 - NMIE<nowiki>:</nowiki> NMI Enable ===
Setting NMI to one causes an NMI to be generated at the start of the  vertical blanking interval
Setting NMI to one causes an NMI to be generated at the start of the  vertical blanking interval.


=== Bit 6 - MSE<nowiki>:</nowiki> Master/Slave Enable ===
=== Bit 6 - MSE<nowiki>:</nowiki> Master/Slave Enable ===

Revision as of 14:56, 26 December 2009

PPU Register Overview

The PPU exposes only eight memory-mapped registers to the CPU. These nominally sit at $2000 through $2007 in the CPU's address space, but because they're incompletely decoded, they're mirrored in every 8 bytes from $2008 through $3FFF, so a write to $3456 is the same as a write to $2006.

PPU Registers
Address Name (Alt. Names?) Function
$2000 PPUCTRL PPUCR PCR PPU Control Register
$2001 PPUMASK PPUMR PMR PPU Mask Register
$2002 PPUSTATUS PPUSR PSR PPU Status Register
$2003 OAMADDR OAMAR OAR OAM Address Register
$2004 OAMDATA OAMDR ODR OAM Data Register
$2005 PPUSCROLL PPUSCR PSCR PPU Scroll Register
$2006 PPUADDR PPUAR PAR PPU Address Register
$2007 PPUDATA PPUDR PDR PPU Data Register
$4014 OAMDMA ODMA OAM DMA

PPUCTRL: PPU Control Register

Bit 7 6 5 4 3 2 1 0
$2000 NMIE MSE SSZ BPT SPT VDN NTA1 NTA0
Read/Write W W W W W W W W
Initial Value 0 X 0 0 0 0 0 0

Bit 7 - NMIE: NMI Enable

Setting NMI to one causes an NMI to be generated at the start of the vertical blanking interval.

Bit 6 - MSE: Master/Slave Enable

Has no effect on the NES.

Bit 5 - SSZ: Sprite Size

0: 8x8; 1: 8x16

Bit 4 - BPT: Background Pattern Table

Background pattern table address (0: $0000; 1: $1000)

Bit 3 - SPT: Sprite Pattern Table

Sprite pattern table address for 8x8 sprites (0: $0000; 1: $1000)

Bit 2 - VDN: VRAM Increment Down

VRAM address increment per CPU read/write of PPUDATA (0: increment by 1, going across; 1: increment by 32, going down)

Bits 1, 0 - NTA1 and NTA0: Base Nametable Address 1 and 0

NTA1 NTA0 Base VRAM Address
0 0 $2000 (Nametable 0)
0 1 $2400 (Nametable 1)
1 0 $2800 (Nametable 2)
1 1 $2C00 (Nametable 3)

PPUMASK: PPU Mask Register

Bit 7 6 5 4 3 2 1 0
$2001 INB ING INR SRE BRE SCD BCD GSE
Read/Write W W W W W W W W
Initial Value 0 0 0 0 0 X X 0

Bit 7 - INB: Intensify Blues

Intensify blues and darken other colors.

Bit 6 - ING: Intensify Greens

Intensify greens and darken other colors.

Bit 5 - INR: Intensify Reds

Intensify reds and darken other colors.

Bit 4 - SRE: Sprite Render Enable

Enable sprite rendering.

Bit 3 - BRE: Background Render Enable

Enable background rendering.

Bit 2 - SCD: Sprite Clip Disable

Control sprites in leftmost 8 pixels of screen (0: clip; 1: display).

Bit 1 - BCD: Background Clip Disable

Control background in leftmost 8 pixels of screen (0: clip; 1: display).

Bit 0 - GSE: Grayscale Enable

0: normal color; 1: AND all palette entries with 0x30, effectively producing a monochrome display; note that colour emphasis STILL works when this is on!

PPUSTATUS: PPU Status Register

Bit 7 6 5 4 3 2 1 0
$2002 VBL S0H SOV --- --- --- --- ---
Read/Write R R R R R R R R
Initial Value X 0 X X X X X X

Bit 7 - VBL: Vertical Blank

Bit 6 - S0H: Sprite 0 Hit

Bit 5 - SOV: Sprite Overflow

Bits 4..0 - Res: Reserved

CA65 Definitions

.define bit2mask(bitnum) (1 << bitnum)
.define bits2mask(bits, bitnum) (bits << bitnum)

        ;; PPU Registers
        ppuctrl := $2000
        ppumask := $2001
        ppustatus := $2002
        oamaddr := $2003
        oamdata := $2004
        ppuscroll := $2005
        ppuaddr := $2006
        ppuaddr := $2007
        oamdma := $4014


        ppuctrl_nmie = bit2mask(7)
        ppuctrl_mse = bit2mask(6)
        ppuctrl_ssz = bit2mask(5)
        ppuctrl_bpt = bit2mask(4)
        ppuctrl_spt = bit2mask(3)
        ppuctrl_vdn = bit2mask(2)
        ppuctrl_nta1 = bit2mask(1)
        ppuctrl_nta0 = bit2mask(0)

        ppuctrl_nta_2000 = bits2mask(%00, ppuctrl_nta0)
        ppuctrl_nta_2400 = bits2mask(%01, ppuctrl_nta0)
        ppuctrl_nta_2800 = bits2mask(%10, ppuctrl_nta0)
        ppuctrl_nta_2c00 = bits2mask(%11, ppuctrl_nta0)
        
        ppumask_inb = bit2mask(7)
        ppumask_ing = bit2mask(6)
        ppumask_inr = bit2mask(5)
        ppumask_sre = bit2mask(4)
        ppumask_bre = bit2mask(3)
        ppumask_scd = bit2mask(2)
        ppumask_bcd = bit2mask(1)
        ppumask_gse= bit2mask(0)

        ppustatus_vbl = bit2mask(7)
        ppustatus_s0h = bit2mask(6)
        ppustatus_sov = bit2mask(5)