HDMA examples: Difference between revisions
(Suggested list of PPU registers for each HDMA transfer mode) |
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* All four window positions: <code>WH0</code> & <code>WH1</code> & <code>WH2</code> & <code>WH3</code> | * All four window positions: <code>WH0</code> & <code>WH1</code> & <code>WH2</code> & <code>WH3</code> | ||
== HDMA Tables == | |||
HDMA tables are made up of multiple HDMA entries. Each entry starts with a [[DMA_registers#NLTRn|Line-Counter]] byte, followed by register data. If the ''Line-Counter'' byte is 0, the HDMA channel will be deactivated and will remain deactivated until the start of the next frame. | |||
Line-Counter byte: | |||
7 bit 0 | |||
---- ---- | |||
RLLL LLLL | |||
|||| |||| | |||
|+++-++++- Number of scanlines (count) | |||
+--------- Repeat flag | |||
=== Non-repeat HDMA entries === | |||
A non-repeat HDMA entry (bit-7 of ''Line-Counter'' clear) is <tt>hdma_transfer_bytes + 1</tt> bytes in size. It consist of the ''Line-Counter'' byte, followed by the data to transfer on the next Horizontal Blanking Period. Afterwards, the HDMA controller will wait for ''count'' (bits 0-6 of ''Line-Counter'') scanlines before processing the next HDMA entry. | |||
<pre> | |||
// HDMA Table targeting the `TM` register (One register transfer pattern). | |||
HdmaTable: | |||
db 32 // 32 scanlines, non-repeat entry | |||
db 0x13 // TM = BG1, BG2, OBJ | |||
db 64 // 64 scanlines, non-repeat entry | |||
db 0x04 // TM = BG3 | |||
db 1 // 1 scanline | |||
db 0x13 // TM = BG1, BG2, OBJ | |||
db 0 // End HDMA table | |||
</pre> | |||
Each non-repeat HDMA entry is a maximum of 127 scanlines tall. Any HDMA entry with more then 127 scanlines must be split in two, with each entry containing the same data values. | |||
<pre> | |||
// HDMA Table for the `BG1HOFS` register (one register, write twice transfer pattern). | |||
HdmaTable: | |||
// 160 scanlines with BG1HOFS = 0 | |||
// Too many scanlines to fit in a single HDMA entry. | |||
db 127 // 127 scanlines, non-repeat entry (maximum number of scanlines per entry) | |||
dw 0 | |||
db 33 // 33 scanlines, non-repeat entry (+127 = 160 scanlines total) | |||
dw 0 // Same data value as the previous entry | |||
// Change BG1HOFS every 16 scanlines | |||
db 16 // 16 scanlines, non-repeat entry | |||
dw -2 | |||
db 16 // 16 scanlines, non-repeat entry | |||
dw -4 | |||
db 16 // 16 scanlines, non-repeat entry | |||
dw -6 | |||
db 16 // 16 scanlines | |||
dw -8 | |||
db 0 // End HDMA table | |||
</pre> | |||
Revision as of 03:19, 20 November 2022
Examples for using HDMA.
Transfer patterns
The following is a suggested list of PPU registers that can be used in the various HDMA transfer patterns.
One register (DMAP pattern 0)
This pattern reads/writes a single byte to a single address on the B-bus (+0
).
This pattern should not be used on write-twice or read-twice registers.
- BG Mode:
BGMODE
- Mosaic Settings:
MOSAIC
- BG Settings:
BG1SC
,BG2SC
,BG3SC
,BG4SC
,BG12NBA
,BG34NBA
- Mode 7 settings:
M7SEL
- CGRAM address:
CGADD
- A future HDMA channel should write to
CGDATA
on the same scanline as theCGADD
write.
- A future HDMA channel should write to
- Window settings:
W12SEL
,W34SEL
,WOBJSEL
,WBGLOG
,WOBJLOG
- Layer enable:
TM
,TS
,TMW
,TSW
- Color math:
CGWSEL
,CGADSUB
- Screen Mode/Video Select:
SETINI
- Fixed color data:
COLDATA
- Only a single B/G/R channel can be changed in this pattern (unless multiple channels contain the same value). See
COLDATA
for more details.
- Only a single B/G/R channel can be changed in this pattern (unless multiple channels contain the same value). See
Two registers (DMAP pattern 1)
This pattern reads/writes two bytes to two addresses on the B-bus (+0, +1
). It is useful when writing to two adjacent byte registers.
This pattern must not be used on write-twice or read-twice registers.
- Window 1 left and right position:
WH0
&WH1
- Window 2 left and right position:
WH2
&WH3
- Window mask settings:
W12SEL
&W34SEL
,W34SEL
&WOBJSEL
- Window mask logic:
WBGLOG
&WOBJLOG
- Layer Enable:
TM
&TS
,TMW
&TSW
- Color math settings:
CGWSEL
&CGADSUB
One register, write twice (DMAP pattern 2)
This pattern reads/writes two bytes to a single write-twice or read-twice register on the B-bus (+0, +0
).
- BG horizontal scroll offset:
BGnHOFS
- BG vertical scroll offset:
BGnVOFS
- Mode 7 matrix:
M7A
,M7B
,M7C
,M7D
,M7X
,M7Y
- CGRAM data:
CGDATA
- Note: A previous HDMA channel should set the CGRAM address on the same scanline as a
CGDATA
write
- Note: A previous HDMA channel should set the CGRAM address on the same scanline as a
- Fixed color data:
COLDATA
- Only two of the three B/G/R channels can be changed in this pattern (unless two channels share the same value). See
COLDATA
for more details.
- Only two of the three B/G/R channels can be changed in this pattern (unless two channels share the same value). See
Two registers, write twice (DMAP pattern 3)
This pattern reads/writes four bytes to two adjacent write-twice or read-twice registers on the B-bus (+0, +0, +1, +1
).
- BG scroll offsets:
BGnHOFS
&BGnVOFS
- 2 adjacent mode 7 matrix values:
M7A
&M7B
,M7C
&M7D
,M7X
&M7Y
- CGRAM address and data:
CGADD
&CGDATA
- This transfer will write two values to the CGRAM address, followed by a color word value to
CGDATA
. - The first byte will be ignored by the PPU, the second byte contains the target CGRAM address (palette index), the third and forth bytes contain the color data.
- This transfer will write two values to the CGRAM address, followed by a color word value to
Four registers (DMAP pattern 4)
This pattern reads/writes four bytes to four addresses on the B-bus (+0, +1, +2, +3
).
This pattern must not be used on write-twice or read-twice registers.
- All four window positions:
WH0
&WH1
&WH2
&WH3
HDMA Tables
HDMA tables are made up of multiple HDMA entries. Each entry starts with a Line-Counter byte, followed by register data. If the Line-Counter byte is 0, the HDMA channel will be deactivated and will remain deactivated until the start of the next frame.
Line-Counter byte: 7 bit 0 ---- ---- RLLL LLLL |||| |||| |+++-++++- Number of scanlines (count) +--------- Repeat flag
Non-repeat HDMA entries
A non-repeat HDMA entry (bit-7 of Line-Counter clear) is hdma_transfer_bytes + 1 bytes in size. It consist of the Line-Counter byte, followed by the data to transfer on the next Horizontal Blanking Period. Afterwards, the HDMA controller will wait for count (bits 0-6 of Line-Counter) scanlines before processing the next HDMA entry.
// HDMA Table targeting the `TM` register (One register transfer pattern). HdmaTable: db 32 // 32 scanlines, non-repeat entry db 0x13 // TM = BG1, BG2, OBJ db 64 // 64 scanlines, non-repeat entry db 0x04 // TM = BG3 db 1 // 1 scanline db 0x13 // TM = BG1, BG2, OBJ db 0 // End HDMA table
Each non-repeat HDMA entry is a maximum of 127 scanlines tall. Any HDMA entry with more then 127 scanlines must be split in two, with each entry containing the same data values.
// HDMA Table for the `BG1HOFS` register (one register, write twice transfer pattern). HdmaTable: // 160 scanlines with BG1HOFS = 0 // Too many scanlines to fit in a single HDMA entry. db 127 // 127 scanlines, non-repeat entry (maximum number of scanlines per entry) dw 0 db 33 // 33 scanlines, non-repeat entry (+127 = 160 scanlines total) dw 0 // Same data value as the previous entry // Change BG1HOFS every 16 scanlines db 16 // 16 scanlines, non-repeat entry dw -2 db 16 // 16 scanlines, non-repeat entry dw -4 db 16 // 16 scanlines, non-repeat entry dw -6 db 16 // 16 scanlines dw -8 db 0 // End HDMA table
Links
- HDMA Examples - by nesdoug
- Grog's Guide to DMA and HDMA on the SNES - superfamicom.org wiki