Mouse: Difference between revisions
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Some documents about interfacing with the mouse recommend reading the first 16 bits at one speed, delaying a while, and reading the other 16 bits at another speed, following logic analyzer traces from a Super NES console. | Some documents about interfacing with the mouse recommend reading the first 16 bits at one speed, delaying a while, and reading the other 16 bits at another speed, following logic analyzer traces from a Super NES console. | ||
However, these different speeds are merely an artifact of the main loop of ''Mario Paint'', and the mouse will give a correct report when read at any reasonable speed. | However, these different speeds are merely an artifact of the main loop of ''Mario Paint'', and the mouse will give a correct report when read at any reasonable speed. | ||
For example, a program | For example, a program could read 8 bits, wait a couple thousand cycles, and then read the other 24. | ||
The first byte of the report is all zeroes and may be ignored. The other three bytes are sent most significant bit first: | The first byte of the report is all zeroes and may be ignored. The other three bytes are sent most significant bit first: |
Revision as of 20:38, 26 May 2015
The Super NES Mouse (SNS-016) is a peripheral for the Super NES that was originally bundled with Mario Paint. It can be used with an NES through an adapter, made from an NES controller extension cord and a Super NES controller extension cord, that connects the respective power, ground, clock, latch, and data pins.
As with the standard controller, the mouse is read by turning the latch ($4016.d0) on and off, and then reading bit 0 or bit 1 of $4016 or $4017 several times, but its report is 32 bits long as opposed to 8 bits. Bit 0 goes to the standard controller ports on an NES or AV Famicom; bit 1 goes to the Famicom 4-player adapter.
Some documents about interfacing with the mouse recommend reading the first 16 bits at one speed, delaying a while, and reading the other 16 bits at another speed, following logic analyzer traces from a Super NES console. However, these different speeds are merely an artifact of the main loop of Mario Paint, and the mouse will give a correct report when read at any reasonable speed. For example, a program could read 8 bits, wait a couple thousand cycles, and then read the other 24.
The first byte of the report is all zeroes and may be ignored. The other three bytes are sent most significant bit first:
76543210 Second byte of report ||||++++- Signature: 0001 ||++----- Current sensitivity (0: low; 1: medium; 2: high) |+------- Left button (1: pressed) +-------- Right button (1: pressed) 76543210 Third byte of report |+++++++- Vertical displacement since last read +-------- Direction (1: up; 0: down) 76543210 Fourth byte of report |+++++++- Horizontal displacement since last read +-------- Direction (1: left; 0: right)
The displacements are in sign-and-magnitude, not two's complement. For example, $05 represents five mickeys (movement units) in one direction and $85 represents five mickeys in the other. To convert these to two's complement, use negation:
; Convert to two's complement lda third_byte bpl :+ eor #$7F sec adc #$00 : sta y_velocity lda fourth_byte bpl :+ eor #$7F sec adc #$00 : sta x_velocity
The mouse can be set to low, medium, or high sensitivity. To change the sensitivity, send a clock while the latch ($4016.d0) is turned on:
ldy #1 sty $4016 lda $4016,x dey sty $4016
Some revisions of the mouse's microcontroller reportedly power up in an unknown state and may return erratic values before the sensitivity is changed for the first time. A mouse detection routine should cycle through the sensitivities anyway to ensure that the connected device is in fact a mouse and not half of a Four Score.
Using more than two mice on an AV Famicom is not recommended for two reasons:
- A mouse draws 50 mA, which is much more current than the standard controller draws.
- Changing player 1's sensitivity also affects player 3's, and changing player 2's sensitivity also affects player 4's.
A program should not play DPCM samples and read the mouse at the same time, as sample playback causes occasional double reads on $4016 and $4017, deleting a bit from the stream read back. The re-reading solution that can be used for the standard controller fails here, because each latch pulse sent to a mouse will clear its count of accumulated movement.
A program could read the mouse while using the DMC as a interval timer, as long as the mouse is read in the IRQ handler so that the mouse reading subroutine can avoid the sample fetch.