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Input.txt
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============================
On serialRaw and buttonState
============================
[Adapted from: https://forum.gigatron.io/viewtopic.php?f=4&t=138]
There are two system variables in page zero that appear to have the
same function. At least, you may be fooled into believing that if
you simply observe them in a simulator: [$000f] serialRaw and [$0011]
buttonState. In reality they have a somewhat different function,
and this difference has become significant.
In the README they're described as follows:
000f serialRaw New raw serial read
0011 buttonState Edge-triggered and resettable input bits
---------
serialRaw
---------
serialRaw is the raw value of the 74HC595 shift register U39 as
sampled 60 times per second. It reads 255 when idle or when there's
no device connected. It reads an ASCII code when a key is pressed.
Game controllers send byte values that are normally different from
ASCII codes (but not always: the classic counterexample is that
action button [A] is sent as 127, and that is also ASCII Delete).
The BabelFish software in Pluggy McPlugface normally sends ASCII
codes 3 times in succession, so that even slower software doesn't
have to miss a key, while also the keyboard's auto-repeat still
works. It maps cursor keys to game controller bit patterns, and
it sends those for as long as those keys are pressed down. BabelFish
has a few more such tricks so that PS/2 keyboards not only work
properly, but also act as a functional game controller replacement.
The game controller buttons are normally mapped to bits as follows:
bit 0: buttonRight
bit 1: buttonLeft
bit 2: buttonDown
bit 3: buttonUp
bit 4: buttonStart
bit 5: buttonSelect
bit 6: buttonB
bit 7: buttonA
These bits are normally 0 when pressed down, and 1 when idle. But
this is not universally true anymore as far as serialRaw is concerned!
Enter buttonState:
-----------
buttonState
-----------
First of all, buttonState typically follows serialRaw, but all the
way back since ROM v1 it had an extra featue. [$0010] is an internal
variable that hints at what's going on:
0010 (serialLast) Previous serial read (used for edge detection)
In short: buttonState responds only to button press changes: a bit
becomes 0 if the corresponding button was just pressed down. And
it becomes 1 again once it is released. The intent is that with
this you can reset the bits yourself as soon as you've processed
them. This extra feature is handy if you only want to take a single
action each time a button is pressed down (instead of a continuous
action while pressed):
1. you detect a 0 bit, indicating a button was just pressed down
2. you take your action for that button
3. you reset only that bit to 1
4. re-enter your I/O processing and handle the other bits
5. even if that button is still pressed down, you see it as released
until the next press down
With that there's no need to do edge-detection yourself!
New game controller types...
Second, of the summer of 2019 we're supporting a second type of
game controller. These controllers look and feel exactly the same,
except they have a different chip inside that sends different raw
signals. The vastly oversimplified story is: to keep software
compatible, the input handler recognises these game controllers
automatically, and converts their values to the "old" values in
buttonState. But it doesn't do that for serialRaw, because then
keyboards wouldn't work anymore. And with that, the bits in serialRaw
and buttonState don't have the same meaning anymore...
-----------------
Take-home message
-----------------
If you want to process game controller buttons: look at buttonState: peek(17) or LD $11
If you want to process ASCII input: look at serialRaw: peek(15) or LD $0f
P.S: Tetronis and Bricks were already using buttonState, so they
remain compatible. But two of our own programs needed a fix.
---------
Follow-up
---------
Question:
I tried to save some instructions while developing the Sprint Paint
app and set the entire buttonState to $ff instead of individual
bits -- then I realized I had turned off the soft reset functionality
by doing so.
Answer:
So far I only set buttonState's individual bits, not the whole
bunch. But a quick test in BASIC makes me believe that the soft
reset function keeps working if you restore buttonState in one go
with $ef (or $cf) instead of $ff.
-- End of document --