castfbc :: a -> (String -> a) | mTaskType a
castfbc _ = fromByteCode
-instance toByteCode Bool where toByteCode b = {#'b',if b '\x01' '\0'}
+instance toByteCode Bool where toByteCode b = {'b',if b '\x01' '\0'}
instance toByteCode Int where toByteCode n = {'i',toChar $ n/256,toChar $ n rem 256}
instance toByteCode Long where toByteCode (L n) = {'l',toChar $ n/256,toChar $ n rem 256}
instance toByteCode Char where toByteCode c = {'c',c}
derive class gCons Long, UserLED, Button, AnalogPin, DigitalPin, PinMode, Pin
derive class iTask UserLED, Long, Pin, Button, AnalogPin, DigitalPin, PinMode, MTaskDeviceSpec
-op2 :: (ByteCode a p1) (ByteCode a p2) BC -> ByteCode b Expr
+op2 :: (ByteCode a p1) (ByteCode a p2) BC -> ByteCode b p3
op2 (BC x) (BC y) bc = BC $ x >>| y >>| tell [bc]
-op :: (ByteCode a p) BC -> ByteCode a Expr
+op :: (ByteCode a p) BC -> ByteCode b c
op (BC x) bc = BC $ x >>| tell [bc]
+tell` :: [BC] -> (ByteCode a p)
tell` x = BC $ tell x
instance arith ByteCode where
digitalWrite p b = op b (BCDigitalWrite $ pin p)
instance aIO ByteCode where
- aIO p = undef
+ aIO p = tell` [BCAnalogRead $ pin p]
instance dIO ByteCode where
dIO p = tell` [BCDigitalRead $ pin p]
instance noOp ByteCode where noOp = tell` [BCNop]
+unBC :: (ByteCode a p) -> RWS () [BC] BCState ()
unBC (BC x) = x
instance sds ByteCode where
addSDS sds v s = {s & sdss=[{sds & sdsval=BCValue v}:s.sdss]}
con f = undef
+
+instance sdspub ByteCode where
pub (BC x) = BC $ censor (\[BCSdsFetch s]->[BCSdsPublish s]) x
instance assign ByteCode where
serialParseInt = tell` [BCSerialParseInt]
instance userLed ByteCode where
- ledOn (BC l) = BC $ l >>| tell [BCLedOn]
- ledOff (BC l) = BC $ l >>| tell [BCLedOff]
+ ledOn l = op l BCLedOn
+ ledOff l = op l BCLedOff
instance retrn ByteCode where
retrn = tell` [BCReturn]
instance == BCShare where (==) a b = a.sdsi == b.sdsi
//Start = toMessages (OnInterval 500) $ toRealByteCode (unMain bc) zero
-Start = fst $ toReadableByteCode (unMain $ countAndLed) zero
+Start = fst $ toReadableByteCode (unMain $ bc) zero
//Start = fst $ toReadableByteCode (unMain $ blink LED1) zero
//Start = let (bcs, st) = toReadableByteCode (unMain bc) zero
// in (bcs, st.sdss)
where
// bc = {main = ledOn (lit LED1)}
- bc = sds \x=5 In
- sds \y=4 In
- {main = If (y ==. lit 0) (pub x) (x =. x *. y :. y =. y -. lit 1)}
+// bc = sds \x=5 In
+// sds \y=4 In
+// {main = If (y ==. lit 0) (pub x) (x =. x *. y :. y =. y -. lit 1)}
+ bc = {main =
+ IF (analogRead A0 >. lit 50)
+ ( digitalWrite D0 (lit True) )
+ ( digitalWrite D0 (lit False) )
+ }
+
to16bit :: Int -> String
to16bit i = toString (toChar (i/256)) +++ toString (toChar (i rem 256))