imporove setp: >>*.
*/
-//import iTasks
+import Generics.gCons
+import Generics.gdynamic
+
+import iTasks
+
import iTasks._Framework.Generic
-import iTasks._Framework.Task
+from iTasks._Framework.Task import :: Task
import StdClass
-from iTasks.API.Core.Types import :: Display
-import gdynamic, gCons, GenEq, StdMisc, StdArray
+import GenEq, StdMisc, StdArray
import mTaskCode, mTaskSimulation, mTaskInterpret
import mTaskSerial, mTaskLCD
:: DigitalPin
= D0 | D1 | D2 | D3 | D4 | D5 |D6 | D7 | D8 | D9 | D10 | D11 | D12 | D13
:: AnalogPin = A0 | A1 | A2 | A3 | A4 | A5
+:: UserLED = LED1 | LED2 | LED3
:: PinMode = INPUT | OUTPUT | INPUT_PULLUP
:: Pin = Digital DigitalPin | Analog AnalogPin
unMain :: (Main x) -> x
class arith v where
- lit :: t -> v t Expr | toCode t
+ lit :: t -> v t Expr | toCode t & toByteCode t
(+.) infixl 6 :: (v t p) (v t q) -> v t Expr | type, +, zero t & isExpr p & isExpr q //& toExpr2 p & toExpr2 q
(-.) infixl 6 :: (v t p) (v t q) -> v t Expr | type, -, zero t & isExpr p & isExpr q //& toExpr2 p & toExpr2 q
(*.) infixl 7 :: (v t p) (v t q) -> v t Expr | type, *, zero, one t & isExpr p & isExpr q //& toExpr2 p & toExpr2 q
var2 :: t ((v t Upd)->(Main (v c s))) -> (Main (v c s)) | type, toCode t
con2 :: t ((v t Expr) ->(Main (v c s))) -> (Main (v c s)) | type t
class sds v where
- sds :: ((v t Upd)->In t (Main (v c s))) -> (Main (v c s)) | type, toCode t
+ sds :: ((v t Upd)->In t (Main (v c s))) -> (Main (v c s)) | type, toByteCode, toCode t
con :: ((v t Expr) ->In t (Main (v c s))) -> (Main (v c s)) | type t
+ pub :: (v t Upd) -> v t Expr | type t
class seq v where
(>>=.) infixr 0 :: (v t p) ((v t Expr) -> (v u q)) -> (v u Stmt) | type t & type u
(:.) infixr 0 :: (v t p) (v u q) -> v u Stmt | type t & type u
delay :: (v Long p) -> (v Long Expr)
millis :: (v Long Expr)
+class userLed v where
+ ledOn :: UserLED -> (v () Stmt)
+ ledOff :: UserLED -> (v () Stmt)
+
class pio p t where pio :: p -> v t Upd | aIO v & dIO v
instance pio AnalogPin Int
instance pio AnalogPin Bool
:: In a b = In infix 0 a b
-read` :: Int (ReadWrite a) State -> (a,State) | dyn a
+read` :: Int (ReadWrite a) State` -> (a,State`) | dyn a
// ----- long ----- //