implementation module mTaskInterpret
//import iTasks
-import gdynamic, gCons, GenEq, StdMisc, StdArray
+import gdynamic, gCons, GenEq, StdMisc, StdArray, GenBimap
import GenPrint
import mTask
+import StdFile
+import StdString
+
from StdFunc import o
+import StdBool
import StdTuple
import Data.Tuple
-import Control.Monad
-import Control.Monad.State
+import StdList
from Data.Func import $
-
+from Text import class Text(join,toUpperCase), instance Text String
toByteVal :: BC -> String
toByteVal a = undef
-derive gPrint BC
+derive gPrint BC, AnalogPin
+derive consIndex BC
+derive consName BC
toReadableByteVal :: BC -> String
toReadableByteVal a = printToString a
-//:: ByteCode a p = BC (BCState -> ([BC], BCState))
instance arith ByteCode where
- lit a = BC \_ s->([BCPush $ toCode a], s)
- (+.) _ _ = undef
- (-.) _ _ = undef
- (*.) _ _ = undef
- (/.) _ _ = undef
+ lit x = BC [BCPush $ toCode x]
+ (+.) x y = x <++> y <+-> [BCAdd]
+ (-.) x y = x <++> y <+-> [BCSub]
+ (*.) x y = x <++> y <+-> [BCMul]
+ (/.) x y = x <++> y <+-> [BCDiv]
+
+instance boolExpr ByteCode where
+ (&.) x y = x <++> y <+-> [BCAnd]
+ (|.) x y = x <++> y <+-> [BCOr]
+ Not x = x <+-> [BCNot]
+ (==.) x y = x <++> y <+-> [BCEq]
+ (!=.) x y = x <++> y <+-> [BCNeq]
+ (<.) x y = x <++> y <+-> [ BCLes]
+ (>.) x y = x <++> y <+-> [BCGre]
+ (<=.) x y = x <++> y <+-> [BCLeq]
+ (>=.) x y = x <++> y <+-> [BCGeq]
+
+instance analogIO ByteCode where
+ analogRead p = BC [BCAnalogRead $ toCode p]
+ analogWrite p b = b <+-> [BCAnalogWrite $ toCode p]
+
+instance digitalIO ByteCode where
+ digitalRead p = BC [BCDigitalRead $ toCode p]
+ digitalWrite p b = b <+-> [BCDigitalWrite $ toCode p]
+
+instance If ByteCode Stmt Stmt Stmt where If b t e = BCIfStmt b t e
+instance If ByteCode Stmt e Stmt where If b t e = BCIfStmt b t e
+instance If ByteCode Stmt Stmt e where If b t e = BCIfStmt b t e
+instance If ByteCode x y Expr where If b t e = BCIfStmt b t e
+instance IF ByteCode where
+ IF b t e = BCIfStmt b t e
+ (?) b t = BCIfStmt b t $ BC []
+BCIfStmt b t e = b <+-> [BCJmpF $ length <$> t + 1] <++> t
+ <+-> [BCJmp $ length <$> e] <++> e
+
+instance noOp ByteCode where noOp = BC []
instance serial ByteCode where
- serialAvailable = undef
- serialPrint _ = undef
- serialPrintln _ = undef
- serialRead = undef
- serialParseInt = undef
+ serialAvailable = BC [BCSerialAvail]
+ serialPrint s = BC [BCSerialPrint]
+ serialPrintln s = BC [BCSerialPrintln]
+ serialRead = BC [BCSerialRead]
+ serialParseInt = BC [BCSerialParseInt]
+
+(<++>) infixl 7
+(<++>) (BC x) (BC y) = BC $ x ++ y
+(<+->) infixl 7
+(<+->) (BC x) y = BC $ x ++ y
+(<-+>) infixl 7
+(<-+>) x (BC y) = BC $ x ++ y
+
+(<$>) infixl 9
+(<$>) f (BC x) = f x
instance zero BCState where
zero = {a=()}
-runByteCode :: (ByteCode Int Expr) BCState -> [BC]
-runByteCode (BC f) s = fst (f Rd s)
-
-//Start :: Main (ByteCode Int Expr)
-Start :: [BC]
//Start :: ByteCode Int Expr
-Start = runByteCode (lit 36) zero
+//Start = (lit 36 +. lit 42) +. lit 84
+
+//Run test programma en pretty print
+Start :: ByteCode Int Expr
+Start = If (lit True) (analogRead A1) (analogRead A0)
+//Start = If ((lit 36) ==. (lit 42)) (noOp) (noOp)
+
+//Generate header file
+//Start w
+//# (io, w) = stdio w
+//# io = io <<< "#ifndef MTASK_H\n#define MTASK_H\n"
+//# io = io <<< join "\n" ["#define " <+ toUpperCase (consName{|*|} x) <+ " " <+ consIndex{|*|} x\\x<-allBC]
+// with
+// allBC :: [BC]
+// allBC = conses{|*|}
+//# (ok, w) = fclose (io <<< "\n#endif\n") w
+//| not ok = abort "Couldn't close stdio"
+//= w