Safe Haskell | None |
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- data T r a = forall s . (Phi s, Undefined s) => Cons s (forall z. Phi z => s -> T r z (a, s))
- mapM_ :: (a -> CodeGenFunction r ()) -> T r a -> CodeGenFunction r ()
- mapState_ :: Phi t => (a -> t -> CodeGenFunction r t) -> T r a -> t -> CodeGenFunction r t
- mapStateM_ :: Phi t => (a -> StateT t (CodeGenFunction r) ()) -> T r a -> StateT t (CodeGenFunction r) ()
- mapWhileState_ :: Phi t => (a -> t -> CodeGenFunction r (Value Bool, t)) -> T r a -> t -> CodeGenFunction r t
- empty :: T r a
- singleton :: a -> T r a
- cons :: (Phi a, Undefined a) => a -> T r a -> T r a
- mapM :: (a -> CodeGenFunction r b) -> T r a -> T r b
- mapMaybe :: (Phi b, Undefined b) => (a -> CodeGenFunction r (T b)) -> T r a -> T r b
- catMaybes :: (Phi a, Undefined a) => T r (T a) -> T r a
- takeWhileJust :: T r (T a) -> T r a
- takeWhile :: (a -> CodeGenFunction r (Value Bool)) -> T r a -> T r a
- iterate :: (Phi a, Undefined a) => (a -> CodeGenFunction r a) -> a -> T r a
- cartesianAux :: (Phi a, Phi b, Undefined a, Undefined b) => T r a -> T r b -> T r (T (a, b))
- cartesian :: (Phi a, Phi b, Undefined a, Undefined b) => T r a -> T r b -> T r (a, b)
- countDown :: (Num i, IsConst i, IsInteger i, CmpRet i, CmpResult i ~ Bool) => Value i -> T r (Value i)
- take :: (Num i, IsConst i, IsInteger i, CmpRet i, CmpResult i ~ Bool) => Value i -> T r a -> T r a
- arrayPtrs :: IsType a => Value (Ptr a) -> T r (Value (Ptr a))
- fixedLengthLoop :: (Phi s, Num i, IsConst i, IsInteger i, CmpRet i, CmpResult i ~ Bool) => Value i -> s -> (s -> CodeGenFunction r s) -> CodeGenFunction r s
- arrayLoop :: (Phi a, IsType b, Num i, IsConst i, IsInteger i, CmpRet i, CmpResult i ~ Bool) => Value i -> Value (Ptr b) -> a -> (Value (Ptr b) -> a -> CodeGenFunction r a) -> CodeGenFunction r a
- arrayLoopWithExit :: (Phi s, IsType a, Num i, IsConst i, IsInteger i, CmpRet i, CmpResult i ~ Bool) => Value i -> Value (Ptr a) -> s -> (Value (Ptr a) -> s -> CodeGenFunction r (Value Bool, s)) -> CodeGenFunction r (Value i, s)
- arrayLoop2 :: (Phi s, IsType a, IsType b, Num i, IsConst i, IsInteger i, CmpRet i, CmpResult i ~ Bool) => Value i -> Value (Ptr a) -> Value (Ptr b) -> s -> (Value (Ptr a) -> Value (Ptr b) -> s -> CodeGenFunction r s) -> CodeGenFunction r s
Documentation
Simulates a non-strict list.
Functor (T r) | |
Applicative (T r) |
|
mapM_ :: (a -> CodeGenFunction r ()) -> T r a -> CodeGenFunction r ()Source
mapState_ :: Phi t => (a -> t -> CodeGenFunction r t) -> T r a -> t -> CodeGenFunction r tSource
mapStateM_ :: Phi t => (a -> StateT t (CodeGenFunction r) ()) -> T r a -> StateT t (CodeGenFunction r) ()Source
mapWhileState_ :: Phi t => (a -> t -> CodeGenFunction r (Value Bool, t)) -> T r a -> t -> CodeGenFunction r tSource
mapM :: (a -> CodeGenFunction r b) -> T r a -> T r bSource
takeWhileJust :: T r (T a) -> T r aSource
iterate :: (Phi a, Undefined a) => (a -> CodeGenFunction r a) -> a -> T r aSource
Attention:
This always performs one function call more than necessary.
I.e. if f
reads from or writes to memory
make sure that accessing one more pointer is legal.
helper functions
countDown :: (Num i, IsConst i, IsInteger i, CmpRet i, CmpResult i ~ Bool) => Value i -> T r (Value i)Source
take :: (Num i, IsConst i, IsInteger i, CmpRet i, CmpResult i ~ Bool) => Value i -> T r a -> T r aSource
examples
fixedLengthLoop :: (Phi s, Num i, IsConst i, IsInteger i, CmpRet i, CmpResult i ~ Bool) => Value i -> s -> (s -> CodeGenFunction r s) -> CodeGenFunction r sSource
arrayLoop :: (Phi a, IsType b, Num i, IsConst i, IsInteger i, CmpRet i, CmpResult i ~ Bool) => Value i -> Value (Ptr b) -> a -> (Value (Ptr b) -> a -> CodeGenFunction r a) -> CodeGenFunction r aSource