------------------------------------------------------------------------------
--- Library for constraint programming with arithmetic constraints over reals.
---
--- @category general
------------------------------------------------------------------------------
module CLPR((+.),(-.),(*.),(/.),(<.),(>.),(<=.),(>=.),i2f,
minimumFor,minimize,maximumFor,maximize) where
-- The operator declarations are similar to the standard arithmetic operators.
infixl 7 *., /.
infixl 6 +., -.
infix 4 <., >., <=., >=.
--- Addition on floats in arithmetic constraints.
(+.) :: Float -> Float -> Float
x +. y = (prim_CLPR_plus $! y) $! x
prim_CLPR_plus :: Float -> Float -> Float
prim_CLPR_plus external
--- Subtraction on floats in arithmetic constraints.
(-.) :: Float -> Float -> Float
x -. y = (prim_CLPR_minus $! y) $! x
prim_CLPR_minus :: Float -> Float -> Float
prim_CLPR_minus external
--- Multiplication on floats in arithmetic constraints.
(*.) :: Float -> Float -> Float
x *. y = (prim_CLPR_times $! y) $! x
prim_CLPR_times :: Float -> Float -> Float
prim_CLPR_times external
--- Division on floats in arithmetic constraints.
(/.) :: Float -> Float -> Float
x /. y = (prim_CLPR_div $! y) $! x
prim_CLPR_div :: Float -> Float -> Float
prim_CLPR_div external
--- "Less than" constraint on floats.
(<.) :: Float -> Float -> Bool
x <. y = (prim_CLPR_le $! y) $! x
prim_CLPR_le :: Float -> Float -> Bool
prim_CLPR_le external
--- "Greater than" constraint on floats.
(>.) :: Float -> Float -> Bool
x >. y = (prim_CLPR_ge $! y) $! x
prim_CLPR_ge :: Float -> Float -> Bool
prim_CLPR_ge external
--- "Less than or equal" constraint on floats.
(<=.) :: Float -> Float -> Bool
x <=. y = (prim_CLPR_leq $! y) $! x
prim_CLPR_leq :: Float -> Float -> Bool
prim_CLPR_leq external
--- "Greater than or equal" constraint on floats.
(>=.) :: Float -> Float -> Bool
x >=. y = (prim_CLPR_geq $! y) $! x
prim_CLPR_geq :: Float -> Float -> Bool
prim_CLPR_geq external
--- Conversion function from integers to floats.
--- Rigid in the first argument, i.e., suspends until the first argument
--- is ground.
i2f :: Int -> Float
i2f x = prim_CLPR_i2f $# x
prim_CLPR_i2f :: Int -> Float
prim_CLPR_i2f external
--- Computes the minimum with respect to a given constraint.
--- (minimumFor g f) evaluates to x if (g x) is satisfied and
--- (f x) is minimal. The evaluation fails if such a minimal value
--- does not exist. The evaluation suspends if it contains
--- unbound non-local variables.
minimumFor :: (a -> Bool) -> (a -> Float) -> a
minimumFor external
--- Minimization constraint.
--- (minimize g f x) is satisfied if (g x) is satisfied and
--- (f x) is minimal. The evaluation suspends if it contains
--- unbound non-local variables.
minimize :: Data a => (a -> Bool) -> (a -> Float) -> a -> Bool
minimize g f x = minimumFor g f =:= x
--- Computes the maximum with respect to a given constraint.
--- (maximumFor g f) evaluates to x if (g x) is satisfied and
--- (f x) is maximal. The evaluation fails if such a maximal value
--- does not exist. The evaluation suspends if it contains
--- unbound non-local variables.
maximumFor :: (a -> Bool) -> (a -> Float) -> a
maximumFor external
--- Maximization constraint.
--- (maximize g f x) is satisfied if (g x) is satisfied and
--- (f x) is maximal. The evaluation suspends if it contains
--- unbound non-local variables.
maximize :: Data a => (a -> Bool) -> (a -> Float) -> a -> Bool
maximize g f x = maximumFor g f =:= x
-- end of CLPR