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precondition before taking Gauss-Seidel step
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@ -25,7 +25,7 @@ import Control.Arrow
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import Control.Applicative
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import Control.Applicative
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( Applicative(..) )
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( Applicative(..) )
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import Control.Monad
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import Control.Monad
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( guard, unless )
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( unless )
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import Control.Monad.ST
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import Control.Monad.ST
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( RealWorld, ST )
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( RealWorld, ST )
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import Data.Bifunctor
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import Data.Bifunctor
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@ -33,7 +33,7 @@ import Data.Bifunctor
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import Data.Coerce
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import Data.Coerce
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( Coercible, coerce )
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( Coercible, coerce )
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import Data.Foldable
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import Data.Foldable
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( for_, toList )
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( for_ )
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import Data.Functor.Identity
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import Data.Functor.Identity
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( Identity(..) )
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( Identity(..) )
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import Data.List
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import Data.List
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@ -88,6 +88,8 @@ import qualified Control.Parallel.Strategies as Strats
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-- rounded-hw
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-- rounded-hw
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import Numeric.Rounded.Hardware
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import Numeric.Rounded.Hardware
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( Rounded(..) )
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( Rounded(..) )
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import Numeric.Rounded.Hardware.Interval.NonEmpty
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( Interval(..) )
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import qualified Numeric.Rounded.Hardware.Interval.NonEmpty as Interval
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import qualified Numeric.Rounded.Hardware.Interval.NonEmpty as Interval
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-- transformers
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-- transformers
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@ -122,7 +124,7 @@ import Math.Differentiable
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, type ExtentOrder
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, type ExtentOrder
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)
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)
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import Math.Epsilon
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import Math.Epsilon
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( epsilon )
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( epsilon, nearZero )
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import Math.Interval
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import Math.Interval
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import Math.Linear
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import Math.Linear
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import Math.Module
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import Math.Module
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@ -339,8 +341,7 @@ computeStrokeOutline fitParams ptParams toBrushParams brushFn spline@( Spline {
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( ( _, startTgtFwd), ( _, startTgtBwd ) ) = outlineFn firstOutlineFn $ ℝ1 0
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( ( _, startTgtFwd), ( _, startTgtBwd ) ) = outlineFn firstOutlineFn $ ℝ1 0
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( ( _, endTgtFwd ), ( _, endTgtBwd ) ) = outlineFn lastOutlineFn $ ℝ1 1
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( ( _, endTgtFwd ), ( _, endTgtBwd ) ) = outlineFn lastOutlineFn $ ℝ1 1
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fwdStartCap, bwdStartCap :: SplinePts Open
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fwdStartCap, bwdStartCap :: SplinePts Open
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cusps :: [ Cusp ]
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OutlineData ( fmap fst -> TwoSided fwdStartCap bwdStartCap ) _
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OutlineData ( fmap fst -> TwoSided fwdStartCap bwdStartCap ) cusps
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= snd . runWriter
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= snd . runWriter
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$ tellBrushJoin ( endTgt, endTgtFwd, endTgtBwd ) spt0 ( startTgt, startTgtFwd, startTgtBwd )
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$ tellBrushJoin ( endTgt, endTgtFwd, endTgtBwd ) spt0 ( startTgt, startTgtFwd, startTgtBwd )
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-> do
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-> do
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@ -596,7 +597,7 @@ outlineFunction ptParams toBrushParams brushFromParams sp0 crv =
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$ runD ( brushFromParams @Point proxy# id )
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$ runD ( brushFromParams @Point proxy# id )
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$ toBrushParams params_t
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$ toBrushParams params_t
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( newtDunno, newtSols ) = intervalNewtonGS 0.0001 curvesI
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( newtDunno, newtSols ) = intervalNewtonGS InverseMidJacobian 0.0001 curvesI
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in --trace
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in --trace
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-- ( unlines $
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-- ( unlines $
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@ -1184,9 +1185,14 @@ cuspCoords eqs ( 𝕀 ( ℝ1 t_lo ) ( ℝ1 t_hi ), i, 𝕀 ( ℝ1 s_lo ) ( ℝ1
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}
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}
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where
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where
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t_mid = 0.5 * ( t_lo + t_hi )
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t_mid = 0.5 * ( t_lo + t_hi )
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s_mid = 0.5 * ( t_lo + t_hi )
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s_mid = 0.5 * ( s_lo + s_hi )
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data Preconditioner
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= NoPreconditioning
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| InverseMidJacobian
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deriving stock Show
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-- | Interval Newton method with Gauss–Seidel step for inversion
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-- | Interval Newton method with Gauss–Seidel step for inversion
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-- of the interval Jacobian.
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-- of the interval Jacobian.
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--
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--
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@ -1194,10 +1200,11 @@ cuspCoords eqs ( 𝕀 ( ℝ1 t_lo ) ( ℝ1 t_hi ), i, 𝕀 ( ℝ1 s_lo ) ( ℝ1
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-- (and to which Newton's method will converge starting from anywhere inside
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-- (and to which Newton's method will converge starting from anywhere inside
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-- the box), and @dunno@ which are small boxes which might or might not
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-- the box), and @dunno@ which are small boxes which might or might not
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-- contain solutions.
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-- contain solutions.
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intervalNewtonGS :: Double
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intervalNewtonGS :: Preconditioner
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-> Double
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-> ( 𝕀ℝ 1 -> Seq ( 𝕀ℝ 1 -> StrokeDatum 'Interval ) )
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-> ( 𝕀ℝ 1 -> Seq ( 𝕀ℝ 1 -> StrokeDatum 'Interval ) )
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-> ( [ ( 𝕀ℝ 1, Int, 𝕀ℝ 1 ) ], [ ( 𝕀ℝ 1, Int, 𝕀ℝ 1 ) ] )
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-> ( [ ( 𝕀ℝ 1, Int, 𝕀ℝ 1 ) ], [ ( 𝕀ℝ 1, Int, 𝕀ℝ 1 ) ] )
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intervalNewtonGS minWidth eqs =
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intervalNewtonGS precondMethod minWidth eqs =
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go [ ( 𝕀 ( ℝ1 0 ) ( ℝ1 1 ), i, 𝕀 ( ℝ1 0 ) ( ℝ1 1 ) )
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go [ ( 𝕀 ( ℝ1 0 ) ( ℝ1 1 ), i, 𝕀 ( ℝ1 0 ) ( ℝ1 1 ) )
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| i <- [ 0 .. length ( eqs ( 𝕀 ( ℝ1 0 ) ( ℝ1 1 ) ) ) - 1 ]
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| i <- [ 0 .. length ( eqs ( 𝕀 ( ℝ1 0 ) ( ℝ1 1 ) ) ) - 1 ]
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]
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]
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@ -1231,13 +1238,11 @@ intervalNewtonGS minWidth eqs =
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, cmpℝ2 (>) ( getRounded ( Interval.sup $ ival f ) ) ( ℝ2 0 0 )
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, cmpℝ2 (>) ( getRounded ( Interval.sup $ ival f ) ) ( ℝ2 0 0 )
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-> let -- Interval Newton method: take one Gauss–Seidel step
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-> let -- Interval Newton method: take one Gauss–Seidel step
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-- for the equation f'(X) v = - f(x_mid).
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-- for the equation f'(X) v = - f(x_mid).
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-- !precond = matInverse ( f_t_mid, f_s_mid )
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!( a, b ) = precondition precondMethod
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-- !a = matMul precond ( f_t, f_s )
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( f_t_mid, f_s_mid )
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-- !b = matMulVec precond ( neg f_mid )
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( f_t, f_s ) ( neg f_mid )
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-- !gsGuesses = gaussSeidel a b ( t, s )
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!gsGuesses = gaussSeidel
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!gsGuesses = gaussSeidel a b
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( f_t, f_s )
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( neg f_mid )
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( coerce ( (-) @( 𝕀 Double ) ) t i_t_mid
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( coerce ( (-) @( 𝕀 Double ) ) t i_t_mid
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, coerce ( (-) @( 𝕀 Double ) ) s i_s_mid )
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, coerce ( (-) @( 𝕀 Double ) ) s i_s_mid )
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in if all ( smaller . fst ) gsGuesses
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in if all ( smaller . fst ) gsGuesses
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@ -1283,6 +1288,50 @@ intervalNewtonGS minWidth eqs =
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!( 𝕀 y'_lo y'_hi ) = negate $ 𝕀 y_lo y_hi
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!( 𝕀 y'_lo y'_hi ) = negate $ 𝕀 y_lo y_hi
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in 𝕀 ( ℝ2 x'_lo y'_lo ) ( ℝ2 x'_hi y'_hi )
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in 𝕀 ( ℝ2 x'_lo y'_lo ) ( ℝ2 x'_hi y'_hi )
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precondition :: Preconditioner
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-> ( 𝕀ℝ 2, 𝕀ℝ 2 )
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-> ( 𝕀ℝ 2, 𝕀ℝ 2 )
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-> 𝕀ℝ 2
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-> ( ( 𝕀ℝ 2, 𝕀ℝ 2 ), 𝕀ℝ 2 )
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precondition meth jac_mid a@( a1, a2 ) b =
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case meth of
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NoPreconditioning
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-> ( a, b )
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InverseMidJacobian
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| ( 𝕀 ( ℝ2 a11_lo a21_lo ) ( ℝ2 a11_hi a21_hi )
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, 𝕀 ( ℝ2 a12_lo a22_lo ) ( ℝ2 a12_hi a22_hi ) ) <- jac_mid
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, let !a11 = 0.5 * ( a11_lo + a11_hi )
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!a12 = 0.5 * ( a12_lo + a12_hi )
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!a21 = 0.5 * ( a21_lo + a21_hi )
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!a22 = 0.5 * ( a22_lo + a22_hi )
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!d = a11 * a22 - a12 * a21
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, not ( nearZero d )
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, let !precond = ( ℝ2 a22 -a21, ℝ2 -a12 a11 )
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!inv = recip d
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f x = scale inv $ matMulVec precond x
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-> ( ( f a1, f a2 ), f b )
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| otherwise
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-> ( a, b )
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scale :: Double -> 𝕀ℝ 2 -> 𝕀ℝ 2
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scale s ( 𝕀 ( ℝ2 a1_lo a2_lo ) ( ℝ2 a1_hi a2_hi ) )
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| I ( Rounded b1_lo ) ( Rounded b1_hi )
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<- I ( Rounded s ) ( Rounded s ) * I ( Rounded a1_lo ) ( Rounded a1_hi )
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, I ( Rounded b2_lo ) ( Rounded b2_hi )
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<- I ( Rounded s ) ( Rounded s ) * I ( Rounded a2_lo ) ( Rounded a2_hi )
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= 𝕀 ( ℝ2 b1_lo b2_lo ) ( ℝ2 b1_hi b2_hi )
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matMulVec :: ( ℝ 2, ℝ 2 ) -> 𝕀ℝ 2 -> 𝕀ℝ 2
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matMulVec ( ℝ2 a11 a21, ℝ2 a12 a22 ) ( 𝕀 ( ℝ2 u_lo v_lo ) ( ℝ2 u_hi v_hi ) ) =
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let !( I ( Rounded u'_lo ) ( Rounded u'_hi ) ) =
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I ( Rounded a11 ) ( Rounded a11 ) * I ( Rounded u_lo ) ( Rounded u_hi )
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+ I ( Rounded a12 ) ( Rounded a12 ) * I ( Rounded v_lo ) ( Rounded v_hi )
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!( I ( Rounded v'_lo ) ( Rounded v'_hi ) ) =
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I ( Rounded a21 ) ( Rounded a21 ) * I ( Rounded u_lo ) ( Rounded u_hi )
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+ I ( Rounded a22 ) ( Rounded a22 ) * I ( Rounded v_lo ) ( Rounded v_hi )
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in 𝕀 ( ℝ2 u'_lo v'_lo ) ( ℝ2 u'_hi v'_hi )
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cmpℝ2 :: ( Double -> Double -> Bool ) -> ℝ 2 -> ℝ 2 -> Bool
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cmpℝ2 :: ( Double -> Double -> Bool ) -> ℝ 2 -> ℝ 2 -> Bool
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cmpℝ2 cmp ( ℝ2 x1 y1 ) ( ℝ2 x2 y2 )
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cmpℝ2 cmp ( ℝ2 x1 y1 ) ( ℝ2 x2 y2 )
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= cmp x1 x2 && cmp y1 y2
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= cmp x1 x2 && cmp y1 y2
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