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Improve robustness of quadratic equation solver
Based on ideas from the paper "The Ins and Outs of Solving Quadratic Equations with Floating-Point Arithmetic" (Frédéric Goualard, 2023) Could still be improved further, but I think this is acceptable for now.
This commit is contained in:
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@ -153,6 +153,8 @@ library
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^>= 3.3.7.0
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^>= 3.3.7.0
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, filepath
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, filepath
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>= 1.4 && < 1.6
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>= 1.4 && < 1.6
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, fp-ieee
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^>= 0.1.0.4
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, groups-generic
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, groups-generic
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^>= 0.3.1.0
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^>= 0.3.1.0
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, parallel
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, parallel
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@ -2,6 +2,7 @@ packages: .
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constraints:
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constraints:
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acts -finitary,
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acts -finitary,
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fp-ieee +fma3,
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rounded-hw -pure-hs -c99 -avx512 +ghc-prim -x87-long-double
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rounded-hw -pure-hs -c99 -avx512 +ghc-prim -x87-long-double
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tests: True
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tests: True
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@ -123,9 +123,9 @@ chainRule ( D df ) ( D dg ) =
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uncurryD2 :: D 2 a ~ D 2 ( ℝ 1 )
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uncurryD2 :: D 2 a ~ D 2 ( ℝ 1 )
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=> D 2 ( ℝ 1 ) ( C 2 a b ) -> a -> D 2 ( ℝ 2 ) b
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=> D 2 ( ℝ 1 ) ( C 2 a b ) -> a -> D 2 ( ℝ 2 ) b
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uncurryD2 ( D21 ( D b_t0 ) ( T ( D dbdt_t0 ) ) ( T ( D d2bdt2_t0 ) ) ) s0 =
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uncurryD2 ( D21 ( D b_t0 ) ( T ( D dbdt_t0 ) ) ( T ( D d2bdt2_t0 ) ) ) s0 =
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let !( D21 b_t0s0 dbds_t0s0 d2bds2_t0s0 ) = b_t0 s0
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let D21 b_t0s0 dbds_t0s0 d2bds2_t0s0 = b_t0 s0
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!( D21 dbdt_t0s0 d2bdtds_t0s0 _ ) = dbdt_t0 s0
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D21 dbdt_t0s0 d2bdtds_t0s0 _ = dbdt_t0 s0
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!( D21 d2bdt2_t0s0 _ _ ) = d2bdt2_t0 s0
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D21 d2bdt2_t0s0 _ _ = d2bdt2_t0 s0
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in D22
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in D22
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b_t0s0
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b_t0s0
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( T dbdt_t0s0 ) dbds_t0s0
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( T dbdt_t0s0 ) dbds_t0s0
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@ -134,10 +134,10 @@ uncurryD2 ( D21 ( D b_t0 ) ( T ( D dbdt_t0 ) ) ( T ( D d2bdt2_t0 ) ) ) s0 =
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uncurryD3 :: D 3 a ~ D 3 ( ℝ 1 )
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uncurryD3 :: D 3 a ~ D 3 ( ℝ 1 )
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=> D 3 ( ℝ 1 ) ( C 3 a b ) -> a -> D 3 ( ℝ 2 ) b
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=> D 3 ( ℝ 1 ) ( C 3 a b ) -> a -> D 3 ( ℝ 2 ) b
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uncurryD3 ( D31 ( D b_t0 ) ( T ( D dbdt_t0 ) ) ( T ( D d2bdt2_t0 ) ) ( T ( D d3bdt3_t0 ) ) ) s0 =
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uncurryD3 ( D31 ( D b_t0 ) ( T ( D dbdt_t0 ) ) ( T ( D d2bdt2_t0 ) ) ( T ( D d3bdt3_t0 ) ) ) s0 =
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let !( D31 b_t0s0 dbds_t0s0 d2bds2_t0s0 d3bds3_t0s0 ) = b_t0 s0
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let D31 b_t0s0 dbds_t0s0 d2bds2_t0s0 d3bds3_t0s0 = b_t0 s0
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!( D31 dbdt_t0s0 d2bdtds_t0s0 d3bdtds2_t0s0 _ ) = dbdt_t0 s0
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D31 dbdt_t0s0 d2bdtds_t0s0 d3bdtds2_t0s0 _ = dbdt_t0 s0
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!( D31 d2bdt2_t0s0 d3bdt2ds_t0s0 _ _ ) = d2bdt2_t0 s0
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D31 d2bdt2_t0s0 d3bdt2ds_t0s0 _ _ = d2bdt2_t0 s0
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!( D31 d3bdt3_t0s0 _ _ _ ) = d3bdt3_t0 s0
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D31 d3bdt3_t0s0 _ _ _ = d3bdt3_t0 s0
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in D32
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in D32
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b_t0s0
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b_t0s0
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( T dbdt_t0s0 ) dbds_t0s0
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( T dbdt_t0s0 ) dbds_t0s0
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@ -139,7 +139,7 @@ data D1𝔸3 v =
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data D2𝔸3 v =
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data D2𝔸3 v =
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D23 { _D23_v :: v
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D23 { _D23_v :: v
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, _D23_dx, _D23_dy, _D23_dz :: ( T v )
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, _D23_dx, _D23_dy, _D23_dz :: ( T v )
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, _D23_dxdx, _D23_dxdy, _D23_dydy, _D23_dxdz, _D23_dydz, _D23_dzdz :: !( T v )
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, _D23_dxdx, _D23_dxdy, _D23_dydy, _D23_dxdz, _D23_dydz, _D23_dzdz :: ( T v )
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}
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}
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deriving stock ( Show, Eq, Functor, Foldable, Traversable, Generic, Generic1 )
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deriving stock ( Show, Eq, Functor, Foldable, Traversable, Generic, Generic1 )
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deriving anyclass NFData
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deriving anyclass NFData
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@ -150,9 +150,9 @@ data D2𝔸3 v =
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data D3𝔸3 v =
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data D3𝔸3 v =
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D33 { _D33_v :: v
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D33 { _D33_v :: v
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, _D33_dx, _D33_dy, _D33_dz :: ( T v )
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, _D33_dx, _D33_dy, _D33_dz :: ( T v )
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, _D33_dxdx, _D33_dxdy, _D33_dydy, _D33_dxdz, _D33_dydz, _D33_dzdz :: !( T v )
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, _D33_dxdx, _D33_dxdy, _D33_dydy, _D33_dxdz, _D33_dydz, _D33_dzdz :: ( T v )
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, _D33_dxdxdx, _D33_dxdxdy, _D33_dxdydy, _D33_dydydy
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, _D33_dxdxdx, _D33_dxdxdy, _D33_dxdydy, _D33_dydydy
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, _D33_dxdxdz, _D33_dxdydz, _D33_dxdzdz, _D33_dydydz, _D33_dydzdz, _D33_dzdzdz :: !( T v )
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, _D33_dxdxdz, _D33_dxdydz, _D33_dxdzdz, _D33_dydydz, _D33_dydzdz, _D33_dzdzdz :: ( T v )
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}
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}
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deriving stock ( Show, Eq, Functor, Foldable, Traversable, Generic, Generic1 )
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deriving stock ( Show, Eq, Functor, Foldable, Traversable, Generic, Generic1 )
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deriving anyclass NFData
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deriving anyclass NFData
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@ -370,11 +370,13 @@ instance MonomialBasis D1𝔸2 where
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_D12_dx = T $ f $ Mon ( Vec [ 1, 0 ] )
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_D12_dx = T $ f $ Mon ( Vec [ 1, 0 ] )
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_D12_dy = T $ f $ Mon ( Vec [ 0, 1 ] )
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_D12_dy = T $ f $ Mon ( Vec [ 0, 1 ] )
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in D12 { .. }
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in D12 { .. }
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{-# INLINE monTabulate #-}
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monIndex d = \ case
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monIndex d = \ case
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Mon ( Vec [ 1, 0 ] ) -> unT $ _D12_dx d
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Mon ( Vec [ 1, 0 ] ) -> unT $ _D12_dx d
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Mon ( Vec [ 0, 1 ] ) -> unT $ _D12_dy d
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Mon ( Vec [ 0, 1 ] ) -> unT $ _D12_dy d
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_ -> _D12_v d
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_ -> _D12_v d
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{-# INLINE monIndex #-}
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type instance Deg D2𝔸2 = 2
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type instance Deg D2𝔸2 = 2
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type instance Vars D2𝔸2 = 2
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type instance Vars D2𝔸2 = 2
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@ -453,12 +455,14 @@ instance MonomialBasis D1𝔸3 where
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!_D13_dy = T $ f ( Mon ( Vec [ 0, 1, 0 ] ) )
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!_D13_dy = T $ f ( Mon ( Vec [ 0, 1, 0 ] ) )
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!_D13_dz = T $ f ( Mon ( Vec [ 0, 0, 1 ] ) )
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!_D13_dz = T $ f ( Mon ( Vec [ 0, 0, 1 ] ) )
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in D13 { .. }
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in D13 { .. }
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{-# INLINE monTabulate #-}
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monIndex d = \ case
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monIndex d = \ case
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Mon ( Vec [ 1, 0, 0 ] ) -> unT $ _D13_dx d
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Mon ( Vec [ 1, 0, 0 ] ) -> unT $ _D13_dx d
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Mon ( Vec [ 0, 1, 0 ] ) -> unT $ _D13_dy d
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Mon ( Vec [ 0, 1, 0 ] ) -> unT $ _D13_dy d
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Mon ( Vec [ 0, 0, 1 ] ) -> unT $ _D13_dz d
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Mon ( Vec [ 0, 0, 1 ] ) -> unT $ _D13_dz d
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_ -> _D13_v d
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_ -> _D13_v d
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{-# INLINE monIndex #-}
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type instance Deg D2𝔸3 = 2
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type instance Deg D2𝔸3 = 2
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type instance Vars D2𝔸3 = 3
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type instance Vars D2𝔸3 = 3
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@ -38,6 +38,10 @@ import Data.Act
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import Control.DeepSeq
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import Control.DeepSeq
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( NFData, NFData1 )
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( NFData, NFData1 )
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-- fp-ieee
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import Numeric.Floating.IEEE.NaN
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( RealFloatNaN )
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-- groups
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-- groups
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import Data.Group
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import Data.Group
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( Group )
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( Group )
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@ -287,10 +291,12 @@ selfIntersectionParameters ( Bezier {..} ) = solveQuadratic c0 c1 c2
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c2 = f1 + f2 - f3
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c2 = f1 + f2 - f3
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-- | Extremal values of the Bézier parameter for a cubic Bézier curve.
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-- | Extremal values of the Bézier parameter for a cubic Bézier curve.
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extrema :: RealFloat r => Bezier r -> [ r ]
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extrema :: RealFloatNaN r => Bezier r -> [ r ]
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extrema ( Bezier {..} ) = solveQuadratic c b a
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extrema ( Bezier {..} ) = solveQuadratic c b a
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where
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where
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a = p3 - 3 * p2 + 3 * p1 - p0
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a = p3 - 3 * p2 + 3 * p1 - p0
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b = 2 * ( p0 - 2 * p1 + p2 )
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b = 2 * ( p0 - 2 * p1 + p2 )
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c = p1 - p0
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c = p1 - p0
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{-# INLINEABLE extrema #-}
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{-# INLINEABLE extrema #-}
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{-# SPECIALISE extrema :: Bezier Double -> [ Double ] #-}
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@ -148,23 +148,20 @@ instance RepresentableQ Double ( ℝ 0 ) where
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instance RepresentableQ Double ( ℝ 1 ) where
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instance RepresentableQ Double ( ℝ 1 ) where
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tabulateQ f = [|| ℝ1 $$( f ( Fin 1 ) ) ||]
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tabulateQ f = [|| ℝ1 $$( f ( Fin 1 ) ) ||]
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indexQ p = \ case
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indexQ p = \ case
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Fin 1 -> [|| unℝ1 $$p ||]
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_ -> [|| unℝ1 $$p ||]
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Fin i -> error $ "invalid index for ℝ 1: " ++ show i
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instance RepresentableQ Double ( ℝ 2 ) where
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instance RepresentableQ Double ( ℝ 2 ) where
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tabulateQ f = [|| ℝ2 $$( f ( Fin 1 ) ) $$( f ( Fin 2 ) ) ||]
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tabulateQ f = [|| ℝ2 $$( f ( Fin 1 ) ) $$( f ( Fin 2 ) ) ||]
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indexQ p = \ case
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indexQ p = \ case
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Fin 1 -> [|| _ℝ2_x $$p ||]
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Fin 1 -> [|| _ℝ2_x $$p ||]
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Fin 2 -> [|| _ℝ2_y $$p ||]
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_ -> [|| _ℝ2_y $$p ||]
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Fin i -> error $ "invalid index for ℝ 2: " ++ show i
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instance RepresentableQ Double ( ℝ 3 ) where
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instance RepresentableQ Double ( ℝ 3 ) where
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tabulateQ f = [|| ℝ3 $$( f ( Fin 1 ) ) $$( f ( Fin 2 ) ) $$( f ( Fin 3 ) ) ||]
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tabulateQ f = [|| ℝ3 $$( f ( Fin 1 ) ) $$( f ( Fin 2 ) ) $$( f ( Fin 3 ) ) ||]
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indexQ p = \ case
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indexQ p = \ case
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Fin 1 -> [|| _ℝ3_x $$p ||]
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Fin 1 -> [|| _ℝ3_x $$p ||]
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Fin 2 -> [|| _ℝ3_y $$p ||]
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Fin 2 -> [|| _ℝ3_y $$p ||]
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Fin 3 -> [|| _ℝ3_z $$p ||]
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_ -> [|| _ℝ3_z $$p ||]
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Fin i -> error $ "invalid index for ℝ 3: " ++ show i
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instance RepresentableQ Double ( ℝ 4 ) where
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instance RepresentableQ Double ( ℝ 4 ) where
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tabulateQ f = [|| ℝ4 $$( f ( Fin 1 ) ) $$( f ( Fin 2 ) ) $$( f ( Fin 3 ) ) $$( f ( Fin 4 ) ) ||]
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tabulateQ f = [|| ℝ4 $$( f ( Fin 1 ) ) $$( f ( Fin 2 ) ) $$( f ( Fin 3 ) ) $$( f ( Fin 4 ) ) ||]
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Fin 1 -> [|| _ℝ4_x $$p ||]
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Fin 1 -> [|| _ℝ4_x $$p ||]
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Fin 2 -> [|| _ℝ4_y $$p ||]
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Fin 2 -> [|| _ℝ4_y $$p ||]
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Fin 3 -> [|| _ℝ4_z $$p ||]
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Fin 3 -> [|| _ℝ4_z $$p ||]
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Fin 4 -> [|| _ℝ4_w $$p ||]
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_ -> [|| _ℝ4_w $$p ||]
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Fin i -> error $ "invalid index for ℝ 4: " ++ show i
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instance Representable Double ( ℝ 0 ) where
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instance Representable Double ( ℝ 0 ) where
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tabulate _ = ℝ0
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tabulate _ = ℝ0
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tabulate f = ℝ1 ( f ( Fin 1 ) )
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tabulate f = ℝ1 ( f ( Fin 1 ) )
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{-# INLINE tabulate #-}
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{-# INLINE tabulate #-}
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index p = \ case
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index p = \ case
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Fin 1 -> unℝ1 p
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_ -> unℝ1 p
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Fin i -> error $ "invalid index for ℝ 1: " ++ show i
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{-# INLINE index #-}
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{-# INLINE index #-}
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instance Representable Double ( ℝ 2 ) where
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instance Representable Double ( ℝ 2 ) where
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@ -194,8 +189,7 @@ instance Representable Double ( ℝ 2 ) where
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{-# INLINE tabulate #-}
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{-# INLINE tabulate #-}
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index p = \ case
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index p = \ case
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Fin 1 -> _ℝ2_x p
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Fin 1 -> _ℝ2_x p
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Fin 2 -> _ℝ2_y p
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_ -> _ℝ2_y p
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Fin i -> error $ "invalid index for ℝ 2: " ++ show i
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{-# INLINE index #-}
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{-# INLINE index #-}
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instance Representable Double ( ℝ 3 ) where
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instance Representable Double ( ℝ 3 ) where
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index p = \ case
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index p = \ case
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Fin 1 -> _ℝ3_x p
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Fin 1 -> _ℝ3_x p
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Fin 2 -> _ℝ3_y p
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Fin 2 -> _ℝ3_y p
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Fin 3 -> _ℝ3_z p
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_ -> _ℝ3_z p
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Fin i -> error $ "invalid index for ℝ 3: " ++ show i
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{-# INLINE index #-}
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{-# INLINE index #-}
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instance Representable Double ( ℝ 4 ) where
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instance Representable Double ( ℝ 4 ) where
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Fin 1 -> _ℝ4_x p
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Fin 1 -> _ℝ4_x p
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Fin 2 -> _ℝ4_y p
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Fin 2 -> _ℝ4_y p
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Fin 3 -> _ℝ4_z p
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Fin 3 -> _ℝ4_z p
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Fin 4 -> _ℝ4_w p
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_ -> _ℝ4_w p
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Fin i -> error $ "invalid index for ℝ 4: " ++ show i
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{-# INLINE index #-}
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{-# INLINE index #-}
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@ -246,16 +246,26 @@ defaultRootIsolationAlgorithms minWidth narrowAbs box history
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-- Otherwise, do a normal round.
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-- Otherwise, do a normal round.
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-- Currently: we try an interval Gauss–Seidel step followed by box(1)-consistency.
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-- Currently: we try an interval Gauss–Seidel step followed by box(1)-consistency.
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_ -> GaussSeidel defaultGaussSeidelOptions
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_ -> GaussSeidel defaultGaussSeidelOptions
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NE.:| [ Box1 box1Options ]
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NE.:| [ Box1 _box1Options ]
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where
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where
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box1Options :: Box1Options n d
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_box1Options :: Box1Options n d
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box1Options =
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_box1Options =
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Box1Options
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Box1Options
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{ box1EpsEq = narrowAbs
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{ box1EpsEq = narrowAbs
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, box1CoordsToNarrow = toList $ universe @n -- [ Fin 1, Fin 2 ]
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, box1CoordsToNarrow = toList $ universe @n -- [ Fin 1, Fin 2 ]
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, box1EqsToUse = toList $ universe @d
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, box1EqsToUse = toList $ universe @d
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}
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}
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_box2Options :: Box2Options n d
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_box2Options =
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Box2Options
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{ box2EpsEq = narrowAbs
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, box2LambdaMin = 0.001
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, box2CoordsToNarrow = toList $ universe @n
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, box2EqsToUse = toList $ universe @d
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}
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-- Did we reduce the box width by at least "narrowAbs" in at least one of the dimensions?
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-- Did we reduce the box width by at least "narrowAbs" in at least one of the dimensions?
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sufficientlySmallerThan :: Box n -> Box n -> Bool
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sufficientlySmallerThan :: Box n -> Box n -> Bool
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b1 `sufficientlySmallerThan` b2 =
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b1 `sufficientlySmallerThan` b2 =
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@ -288,13 +298,15 @@ defaultBisectionOptions _minWidth _narrowAbs box =
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in unT ( origin @Double ) `inside` iRange'
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in unT ( origin @Double ) `inside` iRange'
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-- box(1)-consistency
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-- box(1)-consistency
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--not $ null $ makeBox1Consistent eqs _minWidth _narrowAbs box'
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--let box1Options = Box1Options _narrowAbs ( toList $ universe @n ) ( toList $ universe @d )
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--in not $ null $ makeBox1Consistent _minWidth box1Options eqs box'
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-- box(2)-consistency
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-- box(2)-consistency
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--let box'' = makeBox2Consistent eqs _minWidth _narrowAbs 0.2 box'
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--let box2Options = Box2Options _narrowAbs 0.001 ( toList $ universe @n ) ( toList $ universe @d )
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-- box'' = makeBox2Consistent _minWidth box2Options eqs box'
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-- iRange'' :: Box d
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-- iRange'' :: Box d
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-- iRange'' = value @Double @1 @( Box n ) $ eqs box''
|
-- iRange'' = eqs box'' `monIndex` zeroMonomial
|
||||||
--in origin @Double `inside` iRange''
|
--in unT ( origin @Double ) `inside` iRange''
|
||||||
, fallbackBisectionDim =
|
, fallbackBisectionDim =
|
||||||
\ _roundHist _prevRoundsHist eqs ->
|
\ _roundHist _prevRoundsHist eqs ->
|
||||||
let df = eqs box
|
let df = eqs box
|
||||||
|
@ -308,6 +320,8 @@ defaultBisectionOptions _minWidth _narrowAbs box =
|
||||||
|
|
||||||
-- First, check if the largest dimension is over 10 times larger
|
-- First, check if the largest dimension is over 10 times larger
|
||||||
-- than the smallest dimension; if so bisect along that coordinate.
|
-- than the smallest dimension; if so bisect along that coordinate.
|
||||||
|
--
|
||||||
|
-- TODO: filter out dimensions smaller than minimum width.
|
||||||
in case sortOnArg ( width . coordInterval ) datPerCoord of
|
in case sortOnArg ( width . coordInterval ) datPerCoord of
|
||||||
[] -> error "dimension 0"
|
[] -> error "dimension 0"
|
||||||
[Arg _ d] -> (coordIndex d, "")
|
[Arg _ d] -> (coordIndex d, "")
|
||||||
|
|
|
@ -33,6 +33,10 @@ import Data.Maybe
|
||||||
import Control.DeepSeq
|
import Control.DeepSeq
|
||||||
( NFData, force )
|
( NFData, force )
|
||||||
|
|
||||||
|
-- fp-ieee
|
||||||
|
import Numeric.Floating.IEEE.NaN
|
||||||
|
( RealFloatNaN(copySign) )
|
||||||
|
|
||||||
-- primitive
|
-- primitive
|
||||||
import Control.Monad.Primitive
|
import Control.Monad.Primitive
|
||||||
( PrimMonad(PrimState) )
|
( PrimMonad(PrimState) )
|
||||||
|
@ -46,6 +50,10 @@ import Data.Primitive.PrimArray
|
||||||
import Data.Primitive.Types
|
import Data.Primitive.Types
|
||||||
( Prim )
|
( Prim )
|
||||||
|
|
||||||
|
-- rounded-hw
|
||||||
|
import Numeric.Rounded.Hardware.Internal
|
||||||
|
( fusedMultiplyAdd )
|
||||||
|
|
||||||
-- brush-strokes
|
-- brush-strokes
|
||||||
import Math.Epsilon
|
import Math.Epsilon
|
||||||
( epsilon, nearZero )
|
( epsilon, nearZero )
|
||||||
|
@ -55,32 +63,85 @@ import Math.Epsilon
|
||||||
-- | Real solutions to a quadratic equation.
|
-- | Real solutions to a quadratic equation.
|
||||||
--
|
--
|
||||||
-- Coefficients are given in order of increasing degree.
|
-- Coefficients are given in order of increasing degree.
|
||||||
|
--
|
||||||
|
-- Implementation taken from https://pbr-book.org/4ed/Utilities/Mathematical_Infrastructure#Quadratic.
|
||||||
solveQuadratic
|
solveQuadratic
|
||||||
:: forall a. RealFloat a
|
:: forall a. RealFloatNaN a
|
||||||
=> a -- ^ constant coefficient
|
=> a -- ^ constant coefficient
|
||||||
-> a -- ^ linear coefficient
|
-> a -- ^ linear coefficient
|
||||||
-> a -- ^ quadratic coefficient
|
-> a -- ^ quadratic coefficient
|
||||||
-> [ a ]
|
-> [ a ]
|
||||||
solveQuadratic c b a
|
solveQuadratic c b a
|
||||||
| nearZero b && nearZero a
|
| isNaN a || isNaN b || isNaN c
|
||||||
= if nearZero c
|
|| isInfinite a || isInfinite b || isInfinite c
|
||||||
then [ 0, 0.5, 1 ] -- convention
|
= []
|
||||||
else []
|
|
||||||
| nearZero ( c * c * a / ( b * b ) )
|
|
||||||
= [ -c / b ]
|
|
||||||
| disc < 0
|
|
||||||
= [] -- non-real solutions
|
|
||||||
| otherwise
|
| otherwise
|
||||||
= let
|
= case (a == 0, c == 0) of
|
||||||
r :: a
|
-- First, handle all cases in which a or c is zero.
|
||||||
r =
|
|
||||||
if b >= 0
|
-- bx = 0
|
||||||
then 2 * c / ( -b - sqrt disc )
|
(True , True )
|
||||||
else 0.5 * ( -b + sqrt disc ) / a
|
| b == 0
|
||||||
in [ r, c / ( a * r ) ]
|
-> [ 0, 0.5, 1 ] -- convention
|
||||||
|
| otherwise
|
||||||
|
-> [ 0 ]
|
||||||
|
-- bx + c = 0
|
||||||
|
(True , False)
|
||||||
|
| b == 0
|
||||||
|
-> [ ]
|
||||||
|
| otherwise
|
||||||
|
-> [ -c / b ]
|
||||||
|
-- ax² + bx = 0
|
||||||
|
(False, True )
|
||||||
|
| b == 0
|
||||||
|
-> [ 0 ]
|
||||||
|
| signum a == signum b
|
||||||
|
-> [ -b / a, 0 ]
|
||||||
|
| otherwise
|
||||||
|
-> [ 0, -b / a ]
|
||||||
|
-- General case: ax² + bx + c = 0
|
||||||
|
(False, False)
|
||||||
|
| discr < 0
|
||||||
|
-> []
|
||||||
|
| otherwise
|
||||||
|
-> let rootDiscr = sqrt discr
|
||||||
|
q = -0.5 * ( b + copySign rootDiscr b )
|
||||||
|
x1 = q / a
|
||||||
|
x2 = c / q
|
||||||
|
in if x1 > x2
|
||||||
|
then [ x2, x1 ]
|
||||||
|
else [ x1, x2 ]
|
||||||
|
where discr = discriminant a b c
|
||||||
|
{-# INLINEABLE solveQuadratic #-}
|
||||||
|
{-# SPECIALISE solveQuadratic :: Float -> Float -> Float -> [ Float ] #-}
|
||||||
|
{-# SPECIALISE solveQuadratic :: Double -> Double -> Double -> [ Double ] #-}
|
||||||
|
-- TODO: implement the version from the paper
|
||||||
|
-- "The Ins and Outs of Solving Quadratic Equations with Floating-Point Arithmetic"
|
||||||
|
-- which is even more robust.
|
||||||
|
|
||||||
|
-- | Kahan's method for computing the discriminant \( b^2 - 4ac \),
|
||||||
|
-- using a fused multiply-add operation to avoid cancellation in the naive
|
||||||
|
-- formula (if \( b^2 \) and \( 4ac \) are close).
|
||||||
|
--
|
||||||
|
-- From "The Ins and Outs of Solving Quadratic Equations with Floating-Point Arithmetic",
|
||||||
|
-- (Frédéric Goualard, 2023).
|
||||||
|
discriminant :: RealFloat a => a -> a -> a -> a
|
||||||
|
discriminant a b c
|
||||||
|
-- b² and 4ac are different enough that b² - 4ac gives a good answer
|
||||||
|
| 3 * abs d_naive >= b² - m4ac
|
||||||
|
= d_naive
|
||||||
|
| otherwise
|
||||||
|
= let dp = fma b b -b²
|
||||||
|
dq = fma ( 4 * a ) c m4ac
|
||||||
|
in d_naive + ( dp - dq )
|
||||||
where
|
where
|
||||||
disc :: a
|
b² = b * b
|
||||||
disc = b * b - 4 * a * c
|
m4ac = -4 * a * c
|
||||||
|
d_naive = b² + m4ac
|
||||||
|
fma = fusedMultiplyAdd
|
||||||
|
{-# INLINEABLE discriminant #-}
|
||||||
|
{-# SPECIALISE discriminant :: Float -> Float -> Float -> Float #-}
|
||||||
|
{-# SPECIALISE discriminant :: Double -> Double -> Double -> Double #-}
|
||||||
|
|
||||||
--------------------------------------------------------------------------------
|
--------------------------------------------------------------------------------
|
||||||
-- Root finding using Laguerre's method
|
-- Root finding using Laguerre's method
|
||||||
|
|
|
@ -3,6 +3,7 @@ packages: ., brush-strokes
|
||||||
constraints:
|
constraints:
|
||||||
acts -finitary,
|
acts -finitary,
|
||||||
-- brush-strokes +use-fma,
|
-- brush-strokes +use-fma,
|
||||||
|
fp-ieee +fma3,
|
||||||
rounded-hw -pure-hs -c99 -avx512 +ghc-prim -x87-long-double,
|
rounded-hw -pure-hs -c99 -avx512 +ghc-prim -x87-long-double,
|
||||||
text -simdutf
|
text -simdutf
|
||||||
-- text +simdutf causes the "digit" package to fail to build with undefined symbol linker errors
|
-- text +simdutf causes the "digit" package to fail to build with undefined symbol linker errors
|
||||||
|
|
Loading…
Reference in a new issue