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bf89e34365
Reviewed By: JoelMarcey Differential Revision: D15439223 fbshipit-source-id: c5af3cb06318748142fe503945b38beffadfc28a
191 lines
6.5 KiB
Haskell
191 lines
6.5 KiB
Haskell
-- Copyright (c) 2016-present, Facebook, Inc.
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-- All rights reserved.
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--
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-- This source code is licensed under the BSD-style license found in the
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-- LICENSE file in the root directory of this source tree.
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-- | This module shadows names of some units previously defined in
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-- 'Duckling.Distance.Types'.
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-- Therefore, the units from that module must be used qualified by module.
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module Duckling.DistanceUnits.Types
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( ContextualDistance (..)
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, toSystemUnit
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, toRawUnit
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) where
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import Data.Semigroup
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import Data.Tuple.Extra (both)
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import Prelude
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import qualified Duckling.Distance.Types as TDist
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-- | Supports deferred resolution of ambiguous units.
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-- Note that this sum type cannot be simply replaced by
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-- "Maybe (ContextualDistance Double DeferrableUnit)"
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-- (with "Nothing" representing "Nonrelatable").
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-- See "NOTE A" below.
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data ContextualDistance
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= Nonrelatable
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-- ^ If two different ambiguous units were to be composed, then
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-- it would not be possible to decide which to resolve to. As of today,
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-- this won't happen since for now "M" is the lone ambiguous unit.
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| ContextualDistance Double DeferrableUnit
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-- | This represents Units that have not yet been established as unrelatable.
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-- The "Definite" constructor is purposely listed in front of "Ambiguous",
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-- so that it will be preferred when taking choosing the "min" between
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-- an "Ambiguous" and "Definite" unit.
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data DeferrableUnit
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= Definite SystemUnit
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| Ambiguous AmbiguousUnit
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deriving (Eq, Ord)
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-- | These measurement-system-specific units exist to disambiguate
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-- the \"M\" of the 'Unit' type and to maintain the measurement-system context
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-- for resolving to the appropriate precision.
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--
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-- It's also just handy to have separate programmatically accessible lists
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-- of units for each type of measurement system.
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data SystemUnit
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= Metric MetricUnit
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| Imperial ImperialUnit
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deriving (Eq, Ord)
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data ImperialUnit
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= Inch
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| Foot
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| Yard
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| Mile
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deriving (Eq, Ord)
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data MetricUnit
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= Millimetre
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| Centimetre
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| Metre
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| Kilometre
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deriving (Eq, Ord)
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-- | Currently there is only one actually ambiguous unit, but this design allows
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-- for expansion.
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data AmbiguousUnit
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= M -- ^ "Miles" or "Metres"
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deriving (Eq, Ord)
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-- | Represents a value with an unambiguous unit
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data UnitValuePair = UnitValuePair SystemUnit Double
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sumScaledUnits :: SystemUnit -> (UnitValuePair, UnitValuePair) -> Double
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sumScaledUnits preferredUnit = uncurry (+) . both (scaleUnits preferredUnit)
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-- | Determine the definite meaning of an "Ambiguous" unit using the context of
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-- another "Definite" unit
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reconcileAmbiguousWithDefinite ::
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Double
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-> AmbiguousUnit
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-> Double
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-> SystemUnit
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-> ContextualDistance
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reconcileAmbiguousWithDefinite av au dv du =
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ContextualDistance combinedValue $ Definite preferredUnit
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where
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resolvedAmbiguousUnit = resolveUnit au du
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preferredUnit = du `min` resolvedAmbiguousUnit
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combinedValue = sumScaledUnits preferredUnit
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(UnitValuePair resolvedAmbiguousUnit av, UnitValuePair du dv)
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-- | When both Metric and Imperial units are given, resolve to Metric.
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-- Otherwise, preserve the original measurement system and use the smaller unit.
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-- For the purpose of this resolution, all Metric units are considered "smaller"
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-- than Imperial units.
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instance Semigroup ContextualDistance where
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_ <> Nonrelatable = Nonrelatable
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Nonrelatable <> _ = Nonrelatable
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(ContextualDistance v1 u@(Ambiguous u1))
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<> (ContextualDistance v2 (Ambiguous u2))
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| u1 == u2 = ContextualDistance (v1 + v2) u
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| otherwise = Nonrelatable
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-- NOTE A: Needing to return "Nonrelatable" in this edge case is why
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-- the two-member "ContextualDistance" sum type cannot be simply
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-- represented as (Maybe (ContextualDistance Double DeferrableUnit)).
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(ContextualDistance av (Ambiguous au))
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<> (ContextualDistance dv (Definite du)) =
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reconcileAmbiguousWithDefinite av au dv du
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(ContextualDistance dv (Definite du))
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<> (ContextualDistance av (Ambiguous au)) =
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reconcileAmbiguousWithDefinite av au dv du
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(ContextualDistance v1 (Definite u1))
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<> (ContextualDistance v2 (Definite u2)) =
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ContextualDistance v $ Definite u
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where
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v = sumScaledUnits u (UnitValuePair u1 v1, UnitValuePair u2 v2)
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u = u1 `min` u2
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resolveUnit :: AmbiguousUnit -> SystemUnit -> SystemUnit
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resolveUnit M (Metric _) = Metric Metre
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resolveUnit M (Imperial _) = Imperial Mile
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-- | Disambiguation of original Unit type
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toSystemUnit :: TDist.Unit -> DeferrableUnit
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toSystemUnit TDist.M = Ambiguous M
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toSystemUnit TDist.Millimetre = Definite $ Metric Millimetre
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toSystemUnit TDist.Centimetre = Definite $ Metric Centimetre
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toSystemUnit TDist.Metre = Definite $ Metric Metre
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toSystemUnit TDist.Kilometre = Definite $ Metric Kilometre
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toSystemUnit TDist.Inch = Definite $ Imperial Inch
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toSystemUnit TDist.Foot = Definite $ Imperial Foot
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toSystemUnit TDist.Yard = Definite $ Imperial Yard
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toSystemUnit TDist.Mile = Definite $ Imperial Mile
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-- | Reconversion to original Unit type
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toRawUnit :: DeferrableUnit -> TDist.Unit
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toRawUnit (Ambiguous M) = TDist.M
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toRawUnit (Definite (Metric Millimetre)) = TDist.Millimetre
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toRawUnit (Definite (Metric Centimetre)) = TDist.Centimetre
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toRawUnit (Definite (Metric Metre)) = TDist.Metre
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toRawUnit (Definite (Metric Kilometre)) = TDist.Kilometre
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toRawUnit (Definite (Imperial Inch)) = TDist.Inch
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toRawUnit (Definite (Imperial Foot)) = TDist.Foot
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toRawUnit (Definite (Imperial Yard)) = TDist.Yard
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toRawUnit (Definite (Imperial Mile)) = TDist.Mile
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-- | Convert a distance to the given units.
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-- This only works if the unit is unambiguous.
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scaleUnits ::
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SystemUnit -- ^ target unit
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-> UnitValuePair -- ^ Original unit and value
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-> Double
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scaleUnits targetUnit (UnitValuePair startingUnit v)
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| startingUnit == targetUnit = v
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| otherwise = inSIUnits v startingUnit / inSIUnits 1 targetUnit
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-- | This is used when distances
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-- must be normalized across measurement systems.
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-- The Metric metre is the Standard International unit of distance.
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inSIUnits :: Double -> SystemUnit -> Double
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inSIUnits val (Metric u) = inMetres u val
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inSIUnits val (Imperial u) = inInches u val * metersPerInch
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-- | This conversion factor is exact.
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metersPerInch :: Double
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metersPerInch = 0.0254
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inMetres :: Fractional a => MetricUnit -> a -> a
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inMetres Millimetre n = n / 1000
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inMetres Centimetre n = n / 100
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inMetres Metre n = n
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inMetres Kilometre n = n * 1000
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inInches :: Num a => ImperialUnit -> a -> a
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inInches Inch n = n
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inInches Foot n = 12 * n
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inInches Yard n = 3 * inInches Foot n
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inInches Mile n = 5280 * inInches Foot n
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