{-# LANGUAGE GADTs #-}
{-# LANGUAGE LambdaCase #-}
{-# LANGUAGE OverloadedStrings #-}
module Duckling.Temperature.FR.Rules
( rules ) where
import Prelude
import Data.String
import Duckling.Dimensions.Types
import Duckling.Temperature.Helpers
import Duckling.Temperature.Types (TemperatureData (..))
import qualified Duckling.Temperature.Types as TTemperature
import Duckling.Types
ruleLatentTempDegrees :: Rule
ruleLatentTempDegrees = Rule
{ name = "<latent temp> degrees"
, pattern =
[ Predicate $ isValueOnly False
, regex "(deg(r(é|e|è))?s?\\.?)|°"
]
, prod = \case
(Token Temperature td:_) -> Just . Token Temperature $
withUnit TTemperature.Degree td
_ -> Nothing
}
ruleTempCelsius :: Rule
ruleTempCelsius = Rule
{ name = "<temp> Celsius"
, pattern =
[ Predicate $ isValueOnly True
, regex "c(el[cs]?(ius)?)?\\.?"
]
, prod = \case
(Token Temperature td:_) -> Just . Token Temperature $
withUnit TTemperature.Celsius td
_ -> Nothing
}
ruleTempFahrenheit :: Rule
ruleTempFahrenheit = Rule
{ name = "<temp> Fahrenheit"
, pattern =
[ Predicate $ isValueOnly True
, regex "f(ah?reh?n(h?eit)?)?\\.?"
]
, prod = \case
(Token Temperature td:_) -> Just . Token Temperature $
withUnit TTemperature.Fahrenheit td
_ -> Nothing
}
ruleLatentTempEnDessousDeZero :: Rule
ruleLatentTempEnDessousDeZero = Rule
{ name = "<latent temp> en dessous de zero"
, pattern =
[ Predicate $ isValueOnly True
, regex "en dessous de (0|z(é|e)ro)"
]
, prod = \case
(Token Temperature td@TemperatureData{TTemperature.value = Just v}:_) ->
case TTemperature.unit td of
Nothing -> Just . Token Temperature . withUnit TTemperature.Degree $
td {TTemperature.value = Just (- v)}
_ -> Just . Token Temperature $ td {TTemperature.value = Just (- v)}
_ -> Nothing
}
rules :: [Rule]
rules =
[ ruleLatentTempDegrees
, ruleLatentTempEnDessousDeZero
, ruleTempCelsius
, ruleTempFahrenheit
]