-- Copyright (c) 2016-present, Facebook, Inc. -- All rights reserved. -- -- This source code is licensed under the BSD-style license found in the -- LICENSE file in the root directory of this source tree. {-# LANGUAGE GADTs #-} {-# LANGUAGE LambdaCase #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE NoRebindableSyntax #-} module Duckling.Numeral.AF.Rules ( rules ) where import Control.Applicative ((<|>)) import Data.HashMap.Strict (HashMap) import Data.Maybe import Data.String import Data.Text (Text) import Prelude import qualified Data.HashMap.Strict as HashMap import qualified Data.Text as Text import Duckling.Dimensions.Types import Duckling.Numeral.Helpers import Duckling.Numeral.Types (NumeralData(..)) import Duckling.Regex.Types import Duckling.Types import qualified Duckling.Numeral.Types as TNumeral zeroAndTenMap :: HashMap Text Integer zeroAndTenMap = HashMap.fromList [ ( "nul" , 0 ) , ( "geen", 0 ) , ( "niks", 0 ) , ( "zero", 0 ) , ( "tien", 10 ) ] oneToNineMap :: HashMap Text Integer oneToNineMap = HashMap.fromList [ ( "een" , 1 ) , ( "twee", 2 ) , ( "drie", 3 ) , ( "vier", 4 ) , ( "vyf" , 5 ) , ( "ses" , 6 ) , ( "sewe", 7 ) , ( "agt" , 8 ) , ( "ag" , 8 ) , ( "nege", 9 ) ] ruleNumeral :: Rule ruleNumeral = Rule { name = "number (0..10)" , pattern = [ regex . Text.unpack $ Text.concat [ "(", Text.intercalate "|" ((HashMap.keys zeroAndTenMap) ++ (HashMap.keys oneToNineMap)), ")" ] ] , prod = \case (Token RegexMatch (GroupMatch (match:_)):_) -> let x = Text.toLower match in (HashMap.lookup x oneToNineMap >>= integer) <|> (HashMap.lookup x zeroAndTenMap >>= integer) _ -> Nothing } elevenToNineteenMap :: HashMap Text Integer elevenToNineteenMap = HashMap.fromList [ ( "elf" , 11 ) , ( "twaalf" , 12 ) , ( "dertien" , 13 ) , ( "veertien" , 14 ) , ( "vyftien" , 15 ) , ( "sestien" , 16 ) , ( "sewentien", 17 ) , ( "agtien" , 18 ) , ( "negentien", 19 ) , ( "neentien" , 19 ) ] ruleElevenToNineteen :: Rule ruleElevenToNineteen = Rule { name = "number (11..19)" , pattern = [ regex "(elf|twaalf|dertien|veertien|vyftien|sestien|sewentien|agtien|neg?entien)" ] , prod = \case (Token RegexMatch (GroupMatch (match:_)):_) -> HashMap.lookup (Text.toLower match) elevenToNineteenMap >>= integer _ -> Nothing } tensMap :: HashMap Text Integer tensMap = HashMap.fromList [ ( "twin" , 20 ) , ( "der" , 30 ) , ( "veer" , 40 ) , ( "vyf" , 50 ) , ( "ses" , 60 ) , ( "sewen", 70 ) , ( "tag" , 80 ) , ( "negen", 90 ) , ( "neen" , 90 ) ] ruleTens :: Rule ruleTens = Rule { name = "integer (20,30..90)" , pattern = [ regex "(twin|der|veer|vyf|ses|sewen|tag|neg?en)tig" ] , prod = \case (Token RegexMatch (GroupMatch (match:_)):_) -> HashMap.lookup (Text.toLower match) tensMap >>= integer _ -> Nothing } ruleCompositeTens :: Rule ruleCompositeTens = Rule { name = "integer ([3-9][1-9])" , pattern = [ Predicate $ numberBetween 1 10 , regex "en" , oneOf [20, 30..90] ] , prod = \case (Token Numeral NumeralData{TNumeral.value = units}: _: Token Numeral NumeralData{TNumeral.value = tens}: _) -> double $ tens + units _ -> Nothing } ruleDecimals :: Rule ruleDecimals = Rule { name = "decimal number" , pattern = [ regex "(\\d*\\,\\d+)" ] , prod = \case (Token RegexMatch (GroupMatch (match:_)):_) -> parseDecimal False match _ -> Nothing } rulePowersOfTen :: Rule rulePowersOfTen = Rule { name = "powers of tens" , pattern = [ regex "(honderd|duisend)" ] , prod = \case (Token RegexMatch (GroupMatch (match:_)):_) -> case Text.toLower match of "honderd" -> double 1e2 >>= withGrain 2 >>= withMultipliable "duisend" -> double 1e3 >>= withGrain 3 >>= withMultipliable _ -> Nothing _ -> Nothing } ruleDozen :: Rule ruleDozen = Rule { name = "a dozen of" , pattern = [ regex "dosyn" ] , prod = \_ -> integer 12 >>= withMultipliable >>= notOkForAnyTime } ruleSum :: Rule ruleSum = Rule { name = "intersect 2 numbers" , pattern = [ Predicate $ and . sequence [hasGrain, isPositive] , Predicate $ and . sequence [not . isMultipliable, isPositive] ] , prod = \case (Token Numeral NumeralData{TNumeral.value = val1, TNumeral.grain = Just g}: Token Numeral NumeralData{TNumeral.value = val2}: _) | (10 ** fromIntegral g) > val2 -> double $ val1 + val2 _ -> Nothing } ruleMultiply :: Rule ruleMultiply = Rule { name = "compose by multiplication" , pattern = [ dimension Numeral , Predicate isMultipliable ] , prod = \case (token1:token2:_) -> multiply token1 token2 _ -> Nothing } rules :: [Rule] rules = [ ruleNumeral , ruleDozen , ruleDecimals , rulePowersOfTen , ruleElevenToNineteen , ruleTens , ruleCompositeTens , ruleSum , ruleMultiply ]