halogen-websocket-ipc-playzone/drop/PlayingWithParsers.purs

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-- | `App.HomeInterface` presents the website and its features.
module App.HomeInterface where
import Prelude
import Control.Alt ((<|>))
import Control.Alt ((<|>))
import Control.Lazy (defer)
import Data.Array (many)
import Data.Either (Either(..))
import Data.Foldable (fold)
import Data.Maybe (Maybe(..))
import Data.String.CodeUnits as CU
-- import Data.String (joinWith)
-- import Data.String.Regex as R
-- import Data.String.Regex.Flags as RF
-- import Data.Tuple (Tuple(..))
import Effect.Aff.Class (class MonadAff)
import Effect (Effect)
import Halogen as H
import Halogen.HTML as HH
-- import Halogen.HTML.Events as HE
import Halogen.HTML.Properties as HP
import Parsing
import Parsing.Combinators as PC
import Parsing (Parser, runParser)
import Parsing.String
import Parsing.String.Basic
import Parsing.String.Basic (alphaNum, letter)
import Parsing.String (char, string, eof)
-- import TryPureScript (h1, h3, p, text, render, code)
import Bulma (h1, h3, p, text, code)
import Bulma as Bulma
type Input = Unit
data Action = UpdateStuff String
data Query a = DoNothing a
type Output = Unit
type Slot = H.Slot Query Output
type State = { stuff :: String }
component :: forall m. MonadAff m => H.Component Query Input Output m
component =
H.mkComponent
{ initialState
, render
, eval: H.mkEval $ H.defaultEval
{ handleAction = handleAction
}
}
handleAction :: forall m. MonadAff m => Action -> H.HalogenM State Action () Output m Unit
handleAction = case _ of
UpdateStuff val -> H.modify_ _ { stuff = val }
initialState :: forall input. input -> State
initialState _ = { stuff: "" }
render :: forall m. State -> H.ComponentHTML Action () m
render state
= HH.div_ $
[ Bulma.hero_danger "A simple input" "Nothing much to see"
, Bulma.section_small $
[ h1 "Examples of domain parsing in Purescript"
] <> test_domains [ "ex.net", "e-.net", "-x.net", "te.s-t.net", "example.com" ]
, Bulma.section_small [ render_stuff ]
]
where
-- Some helpers.
title = Bulma.h3
p = Bulma.p
b x = Bulma.column_ [ Bulma.box x ]
render_stuff = Bulma.columns_ [ b [ title "stuff"
, stuff_input
]
, b [ title "result"
, p $ case runParser state.stuff parse_stuff of
Left _ -> "NOT OKAY"
Right _ -> "OKAY"
]
]
stuff_input
= Bulma.box_input "stuff" "stuff" "stuff"
UpdateStuff
state.stuff
true
should_be_disabled
should_be_disabled = (if true then (HP.enabled true) else (HP.disabled true))
-- test_domains :: Array String -> _
test_domains doms = fold $ map tests_on_domain doms
-- tests_on_domain :: String -> _
tests_on_domain d
= [ text $ "domain: " <> d <> " [ldhstr, label, subdomain, domain]"
, p $ show $ runParser d ldhstr
, p $ show $ runParser d label
, p $ show $ runParser d subdomain
, p $ show $ runParser d domain
]
aye :: Parser String Char
aye = defer \_ -> char 'a' *> aye
ayebee :: Parser String Boolean
ayebee = do
_ <- char 'a'
b <- char 'b' <|> char 'B'
pure (b == 'B')
parse_stuff :: Parser String Boolean
parse_stuff = do
void $ alphaNum
void $ (void $ many (alphaNum <|> char '-' <|> char '.')) <|> eof
void $ eof
pure true
domain :: Parser String String
domain = sub_eof <|> string " "
sub_eof :: Parser String String
sub_eof = do
sub <- PC.try subdomain
eof
pure sub
subdomain :: Parser String String
subdomain = PC.try label <|> defer \_ -> sub_point_label
sub_point_label :: Parser String String
sub_point_label = do
sub <- defer \_ -> subdomain
point <- string "."
lab <- label
pure $ sub <> point <> lab
label :: Parser String String
label = PC.try let_then_str_then_alpha <|> PC.try let_then_alpha <|> let_to_string letter
where
let_then_str_then_alpha :: Parser String String
let_then_str_then_alpha = do
l <- letter
s <- ldhstr
a <- alphaNum
pure $ CU.singleton l <> s <> CU.singleton a
let_then_alpha :: Parser String String
let_then_alpha = do
l <- letter
a <- alphaNum
pure $ CU.singleton l <> CU.singleton a
ldhstr :: Parser String String
ldhstr = PC.try actual_ldhstr <|> just_ldh
where
actual_ldhstr :: Parser String String
actual_ldhstr = do
ldh <- let_dig_hyp
str <- defer \_ -> ldhstr
pure $ CU.singleton ldh <> str
just_ldh :: Parser String String
just_ldh = let_to_string let_dig_hyp
-- Not used currently.
hyp_then_string :: Parser String String
hyp_then_string = do
a <- let_to_string let_dig_hyp
b <- ldhstr
pure $ a <> b
-- Either a Letter, Digital or an Hyphenation character.
let_dig_hyp :: Parser String Char
let_dig_hyp = alphaNum <|> char '-'
-- | Converting a single letter parser to a String parser.
let_to_string :: Parser String Char -> Parser String String
let_to_string p = do
a <- p
pure $ CU.singleton a
-- From RFC 1035
-- <label> ::= <letter> [ [ <ldh-str> ] <let-dig> ]
-- <ldh-str> ::= <let-dig-hyp> | <let-dig-hyp> <ldh-str>
-- <let-dig-hyp> ::= <let-dig> | "-"
-- <let-dig> ::= <letter> | <digit>
tested_domain :: String
tested_domain = "example.com"