{-# OPTIONS -Wno-unused-imports #-} {-# LANGUAGE TypeOperators #-} {-# LANGUAGE UndecidableInstances #-} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE DataKinds #-} {-# LANGUAGE TypeFamilies #-} {-# LANGUAGE PolyKinds #-} {-# LANGUAGE ScopedTypeVariables #-} {-# LANGUAGE RankNTypes #-} {-# LANGUAGE ConstraintKinds #-} {-# LANGUAGE NoStarIsType #-} -- | Contains prepackaged 4-tuples to use with 'Refined2' module Predicate.Examples.Refined2 ( -- ** datetime DateTime1 , datetime1 , daten , DateN , datetimen , DateTimeN , DateTimeNR -- ** time , hms , Hms , HmsR , Hms' , HmsR' -- ** credit cards , Luhn , luhn11 -- ** ssn , ssn , Ssn , SsnR -- ** ipv4 , ip4 , Ip4 , Ip4R , ip4' , Ip4' , Ip4R' -- ** ipv6 , ip6 , Ip6 , Ip6R -- ** isbn10 , isbn10 , Isbn10 , Isbn10R -- ** isbn13 , isbn13 , Isbn13 , Isbn13R -- ** base n , BaseN , BaseN' , BaseIJ , BaseIJ' , BaseIJip ) where import Predicate.Refined2 import Predicate.Examples.Common import Predicate import GHC.TypeLits (Nat) import Data.Time (Day, UTCTime) import Data.Kind (Type) import Data.Proxy (Proxy(..)) -- $setup -- >>> :set -XDataKinds -- >>> :set -XTypeApplications -- >>> :set -XTypeOperators -- >>> :set -XTemplateHaskell -- >>> :set -XTypeApplications -- >>> :m + Data.Time -- >>> :m + Control.Lens -- >>> :m + Text.Show.Functions -- | credit card with luhn algorithm -- -- >>> newRefined2 @OZ @Luhnip @(Luhnop 11) "1234-5678-901" -- Left Step 2. Failed Boolean Check(op) | invalid checkdigit -- -- >>> newRefined2 @OZ @Luhnip @(Luhnop 11) "1234-5678-903" -- Right (Refined2 [1,2,3,4,5,6,7,8,9,0,3] "1234-5678-903") -- -- >>> pz @(Luhnip >> Luhnop 11) "79927398713" -- Val True -- -- >>> pz @(Luhnip >> Luhnop 10) "79927398713" -- Fail "expected 10 digits but found 11" -- type Luhn (opts :: Opt) (n :: Nat) = '(opts, Luhnip, Luhnop n, String) -- | read in a valid datetime -- -- >>> newRefined2 @OL @(Dtip LocalTime) @'True "2018-09-14 02:57:04" -- Right (Refined2 2018-09-14 02:57:04 "2018-09-14 02:57:04") -- -- >>> newRefined2 @OL @(Dtip LocalTime) @'True "2018-09-99 12:12:12" -- Left Step 1. Failed Initial Conversion(ip) | ParseTimeP LocalTime (%F %T) failed to parse -- datetime1 :: Proxy (DateTime1 opts t) datetime1 = mkProxy2 type DateTime1 (opts :: Opt) (t :: Type) = '(opts, Dtip t, 'True, String) datetimen :: OptC opts => Proxy (DateTimeN opts) datetimen = mkProxy2' -- valid dates for for DateFmts are "2001-01-01" "Jan 24 2009" and "03/29/07" type DateN (opts :: Opt) = '(opts,ParseTimes Day DateFmts Id, 'True, String) daten :: OptC opts => Proxy (DateN opts) daten = mkProxy2' type DateTimeNR (opts :: Opt) = MakeR2 (DateTimeN opts) type DateTimeN (opts :: Opt) = '(opts, ParseTimes UTCTime DateTimeFmts Id, 'True, String) -- | read in an ssn -- -- >>> newRefined2 @OZ @Ssnip @Ssnop "134-01-2211" -- Right (Refined2 [134,1,2211] "134-01-2211") -- -- >>> newRefined2 @OL @Ssnip @Ssnop "666-01-2211" -- Left Step 2. Failed Boolean Check(op) | Bool(0) [number for group 0 invalid: found 666] (True && False | (666 /= 666)) -- -- >>> newRefined2 @OL @Ssnip @Ssnop "667-00-2211" -- Left Step 2. Failed Boolean Check(op) | Bool(1) [number for group 1 invalid: found 0] (1 <= 0) -- ssn :: OptC opts => Proxy (Ssn opts) ssn = mkProxy2' type SsnR (opts :: Opt) = MakeR2 (Ssn opts) type Ssn (opts :: Opt) = '(opts, Ssnip, Ssnop, String) -- | read in a time and validate it -- -- >>> newRefined2 @OL @Hmsip @Hmsop' "23:13:59" -- Right (Refined2 [23,13,59] "23:13:59") -- -- >>> newRefined2 @OL @Hmsip @Hmsop' "23:13:60" -- Left Step 2. Failed Boolean Check(op) | Bool(2) [seconds] (60 <= 59) -- -- >>> newRefined2 @OL @Hmsip @Hmsop' "26:13:59" -- Left Step 2. Failed Boolean Check(op) | Bool(0) [hours] (26 <= 23) -- hms :: OptC opts => Proxy (Hms opts) hms = mkProxy2' type HmsR (opts :: Opt) = MakeR2 (Hms opts) type Hms (opts :: Opt) = '(opts, Hmsip, Hmsop, String) --hms' :: Proxy (Hms' OZ) --hms' = mkProxy2' type HmsR' (opts :: Opt) = MakeR2 (Hms' opts) type Hms' (opts :: Opt) = '(opts, Hmsip, Hmsop', String) -- | read in an ipv4 address and validate it -- -- >>> newRefined2 @OZ @Ip4ip @Ip4op' "001.223.14.1" -- Right (Refined2 [1,223,14,1] "001.223.14.1") -- -- >>> newRefined2 @OL @Ip4ip @Ip4op' "001.223.14.999" -- Left Step 2. Failed Boolean Check(op) | Bool(3) [octet 3 out of range 0-255 found 999] (999 <= 255) -- -- >>> newRefined2P (ip4 @OL) "001.223.14.999" -- Left Step 2. Failed Boolean Check(op) | octet 3 out of range 0-255 found 999 -- -- >>> newRefined2P (ip4 @OL) "001.223.14.999.1" -- Left Step 2. Failed Boolean Check(op) | Guards:invalid length(5) expected 4 -- -- >>> newRefined2P (ip4 @OL) "001.257.14.1" -- Left Step 2. Failed Boolean Check(op) | octet 1 out of range 0-255 found 257 -- type Ip4R (opts :: Opt) = MakeR2 (Ip4 opts) type Ip4 (opts :: Opt) = '(opts, Ip4ip, Ip4op, String) -- guards ip4 :: Proxy (Ip4 opts) ip4 = Proxy type Ip4R' (opts :: Opt) = MakeR2 (Ip4' opts) type Ip4' (opts :: Opt) = '(opts, Ip4ip, Ip4op', String) -- boolean predicates ip4' :: Proxy (Ip4' opts) ip4' = Proxy type Ip6R (opts :: Opt) = MakeR2 (Ip6 opts) type Ip6 (opts :: Opt) = '(opts, Ip6ip, Ip6op, String) -- guards ip6 :: Proxy (Ip6 opts) ip6 = Proxy -- | validate isbn10 -- -- >>> newRefined2P (isbn10 @OZ) "0-306-40611-X" -- Right (Refined2 ([0,3,0,6,4,0,6,1,1],10) "0-306-40611-X") -- -- >>> newRefined2P (isbn10 @OZ) "0-306-40611-9" -- Left Step 2. Failed Boolean Check(op) | mod 0 oops -- type Isbn10R (opts :: Opt) = MakeR2 (Isbn10 opts) type Isbn10 (opts :: Opt) = '(opts, Isbn10ip, Isbn10op, String) -- guards isbn10 :: Proxy (Isbn10 opts) isbn10 = Proxy -- | validate isbn13 -- -- >>> newRefined2P (isbn13 @OZ) "978-0-306-40615-7" -- Right (Refined2 [9,7,8,0,3,0,6,4,0,6,1,5,7] "978-0-306-40615-7") -- -- >>> newRefined2P (isbn13 @OZ) "978-0-306-40615-8" -- Left Step 2. Failed Boolean Check(op) | sum=101 mod 10=1 -- type Isbn13R (opts :: Opt) = MakeR2 (Isbn13 opts) type Isbn13 (opts :: Opt) = '(opts, Isbn13ip, Isbn13op, String) -- guards isbn13 :: Proxy (Isbn13 opts) isbn13 = Proxy luhn11 :: Proxy (Luhn opts 11) luhn11 = Proxy -- | convert a string from a given base \'i\' and store it internally as an base 10 integer -- -- >>> newRefined2 @OZ @(ReadBase Int 16) @'True "00fe" -- Right (Refined2 254 "00fe") -- -- >>> newRefined2 @OZ @(ReadBase Int 16) @(Between 100 400 Id) "00fe" -- Right (Refined2 254 "00fe") -- -- >>> newRefined2 @OZ @(ReadBase Int 16) @(GuardSimple (Id < 400) >> 'True) "f0fe" -- Left Step 2. Failed Boolean Check(op) | (61694 < 400) -- -- >>> newRefined2 @OL @(ReadBase Int 16) @(Id < 400) "f0fe" -- todo: why different parens vs braces -- Left Step 2. False Boolean Check(op) | {61694 < 400} -- type BaseN (opts :: Opt) (n :: Nat) = BaseN' opts n 'True type BaseN' (opts :: Opt) (n :: Nat) p = '(opts,ReadBase Int n, p, String) -- | Luhn check -- -- >>> newRefined2 @OZ @Luhnip @(Luhnop 4) "1230" -- Right (Refined2 [1,2,3,0] "1230") -- -- >>> newRefined2 @OL @Luhnip @(Luhnop 4) "1234" -- Left Step 2. Failed Boolean Check(op) | invalid checkdigit -- -- | uses builtin 'IsLuhn' -- | convert a string from a given base \'i\' and store it internally as a base \'j\' string -- -- >>> newRefined2 @OZ @(BaseIJip 16 2) @'True "fe" -- Right (Refined2 "11111110" "fe") -- -- >>> newRefined2 @OZ @(BaseIJip 16 2) @'True "fge" -- Left Step 1. Failed Initial Conversion(ip) | invalid base 16 -- -- >>> newRefined2 @OL @(BaseIJip 16 2) @(ReadBase Int 2 < 1000) "ffe" -- Left Step 2. False Boolean Check(op) | {4094 < 1000} -- type BaseIJip (i :: Nat) (j :: Nat) = ReadBase Int i >> ShowBase j type BaseIJ (i :: Nat) (j :: Nat) = BaseIJ' i j 'True type BaseIJ' (i :: Nat) (j :: Nat) p = '(ReadBase Int i >> ShowBase j, p, String) -- | take any valid Read/Show instance and turn it into a valid 'Predicate.Refined2.Refined2' -- -- >>> :m + Data.Ratio -- >>> newRefined2 @OZ @(ReadP Rational Id) @'True "13 % 3" -- Right (Refined2 (13 % 3) "13 % 3") -- -- >>> newRefined2 @OZ @(ReadP Rational Id) @'True "13x % 3" -- Left Step 1. Failed Initial Conversion(ip) | ReadP Ratio Integer (13x % 3) -- -- >>> newRefined2 @OZ @(ReadP Rational Id) @(3 % 1 <..> 5 % 1) "13 % 3" -- Right (Refined2 (13 % 3) "13 % 3") -- -- >>> newRefined2 @OZ @(ReadP Rational Id) @(11 -% 2 <..> 3 -% 1) "-13 % 3" -- Right (Refined2 ((-13) % 3) "-13 % 3") -- -- >>> newRefined2 @OZ @(ReadP Rational Id) @(Id > (15 % 1)) "13 % 3" -- Left Step 2. False Boolean Check(op) | FalseP -- -- >>> newRefined2 @OL @(ReadP Rational Id) @(Msg (PrintF "invalid=%3.2f" (FromRational Double)) (Id > (15 % 1))) "13 % 3" -- Left Step 2. False Boolean Check(op) | {invalid=4.33 13 % 3 > 15 % 1} -- -- >>> newRefined2 @OZ @(ReadP Rational Id) @(Id > (11 % 1)) "13 % 3" -- Left Step 2. False Boolean Check(op) | FalseP -- -- >>> newRefined2 @OZ @(ReadP UTCTime Id) @'True "2018-10-19 14:53:11.5121359 UTC" -- Right (Refined2 2018-10-19 14:53:11.5121359 UTC "2018-10-19 14:53:11.5121359 UTC") -- -- >>> :m + Data.Aeson -- >>> newRefined2 @OZ @(ReadP Value Id) @'True "String \"jsonstring\"" -- Right (Refined2 (String "jsonstring") "String \"jsonstring\"") -- -- >>> newRefined2 @OZ @(ReadP Value Id) @'True "Number 123.4" -- Right (Refined2 (Number 123.4) "Number 123.4") -- -- >>> newRefined @OU @((Id $$ 13) > 100) (\x -> x * 14) -- Right (Refined ) -- -- >>> newRefined2 @OU @(Id $$ 13) @(Id > 100) (\x -> x * 14) ^? _Right . to r2Out -- Just -- -- >>> newRefined2 @OU @(Id $$ 13) @(Id > 100) (\x -> x * 14) ^? _Right . to r2In -- Just 182 -- -- >>> newRefined2 @OU @(Id $$ 13) @(Id > 100) (\x -> x * 14) ^? _Right . to (($ 13) . r2Out) -- Just 182 -- -- >>> newRefined2 @OZ @(Pop0 Fst Id) @(Len > 1) (Proxy @Snd,"Abcdef") ^? _Right . to r2In -- Just "Abcdef" -- -- >>> newRefined2 @OZ @(Pop0 Fst Id >> Len) @(Id > 1) (Proxy @Snd,"Abcdef") ^? _Right . to r2In -- Just 6 --