{-# LANGUAGE BangPatterns #-}
{-# LANGUAGE EmptyCase #-}
{-# LANGUAGE EmptyDataDecls #-}
{-# LANGUAGE ExistentialQuantification #-}
{-# LANGUAGE NoMonomorphismRestriction #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE PatternSynonyms #-}
{-# LANGUAGE RankNTypes #-}
{-# LANGUAGE ScopedTypeVariables #-}

{-# OPTIONS_GHC -Wno-overlapping-patterns #-}

module MAlonzo.Code.Relation.Binary.Indexed.Heterogeneous.Definitions where

import MAlonzo.RTE (coe, erased, AgdaAny, addInt, subInt, mulInt,
                    quotInt, remInt, geqInt, ltInt, eqInt, add64, sub64, mul64, quot64,
                    rem64, lt64, eq64, word64FromNat, word64ToNat)
import qualified MAlonzo.RTE
import qualified Data.Text
import qualified MAlonzo.Code.Agda.Primitive

-- Relation.Binary.Indexed.Heterogeneous.Definitions.Reflexive
d_Reflexive_20 ::
  MAlonzo.Code.Agda.Primitive.T_Level_14 ->
  () ->
  MAlonzo.Code.Agda.Primitive.T_Level_14 ->
  MAlonzo.Code.Agda.Primitive.T_Level_14 ->
  (AgdaAny -> ()) ->
  (AgdaAny -> AgdaAny -> AgdaAny -> AgdaAny -> ()) -> ()
d_Reflexive_20 = erased
-- Relation.Binary.Indexed.Heterogeneous.Definitions.Symmetric
d_Symmetric_28 ::
  MAlonzo.Code.Agda.Primitive.T_Level_14 ->
  () ->
  MAlonzo.Code.Agda.Primitive.T_Level_14 ->
  MAlonzo.Code.Agda.Primitive.T_Level_14 ->
  (AgdaAny -> ()) ->
  (AgdaAny -> AgdaAny -> AgdaAny -> AgdaAny -> ()) -> ()
d_Symmetric_28 = erased
-- Relation.Binary.Indexed.Heterogeneous.Definitions.Transitive
d_Transitive_38 ::
  MAlonzo.Code.Agda.Primitive.T_Level_14 ->
  () ->
  MAlonzo.Code.Agda.Primitive.T_Level_14 ->
  MAlonzo.Code.Agda.Primitive.T_Level_14 ->
  (AgdaAny -> ()) ->
  (AgdaAny -> AgdaAny -> AgdaAny -> AgdaAny -> ()) -> ()
d_Transitive_38 = erased