------------------------------------------------------------------------
-- The Agda standard library
--
-- All library modules, along with short descriptions
------------------------------------------------------------------------
-- Note that core modules are not included.
module Everything where
-- Definitions of algebraic structures like monoids and rings
-- (packed in records together with sets, operations, etc.)
import Algebra
-- Properties of functions, such as associativity and commutativity
import Algebra.FunctionProperties
-- Solver for monoid equalities
import Algebra.Monoid-solver
-- Morphisms between algebraic structures
import Algebra.Morphism
-- Some defined operations (multiplication by natural number and
-- exponentiation)
import Algebra.Operations
-- Some derivable properties
import Algebra.Props.AbelianGroup
-- Some derivable properties
import Algebra.Props.BooleanAlgebra
-- Boolean algebra expressions
import Algebra.Props.BooleanAlgebra.Expression
-- Some derivable properties
import Algebra.Props.DistributiveLattice
-- Some derivable properties
import Algebra.Props.Group
-- Some derivable properties
import Algebra.Props.Lattice
-- Some derivable properties
import Algebra.Props.Ring
-- Solver for commutative ring or semiring equalities
import Algebra.RingSolver
-- Commutative semirings with some additional structure ("almost"
-- commutative rings), used by the ring solver
import Algebra.RingSolver.AlmostCommutativeRing
-- Some boring lemmas used by the ring solver
import Algebra.RingSolver.Lemmas
-- Instantiates the ring solver, using the natural numbers as the
-- coefficient "ring"
import Algebra.RingSolver.Natural-coefficients
-- Instantiates the ring solver with two copies of the same ring with
-- decidable equality
import Algebra.RingSolver.Simple
-- Some algebraic structures (not packed up with sets, operations,
-- etc.)
import Algebra.Structures
-- Applicative functors
import Category.Applicative
-- Indexed applicative functors
import Category.Applicative.Indexed
-- Functors
import Category.Functor
-- Monads
import Category.Monad
-- A delimited continuation monad
import Category.Monad.Continuation
-- The identity monad
import Category.Monad.Identity
-- Indexed monads
import Category.Monad.Indexed
-- The partiality monad
import Category.Monad.Partiality
-- An All predicate for the partiality monad
import Category.Monad.Partiality.All
-- The state monad
import Category.Monad.State
-- Basic types related to coinduction
import Coinduction
-- AVL trees
import Data.AVL
-- Finite maps with indexed keys and values, based on AVL trees
import Data.AVL.IndexedMap
-- Finite sets, based on AVL trees
import Data.AVL.Sets
-- A binary representation of natural numbers
import Data.Bin
-- Booleans
import Data.Bool
-- A bunch of properties
import Data.Bool.Properties
-- Showing booleans
import Data.Bool.Show
-- Bounded vectors
import Data.BoundedVec
-- Bounded vectors (inefficient, concrete implementation)
import Data.BoundedVec.Inefficient
-- Characters
import Data.Char
-- "Finite" sets indexed on coinductive "natural" numbers
import Data.Cofin
-- Coinductive lists
import Data.Colist
-- Infinite merge operation for coinductive lists
import Data.Colist.Infinite-merge
-- Coinductive "natural" numbers
import Data.Conat
-- Containers, based on the work of Abbott and others
import Data.Container
-- Properties related to ◇
import Data.Container.Any
-- Container combinators
import Data.Container.Combinator
-- The free monad construction on containers
import Data.Container.FreeMonad
-- Coinductive vectors
import Data.Covec
-- Lists with fast append
import Data.DifferenceList
-- Natural numbers with fast addition (for use together with
-- DifferenceVec)
import Data.DifferenceNat
-- Vectors with fast append
import Data.DifferenceVec
-- Digits and digit expansions
import Data.Digit
-- Empty type
import Data.Empty
-- Finite sets
import Data.Fin
-- Decision procedures for finite sets and subsets of finite sets
import Data.Fin.Dec
-- Properties related to Fin, and operations making use of these
-- properties (or other properties not available in Data.Fin)
import Data.Fin.Props
-- Subsets of finite sets
import Data.Fin.Subset
-- Some properties about subsets
import Data.Fin.Subset.Props
-- Substitutions
import Data.Fin.Substitution
-- An example of how Data.Fin.Substitution can be used: a definition
-- of substitution for the untyped λ-calculus, along with some lemmas
import Data.Fin.Substitution.Example
-- Substitution lemmas
import Data.Fin.Substitution.Lemmas
-- Application of substitutions to lists, along with various lemmas
import Data.Fin.Substitution.List
-- Directed acyclic multigraphs
import Data.Graph.Acyclic
-- Integers
import Data.Integer
-- Properties related to addition of integers
import Data.Integer.Addition.Properties
-- Divisibility and coprimality
import Data.Integer.Divisibility
-- Properties related to multiplication of integers
import Data.Integer.Multiplication.Properties
-- Some properties about integers
import Data.Integer.Properties
-- Lists
import Data.List
-- Lists where all elements satisfy a given property
import Data.List.All
-- Properties related to All
import Data.List.All.Properties
-- Lists where at least one element satisfies a given property
import Data.List.Any
-- Properties related to bag and set equality
import Data.List.Any.BagAndSetEquality
-- Properties related to list membership
import Data.List.Any.Membership
-- Properties related to Any
import Data.List.Any.Properties
-- A data structure which keeps track of an upper bound on the number
-- of elements /not/ in a given list
import Data.List.Countdown
-- Non-empty lists
import Data.List.NonEmpty
-- Properties of non-empty lists
import Data.List.NonEmpty.Properties
-- List-related properties
import Data.List.Properties
-- Reverse view
import Data.List.Reverse
-- M-types (the dual of W-types)
import Data.M
-- The Maybe type
import Data.Maybe
-- Natural numbers
import Data.Nat
-- Coprimality
import Data.Nat.Coprimality
-- Integer division
import Data.Nat.DivMod
-- Divisibility
import Data.Nat.Divisibility
-- Greatest common divisor
import Data.Nat.GCD
-- Boring lemmas used in Data.Nat.GCD and Data.Nat.Coprimality
import Data.Nat.GCD.Lemmas
-- Definition of and lemmas related to "true infinitely often"
import Data.Nat.InfinitelyOften
-- Least common multiple
import Data.Nat.LCM
-- Primality
import Data.Nat.Primality
-- A bunch of properties about natural number operations
import Data.Nat.Properties
-- Showing natural numbers
import Data.Nat.Show
-- Transitive closures
import Data.Plus
-- Products
import Data.Product
-- N-ary products
import Data.Product.N-ary
-- Rational numbers
import Data.Rational
-- Reflexive closures
import Data.ReflexiveClosure
-- Signs
import Data.Sign
-- Some properties about signs
import Data.Sign.Properties
-- The reflexive transitive closures of McBride, Norell and Jansson
import Data.Star
-- Bounded vectors (inefficient implementation)
import Data.Star.BoundedVec
-- Decorated star-lists
import Data.Star.Decoration
-- Environments (heterogeneous collections)
import Data.Star.Environment
-- Finite sets defined in terms of Data.Star
import Data.Star.Fin
-- Lists defined in terms of Data.Star
import Data.Star.List
-- Natural numbers defined in terms of Data.Star
import Data.Star.Nat
-- Pointers into star-lists
import Data.Star.Pointer
-- Some properties related to Data.Star
import Data.Star.Properties
-- Vectors defined in terms of Data.Star
import Data.Star.Vec
-- Streams
import Data.Stream
-- Strings
import Data.String
-- Sums (disjoint unions)
import Data.Sum
-- Some unit types
import Data.Unit
-- Vectors
import Data.Vec
-- Semi-heterogeneous vector equality
import Data.Vec.Equality
-- Code for converting Vec A n → B to and from n-ary functions
import Data.Vec.N-ary
-- Some Vec-related properties
import Data.Vec.Properties
-- W-types
import Data.W
-- Type(s) used (only) when calling out to Haskell via the FFI
import Foreign.Haskell
-- Simple combinators working solely on and with functions
import Function
-- Bijections
import Function.Bijection
-- Function setoids and related constructions
import Function.Equality
-- Equivalence (coinhabitance)
import Function.Equivalence
-- Injections
import Function.Injection
-- Inverses
import Function.Inverse
-- Left inverses
import Function.LeftInverse
-- A universe which includes several kinds of "relatedness" for sets,
-- such as equivalences, surjections and bijections
import Function.Related
-- Basic lemmas showing that various types are related (isomorphic or
-- equivalent or…)
import Function.Related.TypeIsomorphisms
-- Surjections
import Function.Surjection
-- IO
import IO
-- Primitive IO: simple bindings to Haskell types and functions
import IO.Primitive
-- An abstraction of various forms of recursion/induction
import Induction
-- Lexicographic induction
import Induction.Lexicographic
-- Various forms of induction for natural numbers
import Induction.Nat
-- Well-founded induction
import Induction.WellFounded
-- The irrelevance axiom
import Irrelevance
-- Universe levels
import Level
-- Record types with manifest fields and "with", based on Randy
-- Pollack's "Dependently Typed Records in Type Theory"
import Record
-- Support for reflection
import Reflection
-- Properties of homogeneous binary relations
import Relation.Binary
-- Some properties imply others
import Relation.Binary.Consequences
-- Convenient syntax for equational reasoning
import Relation.Binary.EqReasoning
-- Many properties which hold for _∼_ also hold for flip _∼_
import Relation.Binary.Flip
-- Heterogeneous equality
import Relation.Binary.HeterogeneousEquality
-- Indexed binary relations
import Relation.Binary.Indexed
-- Induced preorders
import Relation.Binary.InducedPreorders
-- Lexicographic ordering of lists
import Relation.Binary.List.NonStrictLex
-- Pointwise lifting of relations to lists
import Relation.Binary.List.Pointwise
-- Lexicographic ordering of lists
import Relation.Binary.List.StrictLex
-- Conversion of ≤ to <, along with a number of properties
import Relation.Binary.NonStrictToStrict
-- Many properties which hold for _∼_ also hold for _∼_ on f
import Relation.Binary.On
-- Order morphisms
import Relation.Binary.OrderMorphism
-- Convenient syntax for "equational reasoning" using a partial order
import Relation.Binary.PartialOrderReasoning
-- Convenient syntax for "equational reasoning" using a preorder
import Relation.Binary.PreorderReasoning
-- Lexicographic products of binary relations
import Relation.Binary.Product.NonStrictLex
-- Pointwise products of binary relations
import Relation.Binary.Product.Pointwise
-- Lexicographic products of binary relations
import Relation.Binary.Product.StrictLex
-- Propositional (intensional) equality
import Relation.Binary.PropositionalEquality
-- An equality postulate which evaluates
import Relation.Binary.PropositionalEquality.TrustMe
-- Properties satisfied by decidable total orders
import Relation.Binary.Props.DecTotalOrder
-- Properties satisfied by posets
import Relation.Binary.Props.Poset
-- Properties satisfied by preorders
import Relation.Binary.Props.Preorder
-- Properties satisfied by strict partial orders
import Relation.Binary.Props.StrictPartialOrder
-- Properties satisfied by strict partial orders
import Relation.Binary.Props.StrictTotalOrder
-- Properties satisfied by total orders
import Relation.Binary.Props.TotalOrder
-- Helpers intended to ease the development of "tactics" which use
-- proof by reflection
import Relation.Binary.Reflection
-- Pointwise lifting of binary relations to sigma types
import Relation.Binary.Sigma.Pointwise
-- Some simple binary relations
import Relation.Binary.Simple
-- Convenient syntax for "equational reasoning" using a strict partial
-- order
import Relation.Binary.StrictPartialOrderReasoning
-- Conversion of < to ≤, along with a number of properties
import Relation.Binary.StrictToNonStrict
-- Sums of binary relations
import Relation.Binary.Sum
-- Pointwise lifting of relations to vectors
import Relation.Binary.Vec.Pointwise
-- Operations on nullary relations (like negation and decidability)
import Relation.Nullary
-- Operations on and properties of decidable relations
import Relation.Nullary.Decidable
-- Implications of nullary relations
import Relation.Nullary.Implication
-- Properties related to negation
import Relation.Nullary.Negation
-- Products of nullary relations
import Relation.Nullary.Product
-- Sums of nullary relations
import Relation.Nullary.Sum
-- A universe of proposition functors, along with some properties
import Relation.Nullary.Universe
-- Unary relations
import Relation.Unary
-- Sizes for Agda's sized types
import Size
-- Universes
import Universe