111 lines
3.4 KiB
Racket
111 lines
3.4 KiB
Racket
#lang scribble/manual
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@(require scribble/example racket/sandbox
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(for-label typed/racket/base
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graph
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(only-in typed/graph Graph)
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(submod "../networks.rkt" typed)
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"../utils.rkt"
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"../functions.rkt"))
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@(define networks-evaluator
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(parameterize ([sandbox-output 'string]
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[sandbox-error-output 'string]
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[sandbox-memory-limit 50])
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(make-evaluator 'typed/racket #:requires '((submod "networks.rkt" typed)))))
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@(define-syntax-rule (ex . args)
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(examples #:eval networks-evaluator . args))
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@title[#:tag "networks"]{dds/networks: Formal Dynamical Networks}
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@defmodule[(submod dds/networks typed)]
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This module provides definitions for and analysing network models. A network
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is a set of variables which are updated according to their corresponding update
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functions. The variables to be updated at each step are given by the mode.
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This model can generalise Boolean networks, TBANs, multivalued networks, etc.
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@section[#:tag "networks-basics"]{Basic types}
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@defform[#:kind "type" (State a)]{
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An immutable mapping (a hash table) assigning elements of type @racket[a] to
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the variables. A synonym of @racket[VariableMapping].
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}
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@defform[#:kind "type" (UpdateFunction a)]{
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An update function is a function computing a value from the given
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state. This is a synonym of the type @racket[(-> (State a) a)].
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}
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@defform[#:kind "type" (DomainMapping a)]{
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A domain mapping is a hash table mapping variables to the lists of values in
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their domains.
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}
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@defstruct*[network ([functions (VariableMapping (UpdateFunction a))]
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[domains (DomainMapping a)])]{
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A network consists of a mapping from its variables to its update variables, as
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a well as of a mapping from its variables to their domains.
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Instances of @racket[network] have the type @racket[Network].
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}
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@defidform[#:kind "type" Network]{
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The type of the instances of @racket[Network].
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@ex[
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(: or-func (UpdateFunction Boolean))
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(define (or-func s)
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(or (hash-ref s 'a) (hash-ref s 'b)))
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(: and-func (UpdateFunction Boolean))
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(define (and-func s)
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(and (hash-ref s 'a) (hash-ref s 'b)))
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(network (hash 'a or-func
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'b and-func)
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(hash 'a '(#f #t)
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'b '(#f #t)))
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]}
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@section{Syntactic description of networks}
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@section{Inferring interaction graphs}
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This section provides inference of both unsigned and signed interaction graphs.
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Since the inference of signed interaction graphs is based on analysing the
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dynamics of the networks, it may be quite resource-consuming, especially since
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I allow any syntactic forms in the definitions of the functions.
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Note the fine difference between @emph{syntactic} interaction graphs and
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interaction graphs generated from the dynamics of the network.
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Syntactic interaction graphs are based on the whether a variable appears or not
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in the form of the function for another variable. On the other hand, the
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normal, conventional interaction graph records the fact that one variable has
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an impact on the dynamics of the other variable. Depending on the model, these
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may or may not be the same.
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@section{Dynamics of networks}
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This section contains definitions for building and analysing the dynamics
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of networks.
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@section{Tabulating functions and networks}
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@section{Constructing functions and networks}
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@section{Random functions and networks}
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@section{TBF/TBN and SBF/SBN}
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This section defines threshold Boolean functions (TBF) and networks (TBN), as
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well as sign Boolean functions (SBF) and networks (SBN).
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