package lascar

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package lascar
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type state
include Ltsa.T with type label := Moore.BVal.t and type state := state and type attr := Moore.BVal.t
type transition = state * Moore.BVal.t * state

The type for transition. A transition is a triplet (s1,l,s2), where s1 is the source state, s2 the destination state and l the transition label

type itransition = Moore.BVal.t * state

The type for transition. A transition is a triplet (s1,l,s2), where s1 is the source state, s2 the destination state and l the transition label

The type for initial transition. An initial transition is a pair (l,s), where s is the destination state and l the transition label

type t

The type of Labeled Transition Systems with state attributes

module State : Ltsa.STATE with type t = state
module Label : Ltsa.LABEL with type t = Moore.BVal.t
module Attr : Ltsa.ATTR with type t = Moore.BVal.t
module States : Utils.SetExt.S with type elt = state
module Attrs : Map.S with type key = state
module Tree : Utils.Tree.S with type node = state and type edge = Moore.BVal.t
val states : t -> States.t

Returns the set of states

val states' : t -> (state * Moore.BVal.t) list

Returns the set of states

Returns the set of states, with attached attribute as a assocation list

val istates : t -> States.t

Returns the set of states, with attached attribute as a assocation list

Returns the set of initial states

val istates' : t -> state list

Returns the set of initial states

Returns the set of initial states as a list

val transitions : t -> transition list

Returns the set of initial states as a list

Returns the list of transitions

val itransitions : t -> itransition list

Returns the list of transitions

Returns the list of initial transitions

val string_of_state : state -> string

A synonym of State.to_string

val string_of_label : Moore.BVal.t -> string

A synonym of State.to_string

A synonym of Label.to_string

val string_of_attr : Moore.BVal.t -> string

A synonym of Label.to_string

A synonym of Attr.to_string

Inspectors

val is_state : t -> state -> bool

is_state s q returns true iff q is a state in s

val is_init_state : t -> state -> bool

is_state s q returns true iff q is a state in s

is_init s q returns true iff q is an initial state in s

val is_reachable : t -> state -> bool

is_init s q returns true iff q is an initial state in s

is_reachable s q returns true iff q is a reachable state in s, i.e. if it can be reached from an initial state using the transitio relation.

val is_transition : t -> transition -> bool

is_reachable s q returns true iff q is a reachable state in s, i.e. if it can be reached from an initial state using the transitio relation.

is_transition t q returns true iff t is a transition in s

val succs : t -> state -> States.t

succs s q returns the set of immediate successors in s, i.e. the set of state q' such that there exists a transition (q,l,q') in R. Raise Invalid_argument if q is not in s.

val succs' : t -> state -> (state * Moore.BVal.t) list

succs s q returns the set of immediate successors in s, i.e. the set of state q' such that there exists a transition (q,l,q') in R. Raise Invalid_argument if q is not in s.

succs' s q returns the list of immediate successors, with the associated transition label, of state q in s. Raise Invalid_argument if q is not in s.

val preds : t -> state -> States.t

preds s q returns the set of immediate predecessors of state q in s, i.e. the set of state q' such that there exists a transition (q',l,q) in R. Raise Invalid_argument if q is not in s.

val preds' : t -> state -> (state * Moore.BVal.t) list

preds s q returns the set of immediate predecessors of state q in s, i.e. the set of state q' such that there exists a transition (q',l,q) in R. Raise Invalid_argument if q is not in s.

preds' s q returns the list of immediate predecessors, with the associated transition label, of state q in s. Raise Invalid_argument if q is not in s.

val succs_hat : t -> state -> States.t

preds' s q returns the list of immediate predecessors, with the associated transition label, of state q in s. Raise Invalid_argument if q is not in s.

Transitive closure of succs. succs_hat s q returns all the successors (immediate or not) of q in s

val preds_hat : t -> state -> States.t

Transitive closure of succs. succs_hat s q returns all the successors (immediate or not) of q in s

Transitive closure of preds. preds_hat s q returns all the predecessors (immediate or not) of q in s

val attr_of : t -> state -> Moore.BVal.t

attr_of s q returns the attribute of state q in s. Raise Not_found if there is no state q in s

Building functions

exception Invalid_state of state
val remove_state : state -> t -> t

remove_state q s returns the LTSA obtained by removing state q, and all attached transitions, from s. Raises Invalid_state is q is not a state in s

Global iterators

val iter_states : (state -> Moore.BVal.t -> unit) -> t -> unit

iter_states f s applies function f to all states (with associated attribute) of s

val fold_states : (state -> Moore.BVal.t -> 'a -> 'a) -> t -> 'a -> 'a

iter_states f s applies function f to all states (with associated attribute) of s

fold_states f s z computes f xN ... (f x2 (f x1 z))..., where x1, ..., xN are all the states of s

val iter_transitions : (transition -> unit) -> t -> unit

fold_states f s z computes f xN ... (f x2 (f x1 z))..., where x1, ..., xN are all the states of s

iter_transitions f s applies function f to all transitions of s

val fold_transitions : (transition -> 'a -> 'a) -> t -> 'a -> 'a

iter_transitions f s applies function f to all transitions of s

fold_transitions f s z computes f xN ... (f x2 (f x1 z))..., where x1, ..., xN are all the transitions of s

val iter_itransitions : (itransition -> unit) -> t -> unit

fold_transitions f s z computes f xN ... (f x2 (f x1 z))..., where x1, ..., xN are all the transitions of s

iter_itransitions f s applies function f to all initial transitions of s

val fold_itransitions : (itransition -> 'a -> 'a) -> t -> 'a -> 'a

iter_itransitions f s applies function f to all initial transitions of s

fold_itransitions f s z computes f xN ... (f x2 (f x1 z))..., where x1, ..., xN are all the initial transitions of s

State iterators

val fold_succs : t -> state -> (state -> Moore.BVal.t -> 'a -> 'a) -> 'a -> 'a

fold_succs s x f z computes f xN lN ... (f x2 (f x1 l1 z) l2)..., where x1, ..., xN are all the successors of state x in LTSA s, and l1, ..., lN the associated transitions labels

val iter_succs : t -> state -> (state -> Moore.BVal.t -> unit) -> unit

fold_succs s x f z computes f xN lN ... (f x2 (f x1 l1 z) l2)..., where x1, ..., xN are all the successors of state x in LTSA s, and l1, ..., lN the associated transitions labels

iter_succs s x f z computes f x1 l1; ... ;f xN lN, where x1, ..., xN are all the successors of state x in LTSA s, and l1, ..., lN the associated transitions labels

val fold_preds : t -> state -> (state -> Moore.BVal.t -> 'a -> 'a) -> 'a -> 'a

iter_succs s x f z computes f x1 l1; ... ;f xN lN, where x1, ..., xN are all the successors of state x in LTSA s, and l1, ..., lN the associated transitions labels

fold_preds s x f z computes f xN lN ... (f x2 (f x1 l1 z) l2)..., where x1, ..., xN are all the predecessors of state x in LTSA s, and l1, ..., lN the associated transitions labels

val iter_preds : t -> state -> (state -> Moore.BVal.t -> unit) -> unit

fold_preds s x f z computes f xN lN ... (f x2 (f x1 l1 z) l2)..., where x1, ..., xN are all the predecessors of state x in LTSA s, and l1, ..., lN the associated transitions labels

iter_preds s x f z computes f x1 l1; ... ;f xN lN, where x1, ..., xN are all the predecessors of state x in LTSA s, and l1, ..., lN the associated transitions labels

Global transformations

val map_state : (state -> state) -> t -> t

map_state f s returns the LTSA obtained by replacing each state q by f q in s. Result is undefined if f is not injective.

val map_attr : (Moore.BVal.t -> Moore.BVal.t) -> t -> t

map_attr f s returns the LTSA obtained by replacing each state attribute a by f a in s.

val map_label : (Moore.BVal.t -> Moore.BVal.t) -> t -> t

map_label f s returns the LTSA obtained by replacing each transition label l by f l in s.

val clean : t -> t

Removes unreachable nodes and associated transitions

Output functions

val dot_output_execs : string -> ?fname:string -> ?options:Utils.Dot.graph_style list -> int -> t -> unit

dot_output_execs name depth s writes a .dot representation, with name name of the execution trees obtained by calling unwind depth s. The name of the file is name.dot or specified with the fname optional argument. Drawing options can be specified with the options optional argument.

val tex_output : string -> ?fname:string -> ?listed_transitions:Moore.BVal.t list option -> t -> unit

tex_output name fname s writes a .tex representation of s with name name. The name of the output file is name.dot or specified with the fname optional argument. When the optional argument listed_transitions is Some l, only transitions listed in l are written, otherwise all transitions of s are written.

module M : Ltsa.T with type state = state and type label = Moore.BVal.t and type attr = Moore.BVal.t
exception Invalid_transition of transition
val create : inps:Moore.BVal.name list -> outps:Moore.BVal.name list -> states:(state * Moore.BVal.t) list -> istate:state -> trans:(state * Moore.BVal.t * state) list -> t

mk ivs ovs ss is ts builds an Moore structure from

  • a list of input and output variables (each being described by a name and a domain)
  • a list ss of states, each state being assigned a valuation for outputs
  • an initial state is
  • a list of transitions ts, where each transition is given as (src_state,input_valuation,values,dst_state)

Raises Invalid_valuation when appropriate (TBD)

val empty : inps:Moore.BVal.name list -> outps:Moore.BVal.name list -> t
val add_state : (state * Moore.BVal.t) -> t -> t
val add_transition : (state * Moore.BVal.t * state) -> t -> t
val add_itransition : state -> t -> t
val lts_of : t -> M.t

Return the underlying representation of the Moore Machine as a LTS

val istate : t -> state option

Returns the initial state, when specified

val inps : t -> Moore.BVal.name list

Returns the initial state, when specified

Returns the list of inputs variables, with corresponding domains

val outps : t -> Moore.BVal.name list

Returns the list of inputs variables, with corresponding domains

Returns the list of outputs variables, with corresponding domains

val trans : t -> state -> Moore.BVal.t -> States.t

trans a q s returns the set of states q' such that (q,s,q') belongs to the transition relation of a

val trans' : t -> state -> Moore.BVal.t -> state list

trans a q s returns the set of states q' such that (q,s,q') belongs to the transition relation of a

trans' is like trans but returns a list

val unwind : int -> t -> M.Tree.t

unwind depth s unwind machine s to produce an execution tree (rooted at initial state) up to the specified depth.

val dot_output : string -> ?fname:string -> ?options:Utils.Dot.graph_style list -> t -> unit

dot_output name fname s writes a .dot representation of s with name name in file fname. Global graph drawing options can be specified with the options optional argument.

val dot_output_oc : string -> out_channel -> ?options:Utils.Dot.graph_style list -> t -> unit

dot_output_oc name oc s is a variant of dot_output in which the description of s is written to the (previously opened) output channel oc.

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