Module Kappa_runtime__Generic_rule_interpreter.Make
Parameters
Signature
type instance
type result
=
|
Clash
|
Corrected
|
Blocked
|
Success of t
Clash means rectangular approximation failure Corrected means molecular ambiguity failure
Initialisation
val empty : outputs:(Kappa_runtime.Data.t -> unit) -> with_trace:bool -> Random.State.t -> Kappa_terms.Model.t -> Kappa_runtime.Counter.t -> t
algebraic expression computation
val value_alg : Kappa_runtime.Counter.t -> t -> Kappa_terms.Primitives.alg_expr -> Kappa_generic_toolset.Nbr.t
val value_bool : Kappa_runtime.Counter.t -> t -> (Kappa_terms.Pattern.id array list, int) Kappa_terms.Alg_expr.bool -> bool
val activity : t -> float
val get_edges : t -> Kappa_mixtures.Edges.t
Core
val apply_given_rule : debugMode:bool -> outputs:(Kappa_runtime.Data.t -> unit) -> ?rule_id:int -> Kappa_terms.Model.t -> Kappa_runtime.Counter.t -> t -> Kappa_runtime.Trace.event_kind -> Kappa_terms.Primitives.elementary_rule -> result
Returns the graph obtained by applying the rule.
rule_id
is mandatory if the rule has an unary rate.
val pick_an_instance : debugMode:bool -> Kappa_terms.Model.t -> t -> instance
val is_correct_instance : Kappa_terms.Model.t -> t -> instance -> bool
val apply_instance : debugMode:bool -> outputs:(Kappa_runtime.Data.t -> unit) -> ?maxConsecutiveBlocked:int -> maxConsecutiveClash:int -> Kappa_terms.Model.t -> Kappa_runtime.Counter.t -> t -> instance -> int option * bool * t
apply_rule ~outputs ~maxConsecutiveClash ?is_blocked model counter st
Returns(corresponding_syntactic_rule, is_final_step, new_state)
.is_final_step
is determined by the counter.corresponding_syntactic_rule
is equal to None if and only if a null event occured
val force_rule : debugMode:bool -> outputs:(Kappa_runtime.Data.t -> unit) -> Kappa_terms.Model.t -> Kappa_runtime.Counter.t -> t -> Kappa_runtime.Trace.event_kind -> ?rule_id:int -> Kappa_terms.Primitives.elementary_rule -> t option
Apply the rule for sure if it is possible. Try
apply_rule
but in case of null_event, it computes the exact injections of the left hand side to do apply the rule and returns the remaining exact injections.
val incorporate_extra_pattern : debugMode:bool -> Kappa_terms.Pattern.Env.t -> t -> Kappa_terms.Pattern.id -> t
val overwrite_var : int -> Kappa_runtime.Counter.t -> t -> Kappa_terms.Primitives.alg_expr -> t
val update_outdated_activities : debugMode:bool -> (int -> float -> float -> unit) -> Kappa_terms.Model.t -> Kappa_runtime.Counter.t -> t -> int list -> t * int list
Resynchronize the state after a rule application.
It takes the function to store the new activities as an argument whose signature is
store rule_id syntactic_rule_id new_activity
.As long as you don't use any algebraic variable (that include don't pick a rule randomly), you can apply several rules in row before resynchronizing. (This is what initial state does.)
takes the list of perturbations to be tried and returns it updated
val snapshot : debugMode:bool -> raw:bool -> Kappa_terms.Model.t -> Kappa_runtime.Counter.t -> t -> Kappa_runtime.Data.snapshot
val print : Kappa_terms.Model.t -> Format.formatter -> t -> unit
val get_random_state : t -> Random.State.t
val update_edges_from_actions : debugMode:bool -> outputs:(Kappa_runtime.Data.t -> unit) -> Kappa_mixtures.Signature.s -> Kappa_runtime.Counter.t -> Kappa_terms.Pattern.Env.t -> t -> (Kappa_terms.Instantiation.concrete Kappa_terms.Instantiation.action list * Kappa_terms.Instantiation.concrete Kappa_terms.Instantiation.site list) -> t
val send_instances_message : Instances.message -> t -> t
Blocking events
type event_predicate
= int option -> Kappa_terms.Matching.t -> Kappa_terms.Instantiation.concrete Kappa_terms.Instantiation.test list -> Kappa_terms.Instantiation.concrete Kappa_terms.Instantiation.action list -> bool
val set_events_to_block : event_predicate option -> t -> t
Stories
val add_tracked : outputs:(Kappa_runtime.Data.t -> unit) -> Kappa_terms.Pattern.id array -> string -> Kappa_terms.Instantiation.abstract Kappa_terms.Instantiation.test list list -> t -> t
val remove_tracked : Kappa_terms.Pattern.id array -> string option -> t -> t
Species
val add_tracked_species : Kappa_terms.Pattern.id array -> string -> Kappa_terms.Instantiation.abstract Kappa_terms.Instantiation.test list list -> t -> t
val remove_tracked_species : string -> t -> t
Debugging
type stats
=
{
mixture_stats : Kappa_mixtures.Edges.stats;
}
val stats : t -> stats
val print_stats : Format.formatter -> t -> unit
val debug_print : Format.formatter -> t -> unit
val apply_negative_transformation : ?mod_connectivity_store:Kappa_runtime.Roots.mod_ccs_cache -> Instances.t -> (Kappa_terms.Instantiation.concrete Kappa_terms.Instantiation.site list * Kappa_mixtures.Edges.t) -> Kappa_terms.Instantiation.concrete Kappa_terms.Primitives.Transformation.t -> Kappa_terms.Instantiation.concrete Kappa_terms.Instantiation.site list * Kappa_mixtures.Edges.t
Internals
val apply_positive_transformation : debugMode:bool -> Kappa_mixtures.Signature.s -> ?mod_connectivity_store:Kappa_runtime.Roots.mod_ccs_cache -> Instances.t -> ((Kappa_terms.Matching.t * int Kappa_generic_toolset.Mods.IntMap.t) * Kappa_terms.Instantiation.concrete Kappa_terms.Instantiation.site list * Kappa_mixtures.Edges.t) -> Kappa_terms.Instantiation.abstract Kappa_terms.Primitives.Transformation.t -> ((Kappa_terms.Matching.t * int Kappa_generic_toolset.Mods.IntMap.t) * Kappa_terms.Instantiation.concrete Kappa_terms.Instantiation.site list * Kappa_mixtures.Edges.t) * Kappa_terms.Instantiation.concrete Kappa_terms.Primitives.Transformation.t
val apply_concrete_positive_transformation : Kappa_mixtures.Signature.s -> ?mod_connectivity_store:Kappa_runtime.Roots.mod_ccs_cache -> Instances.t -> Kappa_mixtures.Edges.t -> Kappa_terms.Instantiation.concrete Kappa_terms.Primitives.Transformation.t -> Kappa_mixtures.Edges.t
val obs_from_transformations : debugMode:bool -> Kappa_terms.Pattern.Env.t -> Kappa_mixtures.Edges.t -> Kappa_terms.Instantiation.concrete Kappa_terms.Primitives.Transformation.t list -> (Kappa_terms.Pattern.id * Kappa_mixtures.Agent.t) list * Kappa_generic_toolset.Operator.DepSet.t
obs_from_transformations domain state transformations
- returns
(obs, deps)
val add_outdated_dependencies : Kappa_generic_toolset.Operator.DepSet.t -> t -> t
val debug_print_instances : Format.formatter -> t -> unit