package bap-std

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IR Graph node.

Node is labeled by the blk term.

include Graphlib.Std.Node with type graph = t and type t = node and type edge = edge and type label = blk term
type t = node

node type is opaque

type graph = t

node type is opaque

the type of the node graph

type label = blk term

the type of the node graph

the label type

type edge = edge

the label type

the edge type

val create : label -> t

create x creates a node labeled with x.

For unlabeled graphs this is an identity function.

val label : t -> label

label n the label of the node n.

val mem : t -> graph -> bool

mem n g is true if n is a member of nodes N of graph g.

For labeled graphs the membership is tested without taking into account the label of the node.

val succs : t -> graph -> t Regular.Std.seq

succs node graph returns a sequence of successors of a node in a a given graph

val preds : t -> graph -> t Regular.Std.seq

preds node graph returns a sequence of predecessors of a node in a a given graph

val inputs : t -> graph -> edge Regular.Std.seq

inputs node graph is incoming edges of a node in graph

val outputs : t -> graph -> edge Regular.Std.seq

outputs node graph is outcomming edges of a node in graph

val degree : ?dir:[ `In | `Out ] -> t -> graph -> int

degree ?dir n when in_or_out is `In then returns the amount of incoming edges, otherwise returns the amount of outcomming edges. If parameter dir is left absent, then return the amount of adjacent nodes (i.e., a sum of incoming and outcomming edges).

val insert : t -> graph -> graph

insert n g returns new graph g' that has a set of nodes N extended with node n. If N was contained n, then the g == g'. Use update to change existing nodes.

Postconditions:

          - N(g') = N(g) ∪ {n}.
val update : t -> label -> graph -> graph

update n l g for a graph with labeled nodes if node n is not in N(g) then returns g else returns graph g where node n is labeled with l.

For unlabeled graph returns g.

Postconditions:

          - n ∉ N(g) -> n ∉ N(g').
          - n ∈ N(g) → ν(g')n = l.
val remove : t -> graph -> graph

remove n g returns graph g', with a node n removed from a set of nodes N.

Postconditions:

          - E(g) ⊆ E(g')
          - N(g) ⊆ N(g')
          - N(g') = N(g) \ {n}.
val has_edge : t -> t -> graph -> bool

has_edge x y g is true iff (x,y) ∈ E.

val edge : t -> t -> graph -> edge option

edge x y g if graph g has an edge between nodes x and y then it is returned.

node provides common data structures, like Table, Map, Set, Hash_set, etc.

include Regular.Std.Opaque.S with type t := t
include Core_kernel.Comparable.S with type t := t
include Base.Comparable.S with type t := t
val (>=) : t -> t -> bool
val (<=) : t -> t -> bool
val (=) : t -> t -> bool
val (>) : t -> t -> bool
val (<) : t -> t -> bool
val (<>) : t -> t -> bool
val equal : t -> t -> bool
val min : t -> t -> t
val max : t -> t -> t
val ascending : t -> t -> int
val descending : t -> t -> int
val between : t -> low:t -> high:t -> bool
val clamp_exn : t -> min:t -> max:t -> t
val clamp : t -> min:t -> max:t -> t Base__.Or_error.t
type comparator_witness
val comparator : (t, comparator_witness) Base__Comparator.comparator
val validate_lbound : min:t Base__.Maybe_bound.t -> t Base__.Validate.check
val validate_ubound : max:t Base__.Maybe_bound.t -> t Base__.Validate.check
val validate_bound : min:t Base__.Maybe_bound.t -> max:t Base__.Maybe_bound.t -> t Base__.Validate.check
module Replace_polymorphic_compare : sig ... end
include Core_kernel.Hashable.S with type t := t
include Core_kernel.Hashable.Common with type t := t
val compare : t -> t -> Base.Int.t
val hash_fold_t : Ppx_hash_lib.Std.Hash.state -> t -> Ppx_hash_lib.Std.Hash.state
val hash : t -> Ppx_hash_lib.Std.Hash.hash_value
val hashable : t Core_kernel__.Hashtbl.Hashable.t
module Table : Core_kernel.Hashtbl.S with type key = t
module Hash_set : Core_kernel.Hash_set.S with type elt = t
include Regular.Std.Printable.S with type t := t
val to_string : t -> string

to_string x returns a human-readable representation of x

val str : unit -> t -> string

str () t is formatted output function that matches "%a" conversion format specifier in functions, that prints to string, e.g., sprintf, failwithf, errorf and, surprisingly all Lwt printing function, including Lwt_io.printf and logging (or any other function with type ('a,unit,string,...) formatN`. Example:

Or_error.errorf "type %a is not valid for %a"
  Type.str ty Exp.str exp
val pps : unit -> t -> string

synonym for str

val ppo : Core_kernel.Out_channel.t -> t -> unit

will print to a standard output_channel, useful for using in printf, fprintf, etc.

val pp_seq : Stdlib.Format.formatter -> t Core_kernel.Sequence.t -> unit

prints a sequence of values of type t

this will include pp function from Core that has type t printer, and can be used in Format.printf family of functions

include Core_kernel.Pretty_printer.S with type t := t
val pp : Base__.Formatter.t -> t -> unit
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