• en

Functor CamlinternalMenhirLib.InspectionTableInterpreter.Make

module Make: 
functor (TT : CamlinternalMenhirLib.TableFormat.TABLES-> 
functor (IT : CamlinternalMenhirLib.InspectionTableFormat.TABLES with type 'a lr1state = int-> 
functor (ET : CamlinternalMenhirLib.EngineTypes.TABLE with type terminal = int and type nonterminal = int and type semantic_value = Obj.t-> 
functor (E : sig
type 'a env = (ET.state, ET.semantic_value, ET.token) CamlinternalMenhirLib.EngineTypes.env 
end-> CamlinternalMenhirLib.IncrementalEngine.INSPECTION 
  with type 'a terminal := 'a IT.terminal
   and type 'a nonterminal := 'a IT.nonterminal
   and type 'a lr1state := 'a IT.lr1state
   and type production := int
   and type 'a env := 'a E.env
Parameters:
TT : CamlinternalMenhirLib.TableFormat.TABLES
IT : InspectionTableFormat.TABLES with type 'a lr1state = int
ET : EngineTypes.TABLE with type terminal = int and type nonterminal = int and type semantic_value = Obj.t
E : sig type 'a env = (ET.state, ET.semantic_value, ET.token) EngineTypes.env end

include CamlinternalMenhirLib.IncrementalEngine.SYMBOLS
type 'a lr1state 
type production 
type item = production * int 
val compare_terminals : 'a terminal -> 'b terminal -> int
val compare_nonterminals : 'a nonterminal -> 'b nonterminal -> int
val compare_symbols : xsymbol -> xsymbol -> int
val compare_productions : production ->
production -> int
val compare_items : item ->
item -> int
val incoming_symbol : 'a lr1state -> 'a symbol
val items : 'a lr1state ->
item list
val lhs : production -> xsymbol
val rhs : production -> xsymbol list
val nullable : 'a nonterminal -> bool
val first : 'a nonterminal -> 'b terminal -> bool
val xfirst : xsymbol -> 'a terminal -> bool
val foreach_terminal : (xsymbol -> 'a -> 'a) -> 'a -> 'a
val foreach_terminal_but_error : (xsymbol -> 'a -> 'a) -> 'a -> 'a
type 'a env 
val feed : 'a symbol ->
CamlinternalMenhirLib.IncrementalEngine.position ->
'a ->
CamlinternalMenhirLib.IncrementalEngine.position ->
'b env ->
'b env