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end if;
end Current_Event;
function Current_Atom (P : in Subparser) return Atom is
begin
if P.Terminated then
raise Constraint_Error;
else
return Current_Atom (P.Backend.all);
end if;
end Current_Atom;
function Current_Level (P : in Subparser) return Natural is
begin
if P.Terminated then
return P.Base_Level;
else
return Current_Level (P.Backend.all);
end if;
end Current_Level;
procedure Query_Atom
(P : in Subparser;
Process : not null access procedure (Data : in Atom)) is
begin
if P.Terminated then
raise Constraint_Error;
else
Query_Atom (P.Backend.all, Process);
end if;
end Query_Atom;
procedure Read_Atom
(P : in Subparser;
Data : out Atom;
Length : out Count) is
begin
if P.Terminated then
raise Constraint_Error;
else
Read_Atom (P.Backend.all, Data, Length);
end if;
end Read_Atom;
procedure Next (P : in out Subparser; Event : out Events.Event) is
begin
if P.Terminated then
raise Constraint_Error;
end if;
if not P.Initialized then
P.Base_Level := Current_Level (P.Backend.all);
P.Initialized := True;
end if;
Next_Event (P.Backend.all, P.Input);
Event := Current_Event (P.Backend.all);
if Event = Events.Close_List
and then Current_Level (P.Backend.all) < P.Base_Level
then
P.Terminated := True;
Event := Events.End_Of_Input;
end if;
end Next;
procedure Finish (P : in out Subparser) is
Event : Events.Event := Current_Event (P);
begin
while Event /= Events.Error and Event /= Events.End_Of_Input loop
Next (P, Event);
end loop;
end Finish;
end Natools.S_Expressions.Parsers;
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end if;
end Current_Event;
function Current_Atom (P : in Subparser) return Atom is
begin
if P.Terminated then
raise Program_Error;
else
return Current_Atom (P.Backend.all);
end if;
end Current_Atom;
function Current_Level (P : in Subparser) return Natural is
begin
if P.Terminated then
return 0;
else
return Current_Level (P.Backend.all)
- Lockable.Current_Level (P.Levels);
end if;
end Current_Level;
procedure Query_Atom
(P : in Subparser;
Process : not null access procedure (Data : in Atom)) is
begin
if P.Terminated then
raise Program_Error;
else
Query_Atom (P.Backend.all, Process);
end if;
end Query_Atom;
procedure Read_Atom
(P : in Subparser;
Data : out Atom;
Length : out Count) is
begin
if P.Terminated then
raise Program_Error;
else
Read_Atom (P.Backend.all, Data, Length);
end if;
end Read_Atom;
procedure Next (P : in out Subparser; Event : out Events.Event) is
begin
if P.Terminated then
raise Constraint_Error;
end if;
if not P.Initialized then
declare
Lost_State : Lockable.Lock_State;
pragma Unreferenced (Lost_State);
begin
Lock (P, Lost_State);
end;
P.Initialized := True;
end if;
Next_Event (P.Backend.all, P.Input);
Event := Current_Event (P.Backend.all);
if Event = Events.Close_List
and then Current_Level (P.Backend.all)
< Lockable.Current_Level (P.Levels)
then
P.Terminated := True;
Event := Events.End_Of_Input;
end if;
end Next;
overriding procedure Lock
(Object : in out Subparser;
State : out Lockable.Lock_State) is
begin
Lockable.Push_Level
(Object.Levels,
Current_Level (Object.Backend.all),
State);
end Lock;
overriding procedure Unlock
(Object : in out Subparser;
State : in out Lockable.Lock_State;
Finish : in Boolean := True)
is
Previous_Level : constant Natural
:= Lockable.Current_Level (Object.Levels);
begin
Lockable.Pop_Level (Object.Levels, State);
State := Lockable.Null_State;
if Finish then
loop
case Object.Backend.Current_Event is
when Events.Open_List | Events.Add_Atom =>
null;
when Events.Close_List =>
exit when Object.Backend.Current_Level < Previous_Level;
when Events.Error | Events.End_Of_Input =>
exit;
end case;
Next_Event (Object.Backend.all, Object.Input);
end loop;
end if;
Object.Terminated := Object.Backend.Current_Level
< Lockable.Current_Level (Object.Levels);
end Unlock;
procedure Finish (P : in out Subparser) is
Event : Events.Event := Current_Event (P);
begin
while Event /= Events.Error and Event /= Events.End_Of_Input loop
Next (P, Event);
end loop;
end Finish;
end Natools.S_Expressions.Parsers;
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