------------------------------------------------------------------------------
-- Copyright (c) 2013, Natacha Porté --
-- --
-- Permission to use, copy, modify, and distribute this software for any --
-- purpose with or without fee is hereby granted, provided that the above --
-- copyright notice and this permission notice appear in all copies. --
-- --
-- THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES --
-- WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF --
-- MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR --
-- ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES --
-- WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN --
-- ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF --
-- OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. --
------------------------------------------------------------------------------
package body Natools.String_Slices is
use type String_Refs.Reference;
-----------------------------
-- String_Range primitives --
-----------------------------
function Is_In (Point : Natural; Reference : String_Range) return Boolean is
begin
return Point >= Reference.First
and Point < Reference.First + Reference.Length;
end Is_In;
function Is_Subrange (Sample, Reference : String_Range) return Boolean is
begin
return Sample.First >= Reference.First
and then Sample.First + Sample.Length
<= Reference.First + Reference.Length;
end Is_Subrange;
function Last (Self : String_Range) return Natural is
begin
return Self.First + Self.Length - 1;
end Last;
function To_Range (First : Positive; Last : Natural) return String_Range is
begin
if Last >= First then
return (First => First, Length => Last - First + 1);
else
return (First => First, Length => 0);
end if;
end To_Range;
function Get_Range (S : String) return String_Range is
begin
return (S'First, S'Length);
end Get_Range;
procedure Set_First (Self : in out String_Range; New_First : in Positive) is
begin
if New_First >= Self.First + Self.Length then
Self.Length := 0;
else
Self.Length := Self.Length - (New_First - Self.First);
end if;
Self.First := New_First;
end Set_First;
procedure Set_Last (Self : in out String_Range; New_Last : in Natural) is
begin
if New_Last < Self.First then
Self.Length := 0;
else
Self.Length := New_Last - Self.First + 1;
end if;
end Set_Last;
procedure Set_Length
(Self : in out String_Range; New_Length : in Natural) is
begin
Self.Length := New_Length;
end Set_Length;
function Image (Interval : String_Range) return String is
First_Img : String := Integer'Image (Interval.First);
begin
pragma Assert (First_Img (First_Img'First) = ' ');
if Interval.Length = 0 then
return "empty at" & First_Img;
end if;
First_Img (First_Img'First) := '[';
if Interval.Length = 1 then
return First_Img & ']';
else
return First_Img
& ','
& Integer'Image (Last (Interval))
& ']';
end if;
end Image;
--------------------------
-- Conversion functions --
--------------------------
function To_Slice (S : String) return Slice is
function Create return String;
function Create return String is
begin
return S;
end Create;
begin
return Slice'(Bounds => (S'First, S'Length),
Ref => String_Refs.Create (Create'Access));
end To_Slice;
function To_String (S : Slice) return String is
begin
if S.Ref.Is_Empty then
return "";
else
return S.Ref.Query.Data.all (S.Bounds.First .. Last (S.Bounds));
end if;
end To_String;
---------------
-- Accessors --
---------------
procedure Export (S : in Slice; Output : out String) is
begin
if not S.Ref.Is_Empty then
Output := S.Ref.Query.Data.all (S.Bounds.First .. Last (S.Bounds));
end if;
end Export;
procedure Query
(S : in Slice;
Process : not null access procedure (Text : in String)) is
begin
if S.Bounds.Length = 0 or else S.Ref.Is_Empty then
Process.all ("");
else
Process.all
(S.Ref.Query.Data.all (S.Bounds.First .. Last (S.Bounds)));
end if;
end Query;
function Get_Range (S : Slice) return String_Range is
begin
return S.Bounds;
end Get_Range;
function First (S : Slice) return Positive is
begin
return S.Bounds.First;
end First;
function Last (S : Slice) return Natural is
begin
return Last (S.Bounds);
end Last;
function Length (S : Slice) return Natural is
begin
return S.Bounds.Length;
end Length;
---------------
-- Extenders --
---------------
function Parent (S : Slice) return Slice is
begin
if S.Ref.Is_Empty then
return Slice'(others => <>);
else
return Slice'(Bounds => Get_Range (S.Ref.Query.Data.all),
Ref => S.Ref);
end if;
end Parent;
function Extend (S : Slice; New_Range : in String_Range) return Slice is
begin
if not Is_Subrange (New_Range, Get_Range (S.Ref.Query.Data.all)) then
raise Constraint_Error with "Extend slice beyond complete range";
end if;
return Slice'(Bounds => New_Range,
Ref => S.Ref);
end Extend;
function Extend (S : Slice; First : Positive; Last : Natural)
return Slice is
begin
return Extend (S, To_Range (First, Last));
end Extend;
procedure Extend (S : in out Slice; New_Range : in String_Range) is
begin
if not Is_Subrange (New_Range, Get_Range (S.Ref.Query.Data.all)) then
raise Constraint_Error with "Extend slice beyond complete range";
end if;
S.Bounds := New_Range;
end Extend;
procedure Extend
(S : in out Slice; First : in Positive; Last : in Natural) is
begin
Extend (S, To_Range (First, Last));
end Extend;
-----------------
-- Restrictors --
-----------------
function Subslice (S : Slice; New_Range : String_Range) return Slice is
begin
if S.Ref.Is_Empty then
if New_Range.Length = 0 then
return Slice'(Bounds => New_Range, Ref => <>);
else
raise Constraint_Error with "Subslice of null slice";
end if;
end if;
if not Is_Subrange (New_Range, S.Bounds) then
raise Constraint_Error with "Subslice out of parent range";
end if;
return Slice'(Bounds => New_Range,
Ref => S.Ref);
end Subslice;
function Subslice (S : Slice; First : Positive; Last : Natural)
return Slice is
begin
return Subslice (S, To_Range (First, Last));
end Subslice;
procedure Restrict (S : in out Slice; New_Range : in String_Range) is
begin
if S.Ref.Is_Empty and New_Range.Length /= 0 then
raise Constraint_Error with "Restrict of null slice";
end if;
if not Is_Subrange (New_Range, S.Bounds) then
raise Constraint_Error with "Restriction with not a subrange";
end if;
S.Bounds := New_Range;
end Restrict;
procedure Restrict
(S : in out Slice; First : in Positive; Last : in Natural) is
begin
Restrict (S, To_Range (First, Last));
end Restrict;
procedure Set_First (S : in out Slice; New_First : in Positive) is
begin
if New_First < S.Bounds.First then
raise Constraint_Error with "New_First out of slice range";
end if;
Set_First (S.Bounds, New_First);
end Set_First;
procedure Set_Last (S : in out Slice; New_Last : in Natural) is
begin
if New_Last > Last (S.Bounds) then
raise Constraint_Error with "New_Last out of slice range";
end if;
Set_Last (S.Bounds, New_Last);
end Set_Last;
procedure Set_Length (S : in out Slice; New_Length : in Natural) is
begin
if New_Length > S.Bounds.Length then
raise Constraint_Error with "New_Length out of slice range";
end if;
S.Bounds.Length := New_Length;
end Set_Length;
----------------------
-- Slice comparison --
----------------------
function Is_Empty (S : Slice) return Boolean is
begin
return S.Bounds.Length = 0 or else S.Ref.Is_Empty;
end Is_Empty;
function Is_Null (S : Slice) return Boolean is
begin
return S.Ref.Is_Empty;
end Is_Null;
function Is_Related (Left, Right : Slice) return Boolean is
begin
return Left.Ref = Right.Ref;
end Is_Related;
function Is_Subslice (S, Reference : Slice) return Boolean is
begin
return S.Ref = Reference.Ref
and then Is_Subrange (S.Bounds, Reference.Bounds);
end Is_Subslice;
------------------
-- Constructors --
------------------
function Duplicate (S : Slice) return Slice is
function Factory return String;
function Factory return String is
begin
return S.Ref.Query.Data.all;
end Factory;
begin
if S.Bounds.Length = 0 or else S.Ref.Is_Empty then
return Null_Slice;
else
return Slice'(Bounds => S.Bounds,
Ref => String_Refs.Create (Factory'Access));
end if;
end Duplicate;
end Natools.String_Slices;