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|
------------------------------------------------------------------------------
-- --
-- GNAT RUNTIME COMPONENTS --
-- --
-- A D A . S T R I N G S . W I D E _ F I X E D --
-- --
-- B o d y --
-- --
-- Copyright (C) 1992-2005 Free Software Foundation, Inc. --
-- --
-- GNAT is free software; you can redistribute it and/or modify it under --
-- terms of the GNU General Public License as published by the Free Soft- --
-- ware Foundation; either version 2, or (at your option) any later ver- --
-- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
-- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
-- or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License --
-- for more details. You should have received a copy of the GNU General --
-- Public License distributed with GNAT; see file COPYING. If not, write --
-- to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, --
-- MA 02111-1307, USA. --
-- --
-- As a special exception, if other files instantiate generics from this --
-- unit, or you link this unit with other files to produce an executable, --
-- this unit does not by itself cause the resulting executable to be --
-- covered by the GNU General Public License. This exception does not --
-- however invalidate any other reasons why the executable file might be --
-- covered by the GNU Public License. --
-- --
-- GNAT was originally developed by the GNAT team at New York University. --
-- Extensive contributions were provided by Ada Core Technologies Inc. --
-- --
------------------------------------------------------------------------------
with Ada.Strings.Wide_Maps; use Ada.Strings.Wide_Maps;
with Ada.Strings.Wide_Search;
package body Ada.Strings.Wide_Fixed is
------------------------
-- Search Subprograms --
------------------------
function Index
(Source : Wide_String;
Pattern : Wide_String;
Going : Direction := Forward;
Mapping : Wide_Maps.Wide_Character_Mapping := Wide_Maps.Identity)
return Natural
renames Ada.Strings.Wide_Search.Index;
function Index
(Source : Wide_String;
Pattern : Wide_String;
Going : Direction := Forward;
Mapping : Wide_Maps.Wide_Character_Mapping_Function) return Natural
renames Ada.Strings.Wide_Search.Index;
function Index
(Source : Wide_String;
Set : Wide_Maps.Wide_Character_Set;
Test : Membership := Inside;
Going : Direction := Forward) return Natural
renames Ada.Strings.Wide_Search.Index;
function Index
(Source : Wide_String;
Pattern : Wide_String;
From : Positive;
Going : Direction := Forward;
Mapping : Wide_Maps.Wide_Character_Mapping := Wide_Maps.Identity)
return Natural
renames Ada.Strings.Wide_Search.Index;
function Index
(Source : Wide_String;
Pattern : Wide_String;
From : Positive;
Going : Direction := Forward;
Mapping : Wide_Maps.Wide_Character_Mapping_Function) return Natural
renames Ada.Strings.Wide_Search.Index;
function Index
(Source : Wide_String;
Set : Wide_Maps.Wide_Character_Set;
From : Positive;
Test : Membership := Inside;
Going : Direction := Forward) return Natural
renames Ada.Strings.Wide_Search.Index;
function Index_Non_Blank
(Source : Wide_String;
Going : Direction := Forward) return Natural
renames Ada.Strings.Wide_Search.Index_Non_Blank;
function Index_Non_Blank
(Source : Wide_String;
From : Positive;
Going : Direction := Forward) return Natural
renames Ada.Strings.Wide_Search.Index_Non_Blank;
function Count
(Source : Wide_String;
Pattern : Wide_String;
Mapping : Wide_Maps.Wide_Character_Mapping := Wide_Maps.Identity)
return Natural
renames Ada.Strings.Wide_Search.Count;
function Count
(Source : Wide_String;
Pattern : Wide_String;
Mapping : Wide_Maps.Wide_Character_Mapping_Function) return Natural
renames Ada.Strings.Wide_Search.Count;
function Count
(Source : Wide_String;
Set : Wide_Maps.Wide_Character_Set) return Natural
renames Ada.Strings.Wide_Search.Count;
procedure Find_Token
(Source : Wide_String;
Set : Wide_Maps.Wide_Character_Set;
Test : Membership;
First : out Positive;
Last : out Natural)
renames Ada.Strings.Wide_Search.Find_Token;
---------
-- "*" --
---------
function "*"
(Left : Natural;
Right : Wide_Character) return Wide_String
is
Result : Wide_String (1 .. Left);
begin
for J in Result'Range loop
Result (J) := Right;
end loop;
return Result;
end "*";
function "*"
(Left : Natural;
Right : Wide_String) return Wide_String
is
Result : Wide_String (1 .. Left * Right'Length);
Ptr : Integer := 1;
begin
for J in 1 .. Left loop
Result (Ptr .. Ptr + Right'Length - 1) := Right;
Ptr := Ptr + Right'Length;
end loop;
return Result;
end "*";
------------
-- Delete --
------------
function Delete
(Source : Wide_String;
From : Positive;
Through : Natural) return Wide_String
is
begin
if From not in Source'Range
or else Through > Source'Last
then
raise Index_Error;
elsif From > Through then
return Source;
else
declare
Len : constant Integer := Source'Length - (Through - From + 1);
Result : constant
Wide_String (Source'First .. Source'First + Len - 1) :=
Source (Source'First .. From - 1) &
Source (Through + 1 .. Source'Last);
begin
return Result;
end;
end if;
end Delete;
procedure Delete
(Source : in out Wide_String;
From : Positive;
Through : Natural;
Justify : Alignment := Left;
Pad : Wide_Character := Wide_Space)
is
begin
Move (Source => Delete (Source, From, Through),
Target => Source,
Justify => Justify,
Pad => Pad);
end Delete;
----------
-- Head --
----------
function Head
(Source : Wide_String;
Count : Natural;
Pad : Wide_Character := Wide_Space) return Wide_String
is
Result : Wide_String (1 .. Count);
begin
if Count <= Source'Length then
Result := Source (Source'First .. Source'First + Count - 1);
else
Result (1 .. Source'Length) := Source;
for J in Source'Length + 1 .. Count loop
Result (J) := Pad;
end loop;
end if;
return Result;
end Head;
procedure Head
(Source : in out Wide_String;
Count : Natural;
Justify : Alignment := Left;
Pad : Wide_Character := Ada.Strings.Wide_Space)
is
begin
Move (Source => Head (Source, Count, Pad),
Target => Source,
Drop => Error,
Justify => Justify,
Pad => Pad);
end Head;
------------
-- Insert --
------------
function Insert
(Source : Wide_String;
Before : Positive;
New_Item : Wide_String) return Wide_String
is
Result : Wide_String (1 .. Source'Length + New_Item'Length);
begin
if Before < Source'First or else Before > Source'Last + 1 then
raise Index_Error;
end if;
Result := Source (Source'First .. Before - 1) & New_Item &
Source (Before .. Source'Last);
return Result;
end Insert;
procedure Insert
(Source : in out Wide_String;
Before : Positive;
New_Item : Wide_String;
Drop : Truncation := Error)
is
begin
Move (Source => Insert (Source, Before, New_Item),
Target => Source,
Drop => Drop);
end Insert;
----------
-- Move --
----------
procedure Move
(Source : Wide_String;
Target : out Wide_String;
Drop : Truncation := Error;
Justify : Alignment := Left;
Pad : Wide_Character := Wide_Space)
is
Sfirst : constant Integer := Source'First;
Slast : constant Integer := Source'Last;
Slength : constant Integer := Source'Length;
Tfirst : constant Integer := Target'First;
Tlast : constant Integer := Target'Last;
Tlength : constant Integer := Target'Length;
function Is_Padding (Item : Wide_String) return Boolean;
-- Determinbe if all characters in Item are pad characters
function Is_Padding (Item : Wide_String) return Boolean is
begin
for J in Item'Range loop
if Item (J) /= Pad then
return False;
end if;
end loop;
return True;
end Is_Padding;
-- Start of processing for Move
begin
if Slength = Tlength then
Target := Source;
elsif Slength > Tlength then
case Drop is
when Left =>
Target := Source (Slast - Tlength + 1 .. Slast);
when Right =>
Target := Source (Sfirst .. Sfirst + Tlength - 1);
when Error =>
case Justify is
when Left =>
if Is_Padding (Source (Sfirst + Tlength .. Slast)) then
Target :=
Source (Sfirst .. Sfirst + Target'Length - 1);
else
raise Length_Error;
end if;
when Right =>
if Is_Padding (Source (Sfirst .. Slast - Tlength)) then
Target := Source (Slast - Tlength + 1 .. Slast);
else
raise Length_Error;
end if;
when Center =>
raise Length_Error;
end case;
end case;
-- Source'Length < Target'Length
else
case Justify is
when Left =>
Target (Tfirst .. Tfirst + Slength - 1) := Source;
for J in Tfirst + Slength .. Tlast loop
Target (J) := Pad;
end loop;
when Right =>
for J in Tfirst .. Tlast - Slength loop
Target (J) := Pad;
end loop;
Target (Tlast - Slength + 1 .. Tlast) := Source;
when Center =>
declare
Front_Pad : constant Integer := (Tlength - Slength) / 2;
Tfirst_Fpad : constant Integer := Tfirst + Front_Pad;
begin
for J in Tfirst .. Tfirst_Fpad - 1 loop
Target (J) := Pad;
end loop;
Target (Tfirst_Fpad .. Tfirst_Fpad + Slength - 1) := Source;
for J in Tfirst_Fpad + Slength .. Tlast loop
Target (J) := Pad;
end loop;
end;
end case;
end if;
end Move;
---------------
-- Overwrite --
---------------
function Overwrite
(Source : Wide_String;
Position : Positive;
New_Item : Wide_String) return Wide_String
is
begin
if Position not in Source'First .. Source'Last + 1 then
raise Index_Error;
else
declare
Result_Length : constant Natural :=
Natural'Max
(Source'Length,
Position - Source'First + New_Item'Length);
Result : Wide_String (1 .. Result_Length);
begin
Result := Source (Source'First .. Position - 1) & New_Item &
Source (Position + New_Item'Length .. Source'Last);
return Result;
end;
end if;
end Overwrite;
procedure Overwrite
(Source : in out Wide_String;
Position : Positive;
New_Item : Wide_String;
Drop : Truncation := Right)
is
begin
Move (Source => Overwrite (Source, Position, New_Item),
Target => Source,
Drop => Drop);
end Overwrite;
-------------------
-- Replace_Slice --
-------------------
function Replace_Slice
(Source : Wide_String;
Low : Positive;
High : Natural;
By : Wide_String) return Wide_String
is
Result_Length : Natural;
begin
if Low > Source'Last + 1 or else High < Source'First - 1 then
raise Index_Error;
else
Result_Length :=
Source'Length - Natural'Max (High - Low + 1, 0) + By'Length;
declare
Result : Wide_String (1 .. Result_Length);
begin
if High >= Low then
Result :=
Source (Source'First .. Low - 1) & By &
Source (High + 1 .. Source'Last);
else
Result := Source (Source'First .. Low - 1) & By &
Source (Low .. Source'Last);
end if;
return Result;
end;
end if;
end Replace_Slice;
procedure Replace_Slice
(Source : in out Wide_String;
Low : Positive;
High : Natural;
By : Wide_String;
Drop : Truncation := Error;
Justify : Alignment := Left;
Pad : Wide_Character := Wide_Space)
is
begin
Move (Replace_Slice (Source, Low, High, By), Source, Drop, Justify, Pad);
end Replace_Slice;
----------
-- Tail --
----------
function Tail
(Source : Wide_String;
Count : Natural;
Pad : Wide_Character := Wide_Space) return Wide_String
is
Result : Wide_String (1 .. Count);
begin
if Count < Source'Length then
Result := Source (Source'Last - Count + 1 .. Source'Last);
-- Pad on left
else
for J in 1 .. Count - Source'Length loop
Result (J) := Pad;
end loop;
Result (Count - Source'Length + 1 .. Count) := Source;
end if;
return Result;
end Tail;
procedure Tail
(Source : in out Wide_String;
Count : Natural;
Justify : Alignment := Left;
Pad : Wide_Character := Ada.Strings.Wide_Space)
is
begin
Move (Source => Tail (Source, Count, Pad),
Target => Source,
Drop => Error,
Justify => Justify,
Pad => Pad);
end Tail;
---------------
-- Translate --
---------------
function Translate
(Source : Wide_String;
Mapping : Wide_Maps.Wide_Character_Mapping) return Wide_String
is
Result : Wide_String (1 .. Source'Length);
begin
for J in Source'Range loop
Result (J - (Source'First - 1)) := Value (Mapping, Source (J));
end loop;
return Result;
end Translate;
procedure Translate
(Source : in out Wide_String;
Mapping : Wide_Maps.Wide_Character_Mapping)
is
begin
for J in Source'Range loop
Source (J) := Value (Mapping, Source (J));
end loop;
end Translate;
function Translate
(Source : Wide_String;
Mapping : Wide_Maps.Wide_Character_Mapping_Function) return Wide_String
is
Result : Wide_String (1 .. Source'Length);
begin
for J in Source'Range loop
Result (J - (Source'First - 1)) := Mapping (Source (J));
end loop;
return Result;
end Translate;
procedure Translate
(Source : in out Wide_String;
Mapping : Wide_Maps.Wide_Character_Mapping_Function)
is
begin
for J in Source'Range loop
Source (J) := Mapping (Source (J));
end loop;
end Translate;
----------
-- Trim --
----------
function Trim
(Source : Wide_String;
Side : Trim_End) return Wide_String
is
Low : Natural := Source'First;
High : Natural := Source'Last;
begin
if Side = Left or else Side = Both then
while Low <= High and then Source (Low) = Wide_Space loop
Low := Low + 1;
end loop;
end if;
if Side = Right or else Side = Both then
while High >= Low and then Source (High) = Wide_Space loop
High := High - 1;
end loop;
end if;
-- All blanks case
if Low > High then
return "";
-- At least one non-blank
else
declare
Result : constant Wide_String (1 .. High - Low + 1) :=
Source (Low .. High);
begin
return Result;
end;
end if;
end Trim;
procedure Trim
(Source : in out Wide_String;
Side : Trim_End;
Justify : Alignment := Left;
Pad : Wide_Character := Wide_Space)
is
begin
Move (Source => Trim (Source, Side),
Target => Source,
Justify => Justify,
Pad => Pad);
end Trim;
function Trim
(Source : Wide_String;
Left : Wide_Maps.Wide_Character_Set;
Right : Wide_Maps.Wide_Character_Set) return Wide_String
is
Low : Natural := Source'First;
High : Natural := Source'Last;
begin
while Low <= High and then Is_In (Source (Low), Left) loop
Low := Low + 1;
end loop;
while High >= Low and then Is_In (Source (High), Right) loop
High := High - 1;
end loop;
-- Case where source comprises only characters in the sets
if Low > High then
return "";
else
declare
subtype WS is Wide_String (1 .. High - Low + 1);
begin
return WS (Source (Low .. High));
end;
end if;
end Trim;
procedure Trim
(Source : in out Wide_String;
Left : Wide_Maps.Wide_Character_Set;
Right : Wide_Maps.Wide_Character_Set;
Justify : Alignment := Strings.Left;
Pad : Wide_Character := Wide_Space)
is
begin
Move (Source => Trim (Source, Left, Right),
Target => Source,
Justify => Justify,
Pad => Pad);
end Trim;
end Ada.Strings.Wide_Fixed;
|