with Ada.Strings.Wide_Maps; use Ada.Strings.Wide_Maps;
package body Ada.Strings.Wide_Search is
function Belongs
(Element : Wide_Character;
Set : Wide_Maps.Wide_Character_Set;
Test : Membership) return Boolean;
pragma Inline (Belongs);
function Belongs
(Element : Wide_Character;
Set : Wide_Maps.Wide_Character_Set;
Test : Membership) return Boolean
is
begin
if Test = Inside then
return Is_In (Element, Set);
else
return not Is_In (Element, Set);
end if;
end Belongs;
function Count
(Source : Wide_String;
Pattern : Wide_String;
Mapping : Wide_Maps.Wide_Character_Mapping := Wide_Maps.Identity)
return Natural
is
N : Natural;
J : Natural;
begin
if Pattern = "" then
raise Pattern_Error;
end if;
if Mapping /= Wide_Maps.Identity then
declare
Mapped_Source : Wide_String (Source'Range);
begin
for J in Source'Range loop
Mapped_Source (J) := Value (Mapping, Source (J));
end loop;
return Count (Mapped_Source, Pattern);
end;
end if;
N := 0;
J := Source'First;
while J <= Source'Last - (Pattern'Length - 1) loop
if Source (J .. J + (Pattern'Length - 1)) = Pattern then
N := N + 1;
J := J + Pattern'Length;
else
J := J + 1;
end if;
end loop;
return N;
end Count;
function Count
(Source : Wide_String;
Pattern : Wide_String;
Mapping : Wide_Maps.Wide_Character_Mapping_Function) return Natural
is
Mapped_Source : Wide_String (Source'Range);
begin
for J in Source'Range loop
Mapped_Source (J) := Mapping (Source (J));
end loop;
return Count (Mapped_Source, Pattern);
end Count;
function Count
(Source : in Wide_String;
Set : Wide_Maps.Wide_Character_Set) return Natural
is
N : Natural := 0;
begin
for J in Source'Range loop
if Is_In (Source (J), Set) then
N := N + 1;
end if;
end loop;
return N;
end Count;
procedure Find_Token
(Source : Wide_String;
Set : Wide_Maps.Wide_Character_Set;
Test : Membership;
First : out Positive;
Last : out Natural)
is
begin
for J in Source'Range loop
if Belongs (Source (J), Set, Test) then
First := J;
for K in J + 1 .. Source'Last loop
if not Belongs (Source (K), Set, Test) then
Last := K - 1;
return;
end if;
end loop;
Last := Source'Last;
return;
end if;
end loop;
First := Source'First;
Last := 0;
end Find_Token;
function Index
(Source : Wide_String;
Pattern : Wide_String;
Going : Direction := Forward;
Mapping : Wide_Maps.Wide_Character_Mapping := Wide_Maps.Identity)
return Natural
is
begin
if Pattern = "" then
raise Pattern_Error;
end if;
if Mapping /= Identity then
declare
Mapped_Source : Wide_String (Source'Range);
begin
for J in Source'Range loop
Mapped_Source (J) := Value (Mapping, Source (J));
end loop;
return Index (Mapped_Source, Pattern, Going);
end;
end if;
if Going = Forward then
for J in Source'First .. Source'Last - Pattern'Length + 1 loop
if Pattern = Source (J .. J + Pattern'Length - 1) then
return J;
end if;
end loop;
else for J in reverse Source'First .. Source'Last - Pattern'Length + 1 loop
if Pattern = Source (J .. J + Pattern'Length - 1) then
return J;
end if;
end loop;
end if;
return 0;
end Index;
function Index
(Source : Wide_String;
Pattern : Wide_String;
Going : Direction := Forward;
Mapping : Wide_Maps.Wide_Character_Mapping_Function) return Natural
is
Mapped_Source : Wide_String (Source'Range);
begin
for J in Source'Range loop
Mapped_Source (J) := Mapping (Source (J));
end loop;
return Index (Mapped_Source, Pattern, Going);
end Index;
function Index
(Source : Wide_String;
Set : Wide_Maps.Wide_Character_Set;
Test : Membership := Inside;
Going : Direction := Forward) return Natural
is
begin
if Going = Forward then
for J in Source'Range loop
if Belongs (Source (J), Set, Test) then
return J;
end if;
end loop;
else for J in reverse Source'Range loop
if Belongs (Source (J), Set, Test) then
return J;
end if;
end loop;
end if;
return 0;
end 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
is
begin
if Going = Forward then
if From < Source'First then
raise Index_Error;
end if;
return
Index (Source (From .. Source'Last), Pattern, Forward, Mapping);
else
if From > Source'Last then
raise Index_Error;
end if;
return
Index (Source (Source'First .. From), Pattern, Backward, Mapping);
end if;
end Index;
function Index
(Source : Wide_String;
Pattern : Wide_String;
From : Positive;
Going : Direction := Forward;
Mapping : Wide_Maps.Wide_Character_Mapping_Function) return Natural
is
begin
if Going = Forward then
if From < Source'First then
raise Index_Error;
end if;
return Index
(Source (From .. Source'Last), Pattern, Forward, Mapping);
else
if From > Source'Last then
raise Index_Error;
end if;
return Index
(Source (Source'First .. From), Pattern, Backward, Mapping);
end if;
end Index;
function Index
(Source : Wide_String;
Set : Wide_Maps.Wide_Character_Set;
From : Positive;
Test : Membership := Inside;
Going : Direction := Forward) return Natural
is
begin
if Going = Forward then
if From < Source'First then
raise Index_Error;
end if;
return
Index (Source (From .. Source'Last), Set, Test, Forward);
else
if From > Source'Last then
raise Index_Error;
end if;
return
Index (Source (Source'First .. From), Set, Test, Backward);
end if;
end Index;
function Index_Non_Blank
(Source : Wide_String;
Going : Direction := Forward) return Natural
is
begin
if Going = Forward then
for J in Source'Range loop
if Source (J) /= Wide_Space then
return J;
end if;
end loop;
else for J in reverse Source'Range loop
if Source (J) /= Wide_Space then
return J;
end if;
end loop;
end if;
return 0;
end Index_Non_Blank;
function Index_Non_Blank
(Source : Wide_String;
From : Positive;
Going : Direction := Forward) return Natural
is
begin
if Going = Forward then
if From < Source'First then
raise Index_Error;
end if;
return
Index_Non_Blank (Source (From .. Source'Last), Forward);
else
if From > Source'Last then
raise Index_Error;
end if;
return
Index_Non_Blank (Source (Source'First .. From), Backward);
end if;
end Index_Non_Blank;
end Ada.Strings.Wide_Search;