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-- CXA4022.A
--
-- Grant of Unlimited Rights
--
-- Under contracts F33600-87-D-0337, F33600-84-D-0280, MDA903-79-C-0687,
-- F08630-91-C-0015, and DCA100-97-D-0025, the U.S. Government obtained
-- unlimited rights in the software and documentation contained herein.
-- Unlimited rights are defined in DFAR 252.227-7013(a)(19). By making
-- this public release, the Government intends to confer upon all
-- recipients unlimited rights equal to those held by the Government.
-- These rights include rights to use, duplicate, release or disclose the
-- released technical data and computer software in whole or in part, in
-- any manner and for any purpose whatsoever, and to have or permit others
-- to do so.
--
-- DISCLAIMER
--
-- ALL MATERIALS OR INFORMATION HEREIN RELEASED, MADE AVAILABLE OR
-- DISCLOSED ARE AS IS. THE GOVERNMENT MAKES NO EXPRESS OR IMPLIED
-- WARRANTY AS TO ANY MATTER WHATSOEVER, INCLUDING THE CONDITIONS OF THE
-- SOFTWARE, DOCUMENTATION OR OTHER INFORMATION RELEASED, MADE AVAILABLE
-- OR DISCLOSED, OR THE OWNERSHIP, MERCHANTABILITY, OR FITNESS FOR A
-- PARTICULAR PURPOSE OF SAID MATERIAL.
--*
--
-- OBJECTIVE:
-- Check that the subprograms defined in package
-- Ada.Strings.Wide_Unbounded are available, and that they produce
-- correct results. Specifically, check the subprograms Count, Element,
-- Index, Replace_Element, To_Unbounded_Wide_String, and "&", ">", "<".
--
-- TEST DESCRIPTION:
-- This test demonstrates the uses of many of the subprograms defined
-- in package Ada.Strings.Wide_Unbounded for use with unbounded wide
-- strings. The test simulates how unbounded wide strings
-- will be processed in a user environment, using the subprograms
-- provided in this package.
--
-- Taken in conjunction with tests CXA4021 and CXA4023, this test will
-- constitute a test of the functionality contained in package
-- Ada.Strings.Wide Unbounded. This test uses a variety
-- of the subprograms defined in the unbounded wide string package
-- in ways typical of common usage, with different combinations of
-- available subprograms being used to accomplish similar
-- unbounded wide string processing goals.
--
--
-- CHANGE HISTORY:
-- 06 Dec 94 SAIC ACVC 2.0
-- 08 Nov 95 SAIC Corrected accessibility level, type visibility,
-- and subtest acceptance criteria problems for
-- ACVC 2.0.1
--
--!
with Ada.Characters.Handling;
with Ada.Strings;
package CXA40220 is
-- The following two functions are used to translate character and string
-- values to "Wide" values. They will be applied to all the Wide_Bounded
-- subprogram character and string parameters to simulate the use of non-
-- character Wide_Characters and Wide_Strings in actual practice.
-- Note: These functions do not actually return "equivalent" wide
-- characters to their character inputs, just "non-character"
-- wide characters.
function Equiv (Ch : Character) return Wide_Character;
function Equiv (Str : String) return Wide_String;
-- Functions and access-to-subprogram value used to supply mapping
-- capability to the appropriate versions of Count, Index, and
-- Translate.
function AB_to_US_Mapping_Function (From : Wide_Character)
return Wide_Character;
function AB_to_Blank_Mapping_Function (From : Wide_Character)
return Wide_Character;
end CXA40220;
package body CXA40220 is
function Equiv (Ch : Character) return Wide_Character is
C : Character := Ch;
begin
if Ch = ' ' then
return Ada.Characters.Handling.To_Wide_Character(C);
else
return Wide_Character'Val(Character'Pos(Ch) +
Character'Pos(Character'Last) + 1);
end if;
end Equiv;
function Equiv (Str : String) return Wide_String is
WS : Wide_String(Str'First..Str'Last);
begin
for i in Str'First..Str'Last loop
WS(i) := Equiv(Str(i));
end loop;
return WS;
end Equiv;
function AB_to_US_Mapping_Function (From : Wide_Character)
return Wide_Character is
UnderScore : constant Wide_Character := Equiv('_');
begin
if From = Equiv('a') or From = Equiv('b') then
return UnderScore;
else
return From;
end if;
end AB_to_US_Mapping_Function;
function AB_to_Blank_Mapping_Function (From : Wide_Character)
return Wide_Character is
begin
if From = Equiv('a') or From = Equiv('b') then
return Ada.Strings.Wide_Space;
else
return From;
end if;
end AB_to_Blank_Mapping_Function;
end CXA40220;
with CXA40220;
with Report;
with Ada.Characters.Handling;
with Ada.Strings.Wide_Maps;
with Ada.Strings.Wide_Unbounded;
procedure CXA4022 is
begin
Report.Test ("CXA4022", "Check that the subprograms defined in " &
"package Ada.Strings.Wide_Unbounded are " &
"available, and that they produce correct " &
"results");
Test_Block:
declare
use CXA40220;
package ASW renames Ada.Strings.Wide_Unbounded;
use Ada.Strings;
use type Wide_Maps.Wide_Character_Set;
use type ASW.Unbounded_Wide_String;
Test_String : ASW.Unbounded_Wide_String;
AtoE_Str : ASW.Unbounded_Wide_String :=
ASW.To_Unbounded_Wide_String(Equiv("abcde"));
Complete_String : ASW.Unbounded_Wide_String :=
ASW."&"(ASW.To_Unbounded_Wide_String(Equiv("Incomplete")),
ASW."&"(Ada.Strings.Wide_Space,
ASW.To_Unbounded_Wide_String(Equiv("String"))));
Incomplete_String : ASW.Unbounded_Wide_String :=
ASW.To_Unbounded_Wide_String
(Equiv("ncomplete Strin"));
Incorrect_Spelling : ASW.Unbounded_Wide_String :=
ASW.To_Unbounded_Wide_String(Equiv("Guob Dai"));
Magic_String : ASW.Unbounded_Wide_String :=
ASW.To_Unbounded_Wide_String(Equiv("abracadabra"));
Incantation : ASW.Unbounded_Wide_String := Magic_String;
A_Small_G : Wide_Character := Equiv('g');
A_Small_D : Wide_Character := Equiv('d');
ABCD_Set : Wide_Maps.Wide_Character_Set :=
Wide_Maps.To_Set(Equiv("abcd"));
B_Set : Wide_Maps.Wide_Character_Set :=
Wide_Maps.To_Set(Equiv('b'));
CD_Set : Wide_Maps.Wide_Character_Set :=
Wide_Maps.To_Set(Equiv("cd"));
CD_to_XY_Map : Wide_Maps.Wide_Character_Mapping :=
Wide_Maps.To_Mapping(From => Equiv("cd"),
To => Equiv("xy"));
AB_to_YZ_Map : Wide_Maps.Wide_Character_Mapping :=
Wide_Maps.To_Mapping(Equiv("ab"), Equiv("yz"));
Matching_Letters : Natural := 0;
Location,
Total_Count : Natural := 0;
Map_Ptr : Wide_Maps.Wide_Character_Mapping_Function :=
AB_to_US_Mapping_Function'Access;
begin
-- Function "&"
-- Prepend an 'I' and append a 'g' to the wide string.
Incomplete_String := ASW."&"(Equiv('I'),
Incomplete_String); -- Ch & W Unb
Incomplete_String := ASW."&"(Incomplete_String,
A_Small_G); -- W Unb & Ch
if ASW."<"(Incomplete_String, Complete_String) or
ASW.">"(Incomplete_String, Complete_String) or
Incomplete_String /= Complete_String
then
Report.Failed("Incorrect result from use of ""&"" operator");
end if;
-- Function Element
-- Last element of the unbounded wide string should be a 'g'.
if ASW.Element(Incomplete_String, ASW.Length(Incomplete_String)) /=
A_Small_G
then
Report.Failed("Incorrect result from use of Function Element - 1");
end if;
if ASW.Element(Incomplete_String, 2) /=
ASW.Element(ASW.Tail(Incomplete_String, 2), 1) or
ASW.Element(ASW.Head(Incomplete_String, 4), 2) /=
ASW.Element(ASW.To_Unbounded_Wide_String(Equiv("wnqz")), 2)
then
Report.Failed("Incorrect result from use of Function Element - 2");
end if;
-- Procedure Replace_Element
-- The unbounded wide string Incorrect_Spelling starts as "Guob Dai",
-- and is transformed by the following three procedure calls to
-- "Good Day".
ASW.Replace_Element(Incorrect_Spelling, 2, Equiv('o'));
ASW.Replace_Element(Incorrect_Spelling,
ASW.Index(Incorrect_Spelling, B_Set),
A_Small_D);
ASW.Replace_Element(Source => Incorrect_Spelling,
Index => ASW.Length(Incorrect_Spelling),
By => Equiv('y'));
if Incorrect_Spelling /=
ASW.To_Unbounded_Wide_String(Equiv("Good Day"))
then
Report.Failed("Incorrect result from Procedure Replace_Element");
end if;
-- Function Index with non-Identity map.
-- Evaluate the function Index with a non-identity map
-- parameter which will cause mapping of the source parameter
-- prior to the evaluation of the index position search.
Location := ASW.Index(Source => ASW.To_Unbounded_Wide_String
(Equiv("abcdefghij")),
Pattern => Equiv("xy"),
Going => Ada.Strings.Forward,
Mapping => CD_to_XY_Map); -- change "cd" to "xy"
if Location /= 3 then
Report.Failed("Incorrect result from Index, non-Identity map - 1");
end if;
Location := ASW.Index(ASW.To_Unbounded_Wide_String(Equiv("abcdabcdab")),
Equiv("yz"),
Ada.Strings.Backward,
AB_to_YZ_Map); -- change all "ab" to "yz"
if Location /= 9 then
Report.Failed("Incorrect result from Index, non-Identity map - 2");
end if;
-- A couple with identity maps (default) as well.
if ASW.Index(ASW.To_Unbounded_Wide_String(Equiv("abcd")), -- Pat = Src
Equiv("abcd")) /= 1 or
ASW.Index(ASW.To_Unbounded_Wide_String(Equiv("abc")), -- Pat < Src
Equiv("abcd")) /= 0 or
ASW.Index(ASW.Null_Unbounded_Wide_String, -- Src = Null
Equiv("abc")) /= 0
then
Report.Failed
("Incorrect result from Index with wide string patterns");
end if;
-- Function Index (for Sets).
-- This version of Index uses Sets as the basis of the search.
-- Test = Inside, Going = Forward (Default case).
Location :=
ASW.Index(Source => ASW.To_Unbounded_Wide_String(Equiv("abcdeabcde")),
Set => CD_Set); -- set containing 'c' and 'd'
if not (Location = 3) then -- position of first 'c' in source.
Report.Failed("Incorrect result from Index using Sets - 1");
end if;
-- Test = Inside, Going = Backward.
Location :=
ASW.Index(Source => ASW."&"(AtoE_Str, AtoE_Str),
Set => CD_Set, -- set containing 'c' and 'd'
Test => Ada.Strings.Inside,
Going => Ada.Strings.Backward);
if not (Location = 9) then -- position of last 'd' in source.
Report.Failed("Incorrect result from Index using Sets - 2");
end if;
-- Test = Outside, Going = Forward, Backward
if ASW.Index(ASW.To_Unbounded_Wide_String(Equiv("deddacd")),
Wide_Maps.To_Set(Equiv("xydcgf")),
Test => Ada.Strings.Outside,
Going => Ada.Strings.Forward) /= 2 or
ASW.Index(ASW.To_Unbounded_Wide_String(Equiv("deddacd")),
Wide_Maps.To_Set(Equiv("xydcgf")),
Test => Ada.Strings.Outside,
Going => Ada.Strings.Backward) /= 5 or
ASW.Index(ASW.To_Unbounded_Wide_String(Equiv("deddacd")),
CD_Set,
Ada.Strings.Outside,
Ada.Strings.Backward) /= 5
then
Report.Failed("Incorrect result from Index using Sets - 3");
end if;
-- Default direction (forward) and mapping (identity).
if ASW.Index(ASW.To_Unbounded_Wide_String(Equiv("cd")), -- Source = Set
CD_Set) /= 1 or
ASW.Index(ASW.To_Unbounded_Wide_String(Equiv("c")), -- Source < Set
CD_Set) /= 1 or
ASW.Index(ASW.Null_Unbounded_Wide_String, -- Source = Null
CD_Set) /= 0 or
ASW.Index(AtoE_Str,
Wide_Maps.Null_Set) /= 0 or -- Null set
ASW.Index(AtoE_Str,
Wide_Maps.To_Set(Equiv('x'))) /= 0 -- No match.
then
Report.Failed("Incorrect result from Index using Sets - 4");
end if;
-- Function Index using access-to-subprogram mapping.
-- Evaluate the function Index with an access value that supplies the
-- mapping function for this version of Index.
Map_Ptr := AB_to_US_Mapping_Function'Access;
Location := ASW.Index(Source => ASW.To_Unbounded_Wide_String
(Equiv("xAxabbxax xaax _cx")),
Pattern => Equiv("_x"),
Going => Ada.Strings.Forward,
Mapping => Map_Ptr); -- change 'a'or 'b' to '_'
if Location /= 6 then -- location of "bx" substring
Report.Failed("Incorrect result from Index, access value map - 1");
end if;
Map_Ptr := AB_to_Blank_Mapping_Function'Access;
Location := ASW.Index(ASW.To_Unbounded_Wide_String
(Equiv("ccacdcbbcdacc")),
Equiv("cd "),
Ada.Strings.Backward,
Map_Ptr); -- change 'a' or 'b' to ' '
if Location /= 9 then
Report.Failed("Incorrect result from Index, access value map - 2");
end if;
if ASW.Index(ASW.To_Unbounded_Wide_String(Equiv("abcd")),
Equiv(" cd"),
Ada.Strings.Forward,
Map_Ptr) /= 1 or
ASW.Index(ASW.To_Unbounded_Wide_String(Equiv("abc")),
Equiv(" c "), -- No match
Ada.Strings.Backward,
Map_Ptr) /= 0
then
Report.Failed("Incorrect result from Index, access value map - 3");
end if;
-- Function Count
-- Determine the number of characters in the unbounded wide string that
-- are contained in the set.
Matching_Letters := ASW.Count(Source => Magic_String,
Set => ABCD_Set);
if Matching_Letters /= 9 then
Report.Failed
("Incorrect result from Function Count with Set parameter");
end if;
-- Determine the number of occurrences of the following pattern wide
-- strings in the unbounded wide string Magic_String.
if ASW.Count(Magic_String, Equiv("ab")) /=
(ASW.Count(Magic_String, Equiv("ac")) +
ASW.Count(Magic_String, Equiv("ad"))) or
ASW.Count(Magic_String, Equiv("ab")) /= 2
then
Report.Failed
("Incorrect result from Function Count, wide string parameter");
end if;
-- Function Count with non-Identity mapping.
-- Evaluate the function Count with a non-identity map
-- parameter which will cause mapping of the source parameter
-- prior to the evaluation of the number of matching patterns.
Total_Count :=
ASW.Count(ASW.To_Unbounded_Wide_String(Equiv("abbabbabbabba")),
Pattern => Equiv("yz"),
Mapping => AB_to_YZ_Map);
if Total_Count /= 4 then
Report.Failed
("Incorrect result from function Count, non-Identity map - 1");
end if;
if ASW.Count(ASW.To_Unbounded_Wide_String(Equiv("ADCBADABCD")),
Equiv("AB"),
Wide_Maps.To_Mapping(Equiv("CD"), Equiv("AB"))) /= 5 or
ASW.Count(ASW.To_Unbounded_Wide_String(Equiv("dcccddcdccdddccccd")),
Equiv("xxy"),
CD_to_XY_Map) /= 3
then
Report.Failed
("Incorrect result from function Count, non-Identity map - 2");
end if;
-- And a few with identity Wide_Maps as well.
if ASW.Count(ASW.To_Unbounded_Wide_String(Equiv("ABABABABAB")),
Equiv("ABA"),
Wide_Maps.Identity) /= 2 or
ASW.Count(ASW.To_Unbounded_Wide_String(Equiv("aaaaaaaaaa")),
Equiv("aaa")) /= 3 or
ASW.Count(ASW.To_Unbounded_Wide_String(Equiv("XX")), -- Src < Pat
Equiv("XXX"),
Wide_Maps.Identity) /= 0 or
ASW.Count(AtoE_Str, -- Source = Pattern
Equiv("abcde")) /= 1 or
ASW.Count(ASW.Null_Unbounded_Wide_String, -- Source = Null
Equiv(" ")) /= 0
then
Report.Failed
("Incorrect result from function Count, w,w/o mapping");
end if;
-- Function Count using access-to-subprogram mapping.
-- Evaluate the function Count with an access value specifying the
-- mapping that is going to occur to Source.
Map_Ptr := AB_to_US_Mapping_Function'Access;
Total_Count :=
ASW.Count(ASW.To_Unbounded_Wide_String(Equiv("abcbacbadbaAbbB")),
Pattern => Equiv("__"),
Mapping => Map_Ptr); -- change 'a' and 'b' to '_'
if Total_Count /= 5 then
Report.Failed
("Incorrect result from function Count, access value map - 1");
end if;
Map_Ptr := AB_to_Blank_Mapping_Function'Access;
if ASW.Count(ASW.To_Unbounded_Wide_String(Equiv("cccaccBcbcaccacAc")),
Equiv("c c"),
Map_Ptr) /= 3 or
ASW.Count(ASW.To_Unbounded_Wide_String
(Equiv("aBBAAABaBBBBAaBABBABaBBbBB")),
Equiv(" BB"),
Map_Ptr) /= 4 or
ASW.Count(ASW.To_Unbounded_Wide_String(Equiv("aaaaaaaaaa")),
Equiv(" "),
Map_Ptr) /= 3 or
ASW.Count(ASW.To_Unbounded_Wide_String(Equiv("XX")), -- Src < Pat
Equiv("XX "),
Map_Ptr) /= 0 or
ASW.Count(AtoE_Str, -- Source'Length = Pattern'Length
Equiv(" cde"),
Map_Ptr) /= 1
then
Report.Failed
("Incorrect result from function Count, access value map - 3");
end if;
exception
when others => Report.Failed ("Exception raised in Test_Block");
end Test_Block;
Report.Result;
end CXA4022;