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-- CXA4023.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 Delete,
-- Find_Token, Translate, Trim, 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.
--
-- This test, when taken in conjunction with tests CXA4021-22, 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 and type
-- visibility problems for ACVC 2.0.1.
--
--!
with Ada.Characters.Handling;
with Ada.Strings;
package CXA40230 is
-- The following two functions are used to translate character and string
-- values to non-character "Wide" values. They will be applied to all the
-- Wide_Bounded subprogram character and string parameters to simulate the
-- use of 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 object used to supply mapping
-- capability to the appropriate versions of 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 CXA40230;
package body CXA40230 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 CXA40230;
with CXA40230;
with Report;
with Ada.Characters.Handling;
with Ada.Strings.Wide_Maps;
with Ada.Strings.Wide_Unbounded;
procedure CXA4023 is
begin
Report.Test ("CXA4023", "Check that the subprograms defined in " &
"package Ada.Strings.Wide_Unbounded are " &
"available, and that they produce correct " &
"results");
Test_Block:
declare
use CXA40230;
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"));
Cad_String : ASW.Unbounded_Wide_String :=
ASW.To_Unbounded_Wide_String(Equiv("cad"));
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');
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'));
AB_Set : Wide_Maps.Wide_Character_Set :=
Wide_Maps."OR"(Wide_Maps.To_Set(Equiv('a')), B_Set);
AB_to_YZ_Map : Wide_Maps.Wide_Character_Mapping :=
Wide_Maps.To_Mapping(From => Equiv("ab"),
To => Equiv("yz"));
Code_Map : Wide_Maps.Wide_Character_Mapping :=
Wide_Maps.To_Mapping(Equiv("abcd"), Equiv("wxyz"));
Reverse_Code_Map : Wide_Maps.Wide_Character_Mapping :=
Wide_Maps.To_Mapping(Equiv("wxyz"), Equiv("abcd"));
Non_Existent_Map : Wide_Maps.Wide_Character_Mapping :=
Wide_Maps.To_Mapping(Equiv("jkl"), Equiv("mno"));
Token_Start : Positive;
Token_End : Natural := 0;
Map_Ptr : Wide_Maps.Wide_Character_Mapping_Function :=
AB_to_US_Mapping_Function'Access;
begin
-- Find_Token
ASW.Find_Token(Magic_String, -- Find location of first "ab" equiv.
AB_Set, -- Should be (1..2).
Ada.Strings.Inside,
Token_Start,
Token_End);
if Natural(Token_Start) /= ASW.To_Wide_String(Magic_String)'First or
Token_End /= ASW.Index(Magic_String, B_Set) or
Token_End /= 2
then
Report.Failed("Incorrect result from Procedure Find_Token - 1");
end if;
ASW.Find_Token(Source => Magic_String, -- Find location of char 'r'equiv
Set => ABCD_Set, -- in wide str, should be (3..3)
Test => Ada.Strings.Outside,
First => Token_Start,
Last => Token_End);
if Natural(Token_Start) /= 3 or Token_End /= 3 then
Report.Failed("Incorrect result from Procedure Find_Token - 2");
end if;
ASW.Find_Token(Magic_String, -- No 'g' "equivalent in
Wide_Maps.To_Set(A_Small_G), -- the wide str, so the
Ada.Strings.Inside, -- result params should be
First => Token_Start, -- First = Source'First and
Last => Token_End); -- Last = 0.
if Token_Start /= ASW.To_Wide_String(Magic_String)'First or
Token_End /= 0
then
Report.Failed("Incorrect result from Procedure Find_Token - 3");
end if;
ASW.Find_Token(ASW.To_Unbounded_Wide_String(Equiv("abpqpqrttrcpqr")),
Wide_Maps.To_Set(Equiv("trpq")),
Ada.Strings.Inside,
Token_Start,
Token_End);
if Token_Start /= 3 or
Token_End /= 10
then
Report.Failed("Incorrect result from Procedure Find_Token - 4");
end if;
ASW.Find_Token(ASW.To_Unbounded_Wide_String(Equiv("abpqpqrttrcpqr")),
Wide_Maps.To_Set(Equiv("abpq")),
Ada.Strings.Outside,
Token_Start,
Token_End);
if Token_Start /= 7 or
Token_End /= 11
then
Report.Failed("Incorrect result from Procedure Find_Token - 5");
end if;
-- Translate
-- Use a mapping ("abcd" -> "wxyz") to transform the contents of
-- the unbounded wide string.
-- Magic_String = "abracadabra"
Incantation := ASW.Translate(Magic_String, Code_Map);
if Incantation /=
ASW.To_Unbounded_Wide_String(Equiv("wxrwywzwxrw"))
then
Report.Failed("Incorrect result from Function Translate - 1");
end if;
-- (Note: See below for additional testing of Function Translate)
-- Use the inverse mapping of the one above to return the "translated"
-- unbounded wide string to its original form.
ASW.Translate(Incantation, Reverse_Code_Map);
-- The map contained in the following call to Translate contains three
-- elements, and these elements are not found in the unbounded wide
-- string, so this call to Translate should have no effect on it.
if Incantation /= ASW.Translate(Magic_String, Non_Existent_Map) then
Report.Failed("Incorrect result from Procedure Translate - 1");
end if;
-- Partial mapping of source.
Test_String := ASW.To_Unbounded_Wide_String(Equiv("abcdeabcab"));
ASW.Translate(Source => Test_String, Mapping => AB_to_YZ_Map);
if Test_String /= ASW.To_Unbounded_Wide_String(Equiv("yzcdeyzcyz")) then
Report.Failed("Incorrect result from Procedure Translate - 2");
end if;
-- Total mapping of source.
Test_String := ASW.To_Unbounded_Wide_String(Equiv("abbaaababb"));
ASW.Translate(Source => Test_String, Mapping => AB_to_YZ_Map);
if Test_String /= ASW.To_Unbounded_Wide_String(Equiv("yzzyyyzyzz")) then
Report.Failed("Incorrect result from Procedure Translate - 3");
end if;
-- No mapping of source.
Test_String := ASW.To_Unbounded_Wide_String(Equiv("xyzsypcc"));
ASW.Translate(Source => Test_String, Mapping => AB_to_YZ_Map);
if Test_String /= ASW.To_Unbounded_Wide_String(Equiv("xyzsypcc")) then
Report.Failed("Incorrect result from Procedure Translate - 4");
end if;
-- Map > 2 characters, partial mapping.
Test_String := ASW.To_Unbounded_Wide_String(Equiv("opabcdelmn"));
ASW.Translate(Test_String,
Wide_Maps.To_Mapping(Equiv("abcde"), Equiv("lmnop")));
if Test_String /= ASW.To_Unbounded_Wide_String(Equiv("oplmnoplmn")) then
Report.Failed("Incorrect result from Procedure Translate - 5");
end if;
-- Various degrees of mapping of source (full, partial, none) used
-- with Function Translate.
if ASW.Translate(
ASW.To_Unbounded_Wide_String(Equiv("abcdeabcabbbaaacaa")),
AB_to_YZ_Map) /=
ASW.To_Unbounded_Wide_String(Equiv("yzcdeyzcyzzzyyycyy")) or
ASW.Translate(
ASW.To_Unbounded_Wide_String(Equiv("abbaaababbaaaaba")),
AB_to_YZ_Map) /=
ASW.To_Unbounded_Wide_String(Equiv("yzzyyyzyzzyyyyzy")) or
ASW.Translate(ASW.To_Unbounded_Wide_String(Equiv("cABcABBAc")),
Mapping => AB_to_YZ_Map) /=
ASW.To_Unbounded_Wide_String(Equiv("cABcABBAc")) or
ASW.Translate(ASW.To_Unbounded_Wide_String("opabcdelmnddeaccabec"),
Wide_Maps.To_Mapping("abcde", "lmnop")) /=
ASW.To_Unbounded_Wide_String("oplmnoplmnooplnnlmpn")
then
Report.Failed("Incorrect result from Function Translate - 2");
end if;
-- Procedure Translate using access-to-subprogram mapping.
-- Partial mapping of source.
Map_Ptr := AB_to_Blank_Mapping_Function'Access;
Test_String := ASW.To_Unbounded_Wide_String(Equiv("abABaABbaBAbba"));
ASW.Translate(Source => Test_String, -- change equivalent of 'a' and
Mapping => Map_Ptr); -- 'b' to ' '
if Test_String /=
ASW.To_Unbounded_Wide_String(Equiv(" AB AB BA "))
then
Report.Failed
("Incorrect result from Proc Translate, w/ access value map - 1");
end if;
-- Total mapping of source to blanks.
Test_String := ASW.To_Unbounded_Wide_String(Equiv("abbbab"));
ASW.Translate(Source => Test_String,
Mapping => Map_Ptr);
if Test_String /=
ASW.To_Unbounded_Wide_String(Equiv(" "))
then
Report.Failed
("Incorrect result from Proc Translate, w/ access value map - 2");
end if;
-- No mapping of source.
Map_Ptr := AB_to_US_Mapping_Function'Access;
Test_String := ASW.To_Unbounded_Wide_String(Equiv("xyzsypcc"));
ASW.Translate(Source => Test_String,
Mapping => Map_Ptr);
if Test_String /=
ASW.To_Unbounded_Wide_String(Equiv("xyzsypcc")) -- no change
then
Report.Failed
("Incorrect result from Proc Translate, w/ access value map - 3");
end if;
-- Function Translate using access-to-subprogram mapping value.
Map_Ptr := AB_to_Blank_Mapping_Function'Access;
Test_String := ASW.To_Unbounded_Wide_String(Equiv("abAbBBAabbacD"));
if ASW.Translate(ASW.Translate(Test_String, Map_Ptr), Map_Ptr) /=
ASW.To_Unbounded_Wide_String(Equiv(" A BBA cD"))
then
Report.Failed
("Incorrect result from Function Translate, access value map - 1");
end if;
if ASW.Translate(Source => ASW.To_Unbounded_Wide_String(Equiv("a")),
Mapping => Map_Ptr) /=
ASW.To_Unbounded_Wide_String(Equiv(" ")) or
ASW.Translate(ASW.To_Unbounded_Wide_String
(Equiv(" aa Aa A AAaaa a aA")),
Map_Ptr) /=
ASW.To_Unbounded_Wide_String(Equiv(" A A AA A")) or
ASW.Translate(Source => ASW.To_Unbounded_Wide_String(Equiv("a ")),
Mapping => Map_Ptr) /=
ASW.To_Unbounded_Wide_String(Equiv(" ")) or
ASW.Translate(Source => ASW.To_Unbounded_Wide_String(Equiv("xyz")),
Mapping => Map_Ptr) /=
ASW.To_Unbounded_Wide_String(Equiv("xyz"))
then
Report.Failed
("Incorrect result from Function Translate, access value map - 2");
end if;
-- Trim
Trim_Block:
declare
XYZ_Set : Wide_Maps.Wide_Character_Set :=
Wide_Maps.To_Set(Equiv("xyz"));
PQR_Set : Wide_Maps.Wide_Character_Set :=
Wide_Maps.To_Set(Equiv("pqr"));
Pad : constant ASW.Unbounded_Wide_String :=
ASW.To_Unbounded_Wide_String(Equiv("Pad"));
The_New_Ada : constant ASW.Unbounded_Wide_String :=
ASW.To_Unbounded_Wide_String(Equiv("Ada9X"));
Space_Array : array (1..4) of ASW.Unbounded_Wide_String :=
(ASW.To_Unbounded_Wide_String(Equiv(" Pad ")),
ASW.To_Unbounded_Wide_String(Equiv("Pad ")),
ASW.To_Unbounded_Wide_String(Equiv(" Pad")),
Pad);
String_Array : array (1..5) of ASW.Unbounded_Wide_String :=
(ASW.To_Unbounded_Wide_String(Equiv("xyzxAda9Xpqr")),
ASW.To_Unbounded_Wide_String(Equiv("Ada9Xqqrp")),
ASW.To_Unbounded_Wide_String(Equiv("zxyxAda9Xqpqr")),
ASW.To_Unbounded_Wide_String(Equiv("xxxyAda9X")),
The_New_Ada);
begin
-- Examine the version of Trim that removes blanks from
-- the left and/or right of a wide string.
for i in 1..4 loop
if ASW.Trim(Space_Array(i), Ada.Strings.Both) /= Pad then
Report.Failed("Incorrect result from Trim for spaces - " &
Integer'Image(i));
end if;
end loop;
-- Examine the version of Trim that removes set characters from
-- the left and right of a wide string.
for i in 1..5 loop
if ASW.Trim(String_Array(i),
Left => XYZ_Set,
Right => PQR_Set) /= The_New_Ada then
Report.Failed
("Incorrect result from Trim for set characters - " &
Integer'Image(i));
end if;
end loop;
-- No trimming.
if ASW.Trim(
ASW.To_Unbounded_Wide_String(Equiv("prqqprAda9Xyzzxyzzyz")),
XYZ_Set,
PQR_Set) /=
ASW.To_Unbounded_Wide_String(Equiv("prqqprAda9Xyzzxyzzyz"))
then
Report.Failed
("Incorrect result from Trim for set, no trimming");
end if;
end Trim_Block;
-- Delete
-- Use the Delete function to remove the first four and last four
-- characters from the wide string.
if ASW.Delete(Source => ASW.Delete(Magic_String,
8,
ASW.Length(Magic_String)),
From => ASW.To_Wide_String(Magic_String)'First,
Through => 4) /=
Cad_String
then
Report.Failed("Incorrect results from Function Delete");
end if;
-- Constructors ("*")
Constructor_Block:
declare
SOS : ASW.Unbounded_Wide_String;
Dot : constant ASW.Unbounded_Wide_String :=
ASW.To_Unbounded_Wide_String(Equiv("Dot_"));
Dash : constant Wide_String := Equiv("Dash_");
Distress : ASW.Unbounded_Wide_String :=
ASW."&"(ASW.To_Unbounded_Wide_String
(Equiv("Dot_Dot_Dot_")),
ASW."&"(ASW.To_Unbounded_Wide_String
(Equiv("Dash_Dash_Dash_")),
ASW.To_Unbounded_Wide_String
(Equiv("Dot_Dot_Dot"))));
Repeat : constant Natural := 3;
Separator : constant Wide_Character := Equiv('_');
Separator_Set : Wide_Maps.Wide_Character_Set :=
Wide_Maps.To_Set(Separator);
begin
-- Use the following constructor forms to construct the wide string
-- "Dot_Dot_Dot_Dash_Dash_Dash_Dot_Dot_Dot". Note that the
-- trailing underscore in the wide string is removed in the call to
-- Trim in the If statement condition.
SOS := ASW."*"(Repeat, Dot); -- "*"(#, W Unb Str)
SOS := ASW."&"(SOS,
ASW."&"(ASW."*"(Repeat, Dash), -- "*"(#, W Str)
ASW."*"(Repeat, Dot))); -- "*"(#, W Unb Str)
if ASW.Trim(SOS, Wide_Maps.Null_Set, Separator_Set) /= Distress then
Report.Failed("Incorrect results from Function ""*""");
end if;
end Constructor_Block;
exception
when others => Report.Failed ("Exception raised in Test_Block");
end Test_Block;
Report.Result;
end CXA4023;
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