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-- CXA4018.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_Bounded are available, and that they produce
-- correct results. Specifically, check the subprograms Append,
-- Count, Element, Find_Token, Head, Index_Non_Blank, Replace_Element,
-- Replicate, Tail, To_Bounded_Wide_String, "&", ">", "<", ">=", "<=",
-- and "*".
--
-- TEST DESCRIPTION:
-- This test, when taken in conjunction with test CXA40[17,19,20], will
-- constitute a test of all the functionality contained in package
-- Ada.Strings.Wide_Bounded. This test uses a variety of the
-- subprograms defined in the wide bounded string package in ways typical
-- of common usage. Different combinations of available subprograms
-- are used to accomplish similar wide bounded string processing goals.
--
--
-- CHANGE HISTORY:
-- 06 Dec 94 SAIC ACVC 2.0
-- 22 Dec 94 SAIC Changed obsolete constant to Strings.Wide_Space.
-- 06 Nov 95 SAIC Corrected evaluation string used in Head/Tail
-- subtests for ACVC 2.0.1.
--
--!
with Ada.Strings;
with Ada.Strings.Wide_Bounded;
with Ada.Characters.Handling;
with Ada.Strings.Wide_Maps;
with Report;
procedure CXA4018 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 parameters to simulate the use of Wide_Characters and
-- Wide_Strings in actual practice. Blanks are translated to Wide_Character
-- blanks and all other characters are translated into Wide_Characters with
-- position values 256 greater than their (narrow) character position
-- values.
function Translate (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 Translate;
function Translate (Str : String) return Wide_String is
WS : Wide_String(Str'First..Str'Last);
begin
for i in Str'First..Str'Last loop
WS(i) := Translate(Str(i));
end loop;
return WS;
end Translate;
begin
Report.Test ("CXA4018", "Check that the subprograms defined in package " &
"Ada.Strings.Wide_Bounded are available, and " &
"that they produce correct results");
Test_Block:
declare
package BS80 is new Ada.Strings.Wide_Bounded.Generic_Bounded_Length(80);
use type BS80.Bounded_Wide_String;
Part1 : constant Wide_String := Translate("Rum");
Part2 : Wide_Character := Translate('p');
Part3 : BS80.Bounded_Wide_String :=
BS80.To_Bounded_Wide_String(Translate("el"));
Part4 : Wide_Character := Translate('s');
Part5 : BS80.Bounded_Wide_String :=
BS80.To_Bounded_Wide_String(Translate("tilt"));
Part6 : Wide_String(1..3) := Translate("ski");
Full_Catenate_String,
Full_Append_String,
Constructed_String,
Drop_String,
Replicated_String,
Token_String : BS80.Bounded_Wide_String;
CharA : Wide_Character := Translate('A');
CharB : Wide_Character := Translate('B');
CharC : Wide_Character := Translate('C');
CharD : Wide_Character := Translate('D');
CharE : Wide_Character := Translate('E');
CharF : Wide_Character := Translate('F');
ABStr : Wide_String(1..15) := Translate("AAAAABBBBBBBBBB");
StrB : Wide_String(1..2) := Translate("BB");
StrE : Wide_String(1..2) := Translate("EE");
begin
-- Evaluation of the overloaded forms of the "&" operator.
Full_Catenate_String :=
BS80."&"(Part2, -- WChar & Bnd WStr
BS80."&"(Part3, -- Bnd WStr & Bnd WStr
BS80."&"(Part4, -- WChar & Bnd WStr
BS80."&"(Part5, -- Bnd WStr & Bnd WStr
BS80.To_Bounded_Wide_String
(Part6)))));
Full_Catenate_String :=
BS80."&"(Part1, Full_Catenate_String); -- WStr & Bnd WStr
Full_Catenate_String :=
BS80."&"(Left => Full_Catenate_String,
Right => Translate('n')); -- Bnd WStr & WChar
-- Evaluation of the overloaded forms of function Append.
Full_Append_String :=
BS80.Append(Part2, -- WChar,Bnd WStr
BS80.Append(Part3, -- Bnd WStr, Bnd WStr
BS80.Append(Part4, -- WChar,Bnd WStr
BS80.Append(BS80.To_Wide_String(Part5), -- WStr,Bnd WStr
BS80.To_Bounded_Wide_String(Part6)))));
Full_Append_String :=
BS80.Append(BS80.To_Bounded_Wide_String(Part1), -- Bnd WStr, WStr
BS80.To_Wide_String(Full_Append_String));
Full_Append_String :=
BS80.Append(Left => Full_Append_String,
Right => Translate('n')); -- Bnd WStr, WChar
-- Validate the resulting bounded wide strings.
if BS80."<"(Full_Catenate_String, Full_Append_String) or
BS80.">"(Full_Catenate_String, Full_Append_String) or
not (Full_Catenate_String = Full_Append_String and
BS80."<="(Full_Catenate_String, Full_Append_String) and
BS80.">="(Full_Catenate_String, Full_Append_String))
then
Report.Failed
("Incorrect results from bounded wide string catenation" &
" and comparison");
end if;
-- Evaluate the overloaded forms of the Constructor function "*" and
-- the Replicate function.
Constructed_String :=
BS80."*"(2,CharA) & -- "AA"
BS80."*"(2,StrB) & -- "AABBBB"
BS80."*"(3, BS80."*"(2, CharC)) & -- "AABBBBCCCCCC"
BS80.Replicate(3,
BS80.Replicate(2, CharD)) & -- "AABBBBCCCCCCDDDDDD"
BS80.Replicate(2, StrE) & -- "AABBBBCCCCCCDDDDDDEEEE"
BS80.Replicate(2, CharF); -- "AABBBBCCCCCCDDDDDDEEEEFF"
-- Use of Function Replicate that involves dropping wide characters.
-- The attempt to replicate the 15 character wide string six times will
-- exceed the 80 wide character bound of the wide string. Therefore,
-- the result should be the catenation of 5 copies of the 15 character
-- wide string, followed by 5 'A' wide characters (the first five wide
-- characters of the 6th replication) with the remaining wide
-- characters of the 6th replication dropped.
Drop_String :=
BS80.Replicate(Count => 6,
Item => ABStr, -- "AAAAABBBBBBBBBB"
Drop => Ada.Strings.Right);
if BS80.Element(Drop_String, 1) /= Translate('A') or
BS80.Element(Drop_String, 6) /= Translate('B') or
BS80.Element(Drop_String, 76) /= Translate('A') or
BS80.Element(Drop_String, 80) /= Translate('A')
then
Report.Failed("Incorrect result from Replicate with Drop");
end if;
-- Use function Index_Non_Blank in the evaluation of the
-- Constructed_String.
if BS80.Index_Non_Blank(Constructed_String, Ada.Strings.Forward) /=
BS80.To_Wide_String(Constructed_String)'First or
BS80.Index_Non_Blank(Constructed_String, Ada.Strings.Backward) /=
BS80.Length(Constructed_String)
then
Report.Failed("Incorrect results from constructor functions");
end if;
declare
-- Define wide character set objects for use with the Count function.
-- Constructed_String = "AABBBBCCCCCCDDDDDDEEEEFF" from above.
A_Set : Ada.Strings.Wide_Maps.Wide_Character_Set :=
Ada.Strings.Wide_Maps.To_Set(BS80.Element(Constructed_String,
1));
B_Set : Ada.Strings.Wide_Maps.Wide_Character_Set :=
Ada.Strings.Wide_Maps.To_Set(BS80.Element(Constructed_String,
3));
C_Set : Ada.Strings.Wide_Maps.Wide_Character_Set :=
Ada.Strings.Wide_Maps.To_Set(BS80.Element(Constructed_String,
7));
D_Set : Ada.Strings.Wide_Maps.Wide_Character_Set :=
Ada.Strings.Wide_Maps.To_Set(BS80.Element(Constructed_String,
13));
E_Set : Ada.Strings.Wide_Maps.Wide_Character_Set :=
Ada.Strings.Wide_Maps.To_Set(BS80.Element(Constructed_String,
19));
F_Set : Ada.Strings.Wide_Maps.Wide_Character_Set :=
Ada.Strings.Wide_Maps.To_Set(BS80.Element(Constructed_String,
23));
Start : Positive;
Stop : Natural := 0;
begin
-- Evaluate the results from function Count by comparing the number
-- of A's to the number of F's, B's to E's, and C's to D's in the
-- Constructed_String.
-- There should be an equal number of each of the wide characters that
-- are being compared (i.e., 2 A's and F's, 4 B's and E's, etc)
if BS80.Count(Constructed_String, A_Set) /=
BS80.Count(Constructed_String, F_Set) or
BS80.Count(Constructed_String, B_Set) /=
BS80.Count(Constructed_String, E_Set) or
not (BS80.Count(Constructed_String, C_Set) =
BS80.Count(Constructed_String, D_Set))
then
Report.Failed("Incorrect result from function Count");
end if;
-- Evaluate the functions Head, Tail, and Find_Token.
-- Create the Token_String from the Constructed_String above.
Token_String :=
BS80.Tail(BS80.Head(Constructed_String, 3), 2) & -- "AB" &
BS80.Head(BS80.Tail(Constructed_String, 13), 2) & -- "CD" &
BS80.Head(BS80.Tail(Constructed_String, 3), 2); -- "EF"
if Token_String /=
BS80.To_Bounded_Wide_String(Translate("ABCDEF")) then
Report.Failed("Incorrect result from Catenation of Token_String");
end if;
-- Find the starting/ending position of the first A in the
-- Token_String (both should be 1, only one A appears in string).
-- The Function Head uses the default pad character to return a
-- bounded wide string longer than its input parameter bounded
-- wide string.
BS80.Find_Token(BS80.Head(Token_String, 10), -- Default pad.
A_Set,
Ada.Strings.Inside,
Start,
Stop);
if Start /= 1 and Stop /= 1 then
Report.Failed("Incorrect result from Find_Token - 1");
end if;
-- Find the starting/ending position of the first non-AB slice in
-- the "head" five wide characters of Token_String (slice CDE at
-- positions 3-5)
BS80.Find_Token(BS80.Head(Token_String, 5), -- "ABCDE"
Ada.Strings.Wide_Maps."OR"(A_Set, B_Set), -- Set (AB)
Ada.Strings.Outside,
Start,
Stop);
if Start /= 3 and Stop /= 5 then
Report.Failed("Incorrect result from Find_Token - 2");
end if;
-- Find the starting/ending position of the first CD slice in
-- the "tail" eight wide characters (including two pad wide
-- characters) of Token_String (slice CD at positions 5-6 of
-- the tail portion specified)
BS80.Find_Token(BS80.Tail(Token_String, 8,
Ada.Strings.Wide_Space),
Ada.Strings.Wide_Maps."OR"(C_Set, D_Set),
Ada.Strings.Inside,
Start,
Stop);
if Start /= 5 and Stop /= 6 then
Report.Failed("Incorrect result from Find_Token - 3");
end if;
-- Evaluate the Replace_Element function.
-- Token_String = "ABCDEF"
BS80.Replace_Element(Token_String, 3, BS80.Element(Token_String,4));
-- Token_String = "ABDDEF"
BS80.Replace_Element(Source => Token_String,
Index => 2,
By => BS80.Element(Token_String, 5));
-- Token_String = "AEDDEF"
BS80.Replace_Element(Token_String,
1,
BS80.Element(BS80.Tail(Token_String, 2), 2));
-- Token_String = "FEDDEF"
-- Evaluate this result.
if BS80.Element(Token_String,
BS80.To_Wide_String(Token_String)'First) /=
BS80.Element(Token_String,
BS80.To_Wide_String(Token_String)'Last) or
BS80.Count(Token_String, D_Set) /=
BS80.Count(Token_String, E_Set) or
BS80.Index_Non_Blank(BS80.Head(Token_String,6)) /=
BS80.Index_Non_Blank(BS80.Tail(Token_String,6)) or
BS80.Head(Token_String, 1) /=
BS80.Tail(Token_String, 1)
then
Report.Failed("Incorrect result from operations in combination");
end if;
end;
exception
when others => Report.Failed ("Exception raised in Test_Block");
end Test_Block;
Report.Result;
end CXA4018;
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