| -- C34005A.ADA |
| |
| -- 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 REQUIRED PREDEFINED OPERATIONS ARE DECLARED |
| -- (IMPLICITLY) FOR DERIVED ONE-DIMENSIONAL ARRAY TYPES |
| -- WHOSE COMPONENT TYPE IS A NON-LIMITED, NON-DISCRETE TYPE. |
| |
| -- HISTORY: |
| -- JRK 9/10/86 CREATED ORIGINAL TEST. |
| -- PWN 01/31/95 REMOVED INCONSISTENCIES WITH ADA 9X. |
| |
| WITH SYSTEM; USE SYSTEM; |
| WITH REPORT; USE REPORT; |
| |
| PROCEDURE C34005A IS |
| |
| SUBTYPE COMPONENT IS FLOAT; |
| |
| PACKAGE PKG IS |
| |
| FIRST : CONSTANT := 0; |
| LAST : CONSTANT := 100; |
| |
| SUBTYPE INDEX IS INTEGER RANGE FIRST .. LAST; |
| |
| TYPE PARENT IS ARRAY (INDEX RANGE <>) OF COMPONENT; |
| |
| FUNCTION CREATE ( F, L : INDEX; |
| C : COMPONENT; |
| DUMMY : PARENT -- TO RESOLVE OVERLOADING. |
| ) RETURN PARENT; |
| |
| END PKG; |
| |
| USE PKG; |
| |
| TYPE T IS NEW PARENT (IDENT_INT (5) .. IDENT_INT (7)); |
| |
| TYPE ARRT IS ARRAY (INTEGER RANGE <>) OF COMPONENT; |
| SUBTYPE ARR IS ARRT (2 .. 4); |
| |
| X : T := (OTHERS => 2.0); |
| W : PARENT (5 .. 7) := (OTHERS => 2.0); |
| C : COMPONENT := 1.0; |
| B : BOOLEAN := FALSE; |
| U : ARR := (OTHERS => C); |
| N : CONSTANT := 1; |
| |
| PROCEDURE A (X : ADDRESS) IS |
| BEGIN |
| B := IDENT_BOOL (TRUE); |
| END A; |
| |
| FUNCTION V RETURN T IS |
| BEGIN |
| RETURN (OTHERS => C); |
| END V; |
| |
| PACKAGE BODY PKG IS |
| |
| FUNCTION CREATE |
| ( F, L : INDEX; |
| C : COMPONENT; |
| DUMMY : PARENT |
| ) RETURN PARENT |
| IS |
| A : PARENT (F .. L); |
| B : COMPONENT := C; |
| BEGIN |
| FOR I IN F .. L LOOP |
| A (I) := B; |
| B := B + 1.0; |
| END LOOP; |
| RETURN A; |
| END CREATE; |
| |
| END PKG; |
| |
| FUNCTION IDENT (X : T) RETURN T IS |
| BEGIN |
| IF EQUAL (X'LENGTH, X'LENGTH) THEN |
| RETURN X; -- ALWAYS EXECUTED. |
| END IF; |
| RETURN (OTHERS => -1.0); |
| END IDENT; |
| |
| BEGIN |
| TEST ("C34005A", "CHECK THAT THE REQUIRED PREDEFINED OPERATIONS " & |
| "ARE DECLARED (IMPLICITLY) FOR DERIVED " & |
| "ONE-DIMENSIONAL ARRAY TYPES WHOSE COMPONENT " & |
| "TYPE IS A NON-LIMITED, NON-DISCRETE TYPE"); |
| |
| X := IDENT ((1.0, 2.0, 3.0)); |
| IF X /= (1.0, 2.0, 3.0) THEN |
| FAILED ("INCORRECT :="); |
| END IF; |
| |
| IF T'(X) /= (1.0, 2.0, 3.0) THEN |
| FAILED ("INCORRECT QUALIFICATION"); |
| END IF; |
| |
| IF T (X) /= (1.0, 2.0, 3.0) THEN |
| FAILED ("INCORRECT SELF CONVERSION"); |
| END IF; |
| |
| IF EQUAL (3, 3) THEN |
| W := (1.0, 2.0, 3.0); |
| END IF; |
| IF T (W) /= (1.0, 2.0, 3.0) THEN |
| FAILED ("INCORRECT CONVERSION FROM PARENT"); |
| END IF; |
| |
| BEGIN |
| IF PARENT (X) /= (1.0, 2.0, 3.0) OR |
| PARENT (CREATE (2, 3, 4.0, X)) /= (4.0, 5.0) THEN |
| FAILED ("INCORRECT CONVERSION TO PARENT"); |
| END IF; |
| EXCEPTION |
| WHEN CONSTRAINT_ERROR => |
| FAILED ("CALL TO CREATE RAISED CONSTRAINT_ERROR - 1"); |
| WHEN OTHERS => |
| FAILED ("CALL TO CREATE RAISED EXCEPTION - 1"); |
| END; |
| |
| IF EQUAL (3, 3) THEN |
| U := (1.0, 2.0, 3.0); |
| END IF; |
| IF T (U) /= (1.0, 2.0, 3.0) THEN |
| FAILED ("INCORRECT CONVERSION FROM ARRAY"); |
| END IF; |
| |
| BEGIN |
| IF ARR (X) /= (1.0, 2.0, 3.0) OR |
| ARRT (CREATE (1, 2, 3.0, X)) /= (3.0, 4.0) THEN |
| FAILED ("INCORRECT CONVERSION TO ARRAY"); |
| END IF; |
| EXCEPTION |
| WHEN CONSTRAINT_ERROR => |
| FAILED ("CALL TO CREATE RAISED CONSTRAINT_ERROR - 2"); |
| WHEN OTHERS => |
| FAILED ("CALL TO CREATE RAISED EXCEPTION - 2"); |
| END; |
| |
| IF IDENT ((1.0, 2.0, 3.0)) /= (1.0, 2.0, 3.0) OR |
| X = (1.0, 2.0) THEN |
| FAILED ("INCORRECT AGGREGATE"); |
| END IF; |
| |
| BEGIN |
| IF X (IDENT_INT (5)) /= 1.0 OR |
| CREATE (2, 3, 4.0, X) (3) /= 5.0 THEN |
| FAILED ("INCORRECT INDEX (VALUE)"); |
| END IF; |
| EXCEPTION |
| WHEN CONSTRAINT_ERROR => |
| FAILED ("CALL TO CREATE RAISED CONSTRAINT_ERROR - 3"); |
| WHEN OTHERS => |
| FAILED ("CALL TO CREATE RAISED EXCEPTION - 3"); |
| END; |
| |
| X (IDENT_INT (7)) := 4.0; |
| IF X /= (1.0, 2.0, 4.0) THEN |
| FAILED ("INCORRECT INDEX (ASSIGNMENT)"); |
| END IF; |
| |
| BEGIN |
| X := IDENT ((1.0, 2.0, 3.0)); |
| IF X (IDENT_INT (6) .. IDENT_INT (7)) /= (2.0, 3.0) OR |
| CREATE (1, 4, 4.0, X) (1 .. 3) /= (4.0, 5.0, 6.0) THEN |
| FAILED ("INCORRECT SLICE (VALUE)"); |
| END IF; |
| EXCEPTION |
| WHEN CONSTRAINT_ERROR => |
| FAILED ("CALL TO CREATE RAISED CONSTRAINT_ERROR - 4"); |
| WHEN OTHERS => |
| FAILED ("CALL TO CREATE RAISED EXCEPTION - 4"); |
| END; |
| |
| X (IDENT_INT (5) .. IDENT_INT (6)) := (4.0, 5.0); |
| IF X /= (4.0, 5.0, 3.0) THEN |
| FAILED ("INCORRECT SLICE (ASSIGNMENT)"); |
| END IF; |
| |
| X := IDENT ((1.0, 2.0, 3.0)); |
| IF X = IDENT ((1.0, 2.0, 4.0)) OR X = (1.0, 2.0) THEN |
| FAILED ("INCORRECT ="); |
| END IF; |
| |
| IF X /= IDENT ((1.0, 2.0, 3.0)) OR NOT (X /= (2.0, 3.0)) THEN |
| FAILED ("INCORRECT /="); |
| END IF; |
| |
| IF NOT (X IN T) OR (1.0, 2.0) IN T THEN |
| FAILED ("INCORRECT ""IN"""); |
| END IF; |
| |
| IF X NOT IN T OR NOT ((1.0, 2.0) NOT IN T) THEN |
| FAILED ("INCORRECT ""NOT IN"""); |
| END IF; |
| |
| BEGIN |
| IF X & (4.0, 5.0, 6.0) /= (1.0, 2.0, 3.0, 4.0, 5.0, 6.0) OR |
| CREATE (2, 3, 2.0, X) & (4.0, 5.0) /= |
| (2.0, 3.0, 4.0, 5.0) THEN |
| FAILED ("INCORRECT & (ARRAY, ARRAY)"); |
| END IF; |
| EXCEPTION |
| WHEN CONSTRAINT_ERROR => |
| FAILED ("CALL TO CREATE RAISED CONSTRAINT_ERROR - 5"); |
| WHEN OTHERS => |
| FAILED ("CALL TO CREATE RAISED EXCEPTION - 5"); |
| END; |
| |
| BEGIN |
| IF X & 4.0 /= (1.0, 2.0, 3.0, 4.0) OR |
| CREATE (2, 3, 2.0, X) & 4.0 /= (2.0, 3.0, 4.0) THEN |
| FAILED ("INCORRECT & (ARRAY, COMPONENT)"); |
| END IF; |
| EXCEPTION |
| WHEN CONSTRAINT_ERROR => |
| FAILED ("CALL TO CREATE RAISED CONSTRAINT_ERROR - 6"); |
| WHEN OTHERS => |
| FAILED ("CALL TO CREATE RAISED EXCEPTION - 6"); |
| END; |
| |
| BEGIN |
| IF 4.0 & X /= (4.0, 1.0, 2.0, 3.0) OR |
| 2.0 & CREATE (2, 3, 3.0, X) /= (2.0, 3.0, 4.0) THEN |
| FAILED ("INCORRECT & (COMPONENT, ARRAY)"); |
| END IF; |
| EXCEPTION |
| WHEN CONSTRAINT_ERROR => |
| FAILED ("CALL TO CREATE RAISED CONSTRAINT_ERROR - 7"); |
| WHEN OTHERS => |
| FAILED ("CALL TO CREATE RAISED EXCEPTION - 7"); |
| END; |
| |
| IF EQUAL (3, 3) THEN |
| C := 2.0; |
| END IF; |
| |
| BEGIN |
| IF C & 3.0 /= CREATE (2, 3, 2.0, X) THEN |
| FAILED ("INCORRECT & (COMPONENT, COMPONENT)"); |
| END IF; |
| EXCEPTION |
| WHEN CONSTRAINT_ERROR => |
| FAILED ("CALL TO CREATE RAISED CONSTRAINT_ERROR - 8"); |
| WHEN OTHERS => |
| FAILED ("CALL TO CREATE RAISED EXCEPTION - 8"); |
| END; |
| |
| B := FALSE; |
| A (X'ADDRESS); |
| IF NOT B THEN |
| FAILED ("INCORRECT 'ADDRESS"); |
| END IF; |
| |
| IF T'FIRST /= 5 THEN |
| FAILED ("INCORRECT TYPE'FIRST"); |
| END IF; |
| |
| IF X'FIRST /= 5 THEN |
| FAILED ("INCORRECT OBJECT'FIRST"); |
| END IF; |
| |
| IF V'FIRST /= 5 THEN |
| FAILED ("INCORRECT VALUE'FIRST"); |
| END IF; |
| |
| IF T'FIRST (N) /= 5 THEN |
| FAILED ("INCORRECT TYPE'FIRST (N)"); |
| END IF; |
| |
| IF X'FIRST (N) /= 5 THEN |
| FAILED ("INCORRECT OBJECT'FIRST (N)"); |
| END IF; |
| |
| IF V'FIRST (N) /= 5 THEN |
| FAILED ("INCORRECT VALUE'FIRST (N)"); |
| END IF; |
| |
| IF T'LAST /= 7 THEN |
| FAILED ("INCORRECT TYPE'LAST"); |
| END IF; |
| |
| IF X'LAST /= 7 THEN |
| FAILED ("INCORRECT OBJECT'LAST"); |
| END IF; |
| |
| IF V'LAST /= 7 THEN |
| FAILED ("INCORRECT VALUE'LAST"); |
| END IF; |
| |
| IF T'LAST (N) /= 7 THEN |
| FAILED ("INCORRECT TYPE'LAST (N)"); |
| END IF; |
| |
| IF X'LAST (N) /= 7 THEN |
| FAILED ("INCORRECT OBJECT'LAST (N)"); |
| END IF; |
| |
| IF V'LAST (N) /= 7 THEN |
| FAILED ("INCORRECT VALUE'LAST (N)"); |
| END IF; |
| |
| IF T'LENGTH /= 3 THEN |
| FAILED ("INCORRECT TYPE'LENGTH"); |
| END IF; |
| |
| IF X'LENGTH /= 3 THEN |
| FAILED ("INCORRECT OBJECT'LENGTH"); |
| END IF; |
| |
| IF V'LENGTH /= 3 THEN |
| FAILED ("INCORRECT VALUE'LENGTH"); |
| END IF; |
| |
| IF T'LENGTH (N) /= 3 THEN |
| FAILED ("INCORRECT TYPE'LENGTH (N)"); |
| END IF; |
| |
| IF X'LENGTH (N) /= 3 THEN |
| FAILED ("INCORRECT OBJECT'LENGTH (N)"); |
| END IF; |
| |
| IF V'LENGTH (N) /= 3 THEN |
| FAILED ("INCORRECT VALUE'LENGTH (N)"); |
| END IF; |
| |
| DECLARE |
| Y : PARENT (T'RANGE); |
| BEGIN |
| IF Y'FIRST /= 5 OR Y'LAST /= 7 THEN |
| FAILED ("INCORRECT TYPE'RANGE"); |
| END IF; |
| END; |
| |
| DECLARE |
| Y : PARENT (X'RANGE); |
| BEGIN |
| IF Y'FIRST /= 5 OR Y'LAST /= 7 THEN |
| FAILED ("INCORRECT OBJECT'RANGE"); |
| END IF; |
| END; |
| |
| DECLARE |
| Y : PARENT (V'RANGE); |
| BEGIN |
| IF Y'FIRST /= 5 OR Y'LAST /= 7 THEN |
| FAILED ("INCORRECT VALUE'RANGE"); |
| END IF; |
| END; |
| |
| DECLARE |
| Y : PARENT (T'RANGE (N)); |
| BEGIN |
| IF Y'FIRST /= 5 OR Y'LAST /= 7 THEN |
| FAILED ("INCORRECT TYPE'RANGE (N)"); |
| END IF; |
| END; |
| |
| DECLARE |
| Y : PARENT (X'RANGE (N)); |
| BEGIN |
| IF Y'FIRST /= 5 OR Y'LAST /= 7 THEN |
| FAILED ("INCORRECT OBJECT'RANGE (N)"); |
| END IF; |
| END; |
| |
| DECLARE |
| Y : PARENT (V'RANGE (N)); |
| BEGIN |
| IF Y'FIRST /= 5 OR Y'LAST /= 7 THEN |
| FAILED ("INCORRECT VALUE'RANGE (N)"); |
| END IF; |
| END; |
| |
| IF T'SIZE < T'LENGTH * COMPONENT'SIZE THEN |
| FAILED ("INCORRECT TYPE'SIZE"); |
| END IF; |
| |
| IF X'SIZE < X'LENGTH * COMPONENT'SIZE THEN |
| FAILED ("INCORRECT OBJECT'SIZE"); |
| END IF; |
| |
| RESULT; |
| END C34005A; |