Mercurial > hg > CbC > CbC_gcc
view gcc/testsuite/ada/acats/tests/c3/c34005o.ada @ 111:04ced10e8804
gcc 7
| author | kono |
|---|---|
| date | Fri, 27 Oct 2017 22:46:09 +0900 |
| parents | |
| children |
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-- C34005O.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: -- FOR DERIVED MULTI-DIMENSIONAL ARRAY TYPES WHOSE COMPONENT TYPE -- IS A NON-LIMITED TYPE: -- CHECK THAT ALL VALUES OF THE PARENT (BASE) TYPE ARE PRESENT FOR -- THE DERIVED (BASE) TYPE WHEN THE DERIVED TYPE DEFINITION IS -- CONSTRAINED. -- CHECK THAT ANY CONSTRAINT IMPOSED ON THE PARENT SUBTYPE IS ALSO -- IMPOSED ON THE DERIVED SUBTYPE. -- HISTORY: -- JRK 9/17/86 CREATED ORIGINAL TEST. WITH REPORT; USE REPORT; PROCEDURE C34005O IS SUBTYPE COMPONENT IS INTEGER; PACKAGE PKG IS FIRST : CONSTANT := 0; LAST : CONSTANT := 10; SUBTYPE INDEX IS INTEGER RANGE FIRST .. LAST; TYPE PARENT IS ARRAY (INDEX RANGE <>, INDEX RANGE <>) OF COMPONENT; FUNCTION CREATE ( F1, L1 : INDEX; F2, L2 : INDEX; C : COMPONENT; DUMMY : PARENT -- TO RESOLVE OVERLOADING. ) RETURN PARENT; END PKG; USE PKG; TYPE T IS NEW PARENT (IDENT_INT (4) .. IDENT_INT (5), IDENT_INT (6) .. IDENT_INT (8)); SUBTYPE SUBPARENT IS PARENT (4 .. 5, 6 .. 8); TYPE S IS NEW SUBPARENT; X : T := (OTHERS => (OTHERS => 2)); Y : S := (OTHERS => (OTHERS => 2)); PACKAGE BODY PKG IS FUNCTION CREATE ( F1, L1 : INDEX; F2, L2 : INDEX; C : COMPONENT; DUMMY : PARENT ) RETURN PARENT IS A : PARENT (F1 .. L1, F2 .. L2); B : COMPONENT := C; BEGIN FOR I IN F1 .. L1 LOOP FOR J IN F2 .. L2 LOOP A (I, J) := B; B := B + 1; END LOOP; END LOOP; RETURN A; END CREATE; END PKG; BEGIN TEST ("C34005O", "CHECK THAT ALL VALUES OF THE PARENT (BASE) " & "TYPE ARE PRESENT FOR THE DERIVED (BASE) TYPE " & "WHEN THE DERIVED TYPE DEFINITION IS " & "CONSTRAINED. ALSO CHECK THAT ANY CONSTRAINT " & "IMPOSED ON THE PARENT SUBTYPE IS ALSO IMPOSED " & "ON THE DERIVED SUBTYPE. CHECK FOR DERIVED " & "MULTI-DIMENSIONAL ARRAY TYPES WHOSE COMPONENT " & "TYPE IS A NON-LIMITED TYPE"); -- CHECK THAT BASE TYPE VALUES NOT IN THE SUBTYPE ARE PRESENT. BEGIN IF CREATE (6, 9, 2, 3, 1, X) /= ((1, 2), (3, 4), (5, 6), (7, 8)) OR CREATE (6, 9, 2, 3, 1, Y) /= ((1, 2), (3, 4), (5, 6), (7, 8)) THEN FAILED ("CAN'T CREATE BASE TYPE VALUES OUTSIDE THE " & "SUBTYPE"); END IF; EXCEPTION WHEN CONSTRAINT_ERROR => FAILED ("CALL TO CREATE RAISED CONSTRAINT_ERROR"); WHEN OTHERS => FAILED ("CALL TO CREATE RAISED EXCEPTION"); END; IF ((1, 2), (3, 4), (5, 6), (7, 8)) IN T OR ((1, 2), (3, 4), (5, 6), (7, 8)) IN S THEN FAILED ("INCORRECT ""IN"""); END IF; -- CHECK THE DERIVED SUBTYPE CONSTRAINT. IF T'FIRST /= 4 OR T'LAST /= 5 OR S'FIRST /= 4 OR S'LAST /= 5 OR T'FIRST (2) /= 6 OR T'LAST (2) /= 8 OR S'FIRST (2) /= 6 OR S'LAST (2) /= 8 THEN FAILED ("INCORRECT 'FIRST OR 'LAST"); END IF; BEGIN X := ((1, 2, 3), (4, 5, 6)); Y := ((1, 2, 3), (4, 5, 6)); IF PARENT (X) /= PARENT (Y) THEN -- USE X AND Y. FAILED ("INCORRECT CONVERSION TO PARENT"); END IF; EXCEPTION WHEN OTHERS => FAILED ("EXCEPTION RAISED BY OK ASSIGNMENT"); END; BEGIN X := (4 => (6 .. 8 => 0)); FAILED ("CONSTRAINT_ERROR NOT RAISED -- " & "X := (4 => (6 .. 8 => 0))"); IF X = (4 => (6 .. 8 => 0)) THEN -- USE X. COMMENT ("X ALTERED -- " & "X := (4 => (6 .. 8 => 0))"); END IF; EXCEPTION WHEN CONSTRAINT_ERROR => NULL; WHEN OTHERS => FAILED ("WRONG EXCEPTION RAISED -- " & "X := (4 => (6 .. 8 => 0))"); END; BEGIN X := (4 .. 6 => (6 .. 8 => 0)); FAILED ("CONSTRAINT_ERROR NOT RAISED -- " & "X := (4 .. 6 => (6 .. 8 => 0))"); IF X = (4 .. 6 => (6 .. 8 => 0)) THEN -- USE X. COMMENT ("X ALTERED -- " & "X := (4 .. 6 => (6 .. 8 => 0))"); END IF; EXCEPTION WHEN CONSTRAINT_ERROR => NULL; WHEN OTHERS => FAILED ("WRONG EXCEPTION RAISED -- " & "X := (4 .. 6 => (6 .. 8 => 0))"); END; BEGIN X := (4 .. 5 => (6 .. 7 => 0)); FAILED ("CONSTRAINT_ERROR NOT RAISED -- " & "X := (4 .. 5 => (6 .. 7 => 0))"); IF X = (4 .. 5 => (6 .. 7 => 0)) THEN -- USE X. COMMENT ("X ALTERED -- " & "X := (4 .. 5 => (6 .. 7 => 0))"); END IF; EXCEPTION WHEN CONSTRAINT_ERROR => NULL; WHEN OTHERS => FAILED ("WRONG EXCEPTION RAISED -- " & "X := (4 .. 5 => (6 .. 7 => 0))"); END; BEGIN X := (4 .. 5 => (6 .. 9 => 0)); FAILED ("CONSTRAINT_ERROR NOT RAISED -- " & "X := (4 .. 5 => (6 .. 9 => 0))"); IF X = (4 .. 5 => (6 .. 9 => 0)) THEN -- USE X. COMMENT ("X ALTERED -- " & "X := (4 .. 5 => (6 .. 9 => 0))"); END IF; EXCEPTION WHEN CONSTRAINT_ERROR => NULL; WHEN OTHERS => FAILED ("WRONG EXCEPTION RAISED -- " & "X := (4 .. 5 => (6 .. 9 => 0))"); END; BEGIN Y := (4 => (6 .. 8 => 0)); FAILED ("CONSTRAINT_ERROR NOT RAISED -- " & "Y := (4 => (6 .. 8 => 0))"); IF Y = (4 => (6 .. 8 => 0)) THEN -- USE Y. COMMENT ("Y ALTERED -- " & "Y := (4 => (6 .. 8 => 0))"); END IF; EXCEPTION WHEN CONSTRAINT_ERROR => NULL; WHEN OTHERS => FAILED ("WRONG EXCEPTION RAISED -- " & "Y := (4 => (6 .. 8 => 0))"); END; BEGIN Y := (4 .. 6 => (6 .. 8 => 0)); FAILED ("CONSTRAINT_ERROR NOT RAISED -- " & "Y := (4 .. 6 => (6 .. 8 => 0))"); IF Y = (4 .. 6 => (6 .. 8 => 0)) THEN -- USE Y. COMMENT ("Y ALTERED -- " & "Y := (4 .. 6 => (6 .. 8 => 0))"); END IF; EXCEPTION WHEN CONSTRAINT_ERROR => NULL; WHEN OTHERS => FAILED ("WRONG EXCEPTION RAISED -- " & "Y := (4 .. 6 => (6 .. 8 => 0))"); END; BEGIN Y := (4 .. 5 => (6 .. 7 => 0)); FAILED ("CONSTRAINT_ERROR NOT RAISED -- " & "Y := (4 .. 5 => (6 .. 7 => 0))"); IF Y = (4 .. 5 => (6 .. 7 => 0)) THEN -- USE Y. COMMENT ("Y ALTERED -- " & "Y := (4 .. 5 => (6 .. 7 => 0))"); END IF; EXCEPTION WHEN CONSTRAINT_ERROR => NULL; WHEN OTHERS => FAILED ("WRONG EXCEPTION RAISED -- " & "Y := (4 .. 5 => (6 .. 7 => 0))"); END; BEGIN Y := (4 .. 5 => (6 .. 9 => 0)); FAILED ("CONSTRAINT_ERROR NOT RAISED -- " & "Y := (4 .. 5 => (6 .. 9 => 0))"); IF Y = (4 .. 5 => (6 .. 9 => 0)) THEN -- USE Y. COMMENT ("Y ALTERED -- " & "Y := (4 .. 5 => (6 .. 9 => 0))"); END IF; EXCEPTION WHEN CONSTRAINT_ERROR => NULL; WHEN OTHERS => FAILED ("WRONG EXCEPTION RAISED -- " & "Y := (4 .. 5 => (6 .. 9 => 0))"); END; RESULT; END C34005O;