ad7203b.ada
来自「linux下编程用 编译软件」· ADA 代码 · 共 268 行
ADA
268 行
-- AD7203B.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 PREFIX OF THE 'SIZE' ATTRIBUTE CAN BE AN OBJECT,-- A TYPE, OR A SUBTYPE.-- HISTORY:-- BCB 09/27/88 CREATED ORIGINAL TEST BY MODIFYING AND RENAMING-- CD7203B.ADA.WITH SYSTEM;WITH REPORT; USE REPORT;PROCEDURE AD7203B IS TYPE I_REC IS RECORD I1, I2 : INTEGER; END RECORD; I : INTEGER; I_A : ARRAY (1 ..5) OF INTEGER; I_R : I_REC; I_SIZE : INTEGER := I'SIZE; I_A_SIZE : INTEGER := I_A'SIZE; I_R_SIZE : INTEGER := I_R'SIZE; I_A_1_SIZE : INTEGER := I_A(1)'SIZE; I_R_I1_SIZE : INTEGER := I_R.I1'SIZE; TYPE FIXED IS DELTA 0.01 RANGE -1.0 .. 1.0; TYPE FXD_REC IS RECORD FXD1, FXD2 : FIXED; END RECORD; FXD : FIXED; FXD_A : ARRAY (1 .. 5) OF FIXED; FXD_R : FXD_REC; FXD_SIZE : INTEGER := FXD'SIZE; FXD_A_SIZE : INTEGER := FXD_A'SIZE; FXD_R_SIZE : INTEGER := FXD_R'SIZE; FXD_A_1_SIZE : INTEGER := FXD_A(1)'SIZE; FXD_R_FXD1_SIZE : INTEGER := FXD_R.FXD1'SIZE; TYPE FLT_REC IS RECORD FLT1, FLT2 : FLOAT; END RECORD; FLT : FLOAT; FLT_A : ARRAY (1 .. 5) OF FLOAT; FLT_R : FLT_REC; FLT_SIZE : INTEGER := FLT'SIZE; FLT_A_SIZE : INTEGER := FLT_A'SIZE; FLT_R_SIZE : INTEGER := FLT_R'SIZE; FLT_A_1_SIZE : INTEGER := FLT_A(1)'SIZE; FLT_R_FLT1_SIZE : INTEGER := FLT_R.FLT1'SIZE; SUBTYPE TINY_INT IS INTEGER RANGE 0 .. 255; TYPE TI_REC IS RECORD TI1, TI2 : TINY_INT; END RECORD; TI : TINY_INT; TI_A : ARRAY (1 .. 5) OF TINY_INT; TI_R : TI_REC; TINY_INT_SIZE : INTEGER := TINY_INT'SIZE; TI_SIZE : INTEGER := TI'SIZE; TI_A_SIZE : INTEGER := TI_A'SIZE; TI_R_SIZE : INTEGER := TI_R'SIZE; TI_A_1_SIZE : INTEGER := TI_A(1)'SIZE; TI_R_TI1_SIZE : INTEGER := TI_R.TI1'SIZE; TYPE STR IS ARRAY (TINY_INT RANGE <>) OF CHARACTER; TYPE STR_2 IS ARRAY (1 .. 127) OF CHARACTER; TYPE STR_REC IS RECORD S1, S2 : STR (TINY_INT'FIRST .. TINY_INT'LAST); END RECORD; S : STR (TINY_INT'FIRST .. TINY_INT'LAST); S_A : ARRAY (1 .. 5) OF STR (TINY_INT'FIRST .. TINY_INT'LAST); S_R : STR_REC; STR_2_SIZE : INTEGER := STR_2'SIZE; S_SIZE : INTEGER := S'SIZE; S_A_SIZE : INTEGER := S_A'SIZE; S_R_SIZE : INTEGER := S_R'SIZE; S_A_1_SIZE : INTEGER := S_A(1)'SIZE; S_R_S1_SIZE : INTEGER := S_R.S1'SIZE; TYPE C_REC IS RECORD C1, C2 : CHARACTER; END RECORD; C : CHARACTER; C_A : ARRAY (1 .. 5) OF CHARACTER; C_R : C_REC; C_SIZE : INTEGER := C'SIZE; C_A_SIZE : INTEGER := C_A'SIZE; C_R_SIZE : INTEGER := C_R'SIZE; C_A_1_SIZE : INTEGER := C_A(1)'SIZE; C_R_C1_SIZE : INTEGER := C_R.C1'SIZE; TYPE B_REC IS RECORD B1, B2 : BOOLEAN; END RECORD; B : BOOLEAN; B_A : ARRAY (1 .. 5) OF BOOLEAN; B_R : B_REC; B_SIZE : INTEGER := B'SIZE; B_A_SIZE : INTEGER := B_A'SIZE; B_R_SIZE : INTEGER := B_R'SIZE; B_A_1_SIZE : INTEGER := B_A(1)'SIZE; B_R_B1_SIZE : INTEGER := B_R.B1'SIZE; TYPE DISCR IS RANGE 1 .. 2; TYPE DISCR_REC (D : DISCR := 1) IS RECORD CASE D IS WHEN 1 => C1_I : INTEGER; WHEN 2 => C2_I1 : INTEGER; C2_I2 : INTEGER; END CASE; END RECORD; DR_UC : DISCR_REC; DR_C : DISCR_REC (2); DR_A : ARRAY (1 .. 5) OF DISCR_REC; DR_UC_SIZE : INTEGER := DR_UC'SIZE; DR_C_SIZE : INTEGER := DR_C'SIZE; DR_A_SIZE : INTEGER := DR_A'SIZE; DR_UC_C1_I_SIZE : INTEGER := DR_UC.C1_I'SIZE; DR_A_1_SIZE : INTEGER := DR_A(1)'SIZE; TYPE ENUM IS (E1, E2, E3, E4); TYPE ENUM_REC IS RECORD E1, E2 : ENUM; END RECORD; E : ENUM; E_A : ARRAY (1 .. 5) OF ENUM; E_R : ENUM_REC; E_SIZE : INTEGER := E'SIZE; E_A_SIZE : INTEGER := E_A'SIZE; E_R_SIZE : INTEGER := E_R'SIZE; E_A_1_SIZE : INTEGER := E_A(1)'SIZE; E_R_E1_SIZE : INTEGER := E_R.E1'SIZE; TASK TYPE TSK IS END TSK; TYPE TSK_REC IS RECORD TSK1, TSK2 : TSK; END RECORD; T : TSK; T_A : ARRAY (1 .. 5) OF TSK; T_R : TSK_REC; T_SIZE : INTEGER := T'SIZE; T_A_SIZE : INTEGER := T_A'SIZE; T_R_SIZE : INTEGER := T_R'SIZE; T_A_1_SIZE : INTEGER := T_A(1)'SIZE; T_R_TSK1_SIZE : INTEGER := T_R.TSK1'SIZE; TYPE ACC IS ACCESS INTEGER; TYPE ACC_REC IS RECORD A1, A2 : ACC; END RECORD; A : ACC; A_A : ARRAY (1 .. 5) OF ACC; A_R : ACC_REC; A_SIZE : INTEGER := A'SIZE; A_A_SIZE : INTEGER := A_A'SIZE; A_R_SIZE : INTEGER := A_R'SIZE; A_A_1_SIZE : INTEGER := A_A(1)'SIZE; A_R_A1_SIZE : INTEGER := A_R.A1'SIZE; PACKAGE PK IS TYPE PRV IS PRIVATE; TYPE PRV_REC IS RECORD P1, P2 : PRV; END RECORD; TYPE LPRV IS LIMITED PRIVATE; TYPE LPRV_REC IS RECORD LP1, LP2 : LPRV; END RECORD; PRIVATE TYPE PRV IS NEW INTEGER; TYPE LPRV IS NEW INTEGER; END PK; USE PK; P : PRV; P_A : ARRAY (1 .. 5) OF PRV; P_R : PRV_REC; P_SIZE : INTEGER := P'SIZE; P_A_SIZE : INTEGER := P_A'SIZE; P_R_SIZE : INTEGER := P_R'SIZE; P_A_1_SIZE : INTEGER := P_A(1)'SIZE; P_R_P1_SIZE : INTEGER := P_R.P1'SIZE; LP : LPRV; LP_A : ARRAY (1 .. 5) OF LPRV; LP_R : LPRV_REC; LP_SIZE : INTEGER := LP'SIZE; LP_A_SIZE : INTEGER := LP_A'SIZE; LP_R_SIZE : INTEGER := LP_R'SIZE; LP_A_1_SIZE : INTEGER := LP_A(1)'SIZE; LP_R_LP1_SIZE : INTEGER := LP_R.LP1'SIZE; TASK BODY TSK IS BEGIN NULL; END TSK;BEGIN TEST ("AD7203B", "CHECK THAT THE PREFIX OF THE 'SIZE' ATTRIBUTE " & "CAN BE AN OBJECT, A TYPE, OR A SUBTYPE"); RESULT;END AD7203B;⌨️ 快捷键说明
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