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-- Copyright (C) 2001 Bill Billowitch.
-- Some of the work to develop this test suite was done with Air Force
-- support. The Air Force and Bill Billowitch assume no
-- responsibilities for this software.
-- This file is part of VESTs (Vhdl tESTs).
-- VESTs is free software; you can redistribute it and/or modify it
-- under the terms of the GNU General Public License as published by the
-- Free Software Foundation; either version 2 of the License, or (at
-- your option) any later version.
-- VESTs is distributed in the hope that it will be useful, but WITHOUT
-- ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
-- FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
-- for more details.
-- You should have received a copy of the GNU General Public License
-- along with VESTs; if not, write to the Free Software Foundation,
-- Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
-- ---------------------------------------------------------------------
--
-- $Id: tc1349.vhd,v 1.2 2001-10-26 16:29:40 paw Exp $
-- $Revision: 1.2 $
--
-- ---------------------------------------------------------------------
ENTITY c08s04b01x00p10n01i01349ent IS
END c08s04b01x00p10n01i01349ent;
ARCHITECTURE c08s04b01x00p10n01i01349arch OF c08s04b01x00p10n01i01349ent IS
-- Local signals.
signal S : BIT := '0';
BEGIN
TESTING: PROCESS
-- local variables.
variable S_INITIAL : BIT;
variable ShouldBeTime : TIME;
variable k : integer := 0;
BEGIN
-- 0. Keep around the initial value of S.
S_INITIAL := S;
-- 1. When no preemption necessary, verify the results. INERTIAL SAME AS TRANSPORT.
S <= (not S) after 10 ns, (S) after 20 ns;
-- a. Wait for first transaction.
ShouldBeTime := NOW + 10 ns;
wait on S;
if (ShouldBeTime /= now and S /= not S_INITIAL) then
k := 1;
end if;
assert (ShouldBeTime = NOW);
assert (S = (not S_INITIAL));
-- b. Wait for second transaction.
ShouldBeTime := NOW + 10 ns;
wait on S;
if (ShouldBeTime /= now and S /= S_INITIAL) then
k := 1;
end if;
assert (ShouldBeTime = NOW);
assert (S = S_INITIAL);
-- 2. Preempt a transaction which is to occur at the same time as second one.
-- INERTIAL SAME AS TRANSPORT.
S_INITIAL := S;
S <= (S) after 10 ns;
S <= (not S) after 10 ns; -- Should preempt first transaction.
-- a. Verify that the second transaction comes as expected.
ShouldBeTime := NOW + 10 ns;
wait on S;
if (ShouldBeTime /= now and S /= not S_INITIAL) then
k := 1;
end if;
assert (ShouldBeTime = NOW);
assert (S = (not S_INITIAL));
-- b. Verify that the first transaction has been preempted.
ShouldBeTime := NOW + 10 ns;
wait on S for 10 ns;
if (ShouldBeTime /= now ) then
k := 1;
end if;
assert (ShouldBeTime = NOW);
-- 3. Preempt a transaction which is to occur at a later time than second one.
-- INERTIAL SAME AS TRANSPORT.
S_INITIAL := S;
S <= (S) after 15 ns;
S <= (not S) after 10 ns; -- Should preempt first transaction.
-- a. Verify that the second transaction comes as expected.
ShouldBeTime := NOW + 10 ns;
wait on S;
if (ShouldBeTime /= now and S /= not S_INITIAL) then
k := 1;
end if;
assert (ShouldBeTime = NOW);
assert (S = (not S_INITIAL));
-- b. Verify that the first transaction has been preempted.
ShouldBeTime := NOW + 10 ns;
wait on S for 10 ns;
if (ShouldBeTime /= now ) then
k := 1;
end if;
assert (ShouldBeTime = NOW);
-- 4. Preempt multiple transactions. INERTIAL SAME AS TRANSPORT.
S_INITIAL := S;
S <= (S) after 15 ns, (not S) after 30 ns;
S <= (not S) after 10 ns, (S) after 20 ns;
-- a. Verify that the second transactions come as expected.
ShouldBeTime := NOW + 10 ns;
wait on S;
if (ShouldBeTime /= now and S /= not S_INITIAL) then
k := 1;
end if;
assert (ShouldBeTime = NOW);
assert (S = (not S_INITIAL));
ShouldBeTime := NOW + 10 ns;
wait on S;
if (ShouldBeTime /= now and S /= S_INITIAL) then
k := 1;
end if;
assert (ShouldBeTime = NOW);
assert (S = S_INITIAL);
-- b. Verify that the first transactions have been preempted.
ShouldBeTime := NOW + 40 ns;
wait on S for 40 ns;
if (ShouldBeTime /= now ) then
k := 1;
end if;
assert (ShouldBeTime = NOW);
-- 5. Preempt transactions which occur before the second inertial assignment.
S_INITIAL := S;
S <= (S) after 5 ns;
S <= (not S) after 10 ns, (S) after 20 ns;
-- a. Verify that the second transactions come as expected.
ShouldBeTime := NOW + 10 ns;
wait on S;
if (ShouldBeTime /= now and S /= not S_INITIAL) then
k := 1;
end if;
assert (ShouldBeTime = NOW);
assert (S = (not S_INITIAL));
ShouldBeTime := NOW + 10 ns;
wait on S;
if (ShouldBeTime /= now and S /= S_INITIAL) then
k := 1;
end if;
assert (ShouldBeTime = NOW);
assert (S = S_INITIAL);
-- b. Verify that the first transactions have been preempted.
ShouldBeTime := NOW + 40 ns;
wait on S for 40 ns;
if (ShouldBeTime /= now ) then
k := 1;
end if;
assert (ShouldBeTime = NOW);
-- 6. Don't preempt transactions which occur before the second inertial assignment.
S_INITIAL := S;
S <= (not S) after 5 ns;
S <= (not S) after 10 ns, (S) after 20 ns;
-- a. Verify that the first transaction was NOT preempted.
ShouldBeTime := NOW + 5 ns;
wait on S;
if (ShouldBeTime /= now and S /= not S_INITIAL) then
k := 1;
end if;
assert (ShouldBeTime = NOW);
assert (S = (not S_INITIAL));
ShouldBeTime := NOW + 15 ns;
wait on S;
if (ShouldBeTime /= now and S /= S_INITIAL) then
k := 1;
end if;
assert (ShouldBeTime = NOW);
assert (S = S_INITIAL);
-- b. Verify that there are no more transactions.
ShouldBeTime := NOW + 40 ns;
wait on S for 40 ns;
if (ShouldBeTime /= now ) then
k := 1;
end if;
assert (ShouldBeTime = NOW);
assert NOT( k=0 )
report "***PASSED TEST: c08s04b01x00p10n01i01349"
severity NOTE;
assert ( k=0 )
report "***FAILED TEST: c08s04b01x00p10n01i01349 - Interial signal assignment test failed."
severity ERROR;
wait;
END PROCESS TESTING;
END c08s04b01x00p10n01i01349arch;
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