- @Test
- void orTest()
- {
- Simulation.TIMELINE.reset();
- OrGate gate = new OrGate(1, new WireArray(4, 1), new WireArray(4, 1), new WireArray(4, 1));
- gate.getA().createInput().feedSignals(Bit.ONE, Bit.ONE, Bit.ZERO, Bit.ZERO);
- gate.getB().createInput().feedSignals(Bit.ZERO, Bit.ONE, Bit.ZERO, Bit.ONE);
-
- Simulation.TIMELINE.executeAll();
-
- assertArrayEquals(new Bit[] { Bit.ONE, Bit.ONE, Bit.ZERO, Bit.ONE }, gate.getOut().getValues());
- }
-
- @Test
- void rsLatchCircuitTest()
- {
- Simulation.TIMELINE.reset();
- WireArray r = new WireArray(1, 1), s = new WireArray(1, 1), t1 = new WireArray(1, 15), t2 = new WireArray(1, 1),
- q = new WireArray(1, 1), nq = new WireArray(1, 1);
-
- new OrGate(1, r, nq, t2);
- new OrGate(1, s, q, t1);
- new NotGate(1, t2, q);
- new NotGate(1, t1, nq);
-
- WireArrayInput sIn = s.createInput(), rIn = r.createInput();
-
- sIn.feedSignals(Bit.ONE);
- rIn.feedSignals(Bit.ZERO);
-
- Simulation.TIMELINE.executeAll();
-
- assertEquals(Bit.ONE, q.getValue());
- assertEquals(Bit.ZERO, nq.getValue());
-
- sIn.feedSignals(Bit.ZERO);
-
- Simulation.TIMELINE.executeAll();
- assertEquals(Bit.ONE, q.getValue());
- assertEquals(Bit.ZERO, nq.getValue());
-
- rIn.feedSignals(Bit.ONE);
-
- Simulation.TIMELINE.executeAll();
-
- assertEquals(Bit.ZERO, q.getValue());
- assertEquals(Bit.ONE, nq.getValue());
- }
-
- @Test
- void numericValueTest()
- {
- Simulation.TIMELINE.reset();
-
- WireArray a = new WireArray(4, 1);
- a.createInput().feedSignals(Bit.ONE, Bit.ONE, Bit.ONE, Bit.ONE);
-
- Simulation.TIMELINE.executeAll();
-
- assertEquals(15, a.getUnsignedValue());
- assertEquals(-1, a.getSignedValue());
- }
-
- @Test
- void multipleInputs()
- {
- Simulation.TIMELINE.reset();
- WireArray w = new WireArray(2, 1);
- WireArrayInput wI1 = w.createInput(), wI2 = w.createInput();
- wI1.feedSignals(Bit.ONE, Bit.Z);
- wI2.feedSignals(Bit.Z, Bit.X);
- Simulation.TIMELINE.executeAll();
- assertArrayEquals(new Bit[] { Bit.ONE, Bit.X }, w.getValues());
-
- wI2.feedSignals(Bit.ZERO, Bit.Z);
- Simulation.TIMELINE.executeAll();
- assertArrayEquals(new Bit[] { Bit.X, Bit.Z }, w.getValues());
-
- wI2.feedSignals(Bit.Z, Bit.Z);
- Simulation.TIMELINE.executeAll();
- assertArrayEquals(new Bit[] { Bit.ONE, Bit.Z }, w.getValues());
-
- wI2.feedSignals(Bit.ONE, Bit.Z);
- w.addObserver((i) -> fail("WireArray notified observer, although value did not change."));
- Simulation.TIMELINE.executeAll();
- assertArrayEquals(new Bit[] { Bit.ONE, Bit.Z }, w.getValues());
- }
-
-// @Test
-// void wireConnections()
-// {
-// // Nur ein Experiment, was über mehrere 'passive' Bausteine hinweg passieren würde
-//
-// Simulation.TIMELINE.reset();
-//
-// WireArray a = new WireArray(1, 2);
-// WireArray b = new WireArray(1, 2);
-// WireArray c = new WireArray(1, 2);
-// WireArrayInput aI = a.createInput();
-// WireArrayInput bI = b.createInput();
-// WireArrayInput cI = c.createInput();
-//
-// TestBitDisplay test = new TestBitDisplay(c);
-// LongConsumer print = time -> System.out.format("Time %2d\n %s\n %s\n %s\n", time, a, b, c);
-//
-// cI.feedSignals(Bit.ONE);
-// test.assertAfterSimulationIs(print, Bit.ONE);
-//
-// cI.feedSignals(Bit.X);
-// test.assertAfterSimulationIs(print, Bit.X);
-//
-// cI.feedSignals(Bit.X);
-// cI.feedSignals(Bit.Z);
-// test.assertAfterSimulationIs(print, Bit.Z);
-//
-// Connector c1 = new Connector(b, c);
-// test.assertAfterSimulationIs(print, Bit.Z);
-// System.out.println("ONE");
-// bI.feedSignals(Bit.ONE);
-// test.assertAfterSimulationIs(print, Bit.ONE);
-// System.out.println("ZERO");
-// bI.feedSignals(Bit.ZERO);
-// test.assertAfterSimulationIs(print, Bit.ZERO);
-// System.out.println("Z");
-// bI.feedSignals(Bit.Z);
-// test.assertAfterSimulationIs(Bit.Z);
-// }
-
- private static void assertBitArrayEquals(Bit[] actual, Bit... expected)
- {
- assertArrayEquals(expected, actual);
- }
+ assertBitArrayEquals(d.getValues(), Bit.ZERO, Bit.ONE, Bit.ONE);
+ }
+
+ @Test
+ void notTest()
+ {
+ t.reset();
+ Wire a = new Wire(t, 3, 1), b = new Wire(t, 3, 2);
+ new NotGate(t, 1, a.createReadOnlyEnd(), b.createReadWriteEnd());
+ a.createReadWriteEnd().feedSignals(Bit.ZERO, Bit.ONE, Bit.ONE);
+
+ t.executeAll();
+
+ assertBitArrayEquals(b.getValues(), Bit.ONE, Bit.ZERO, Bit.ZERO);
+ }
+
+ @Test
+ void rsLatchCircuitTest()
+ {
+ t.reset();
+ Wire r = new Wire(t, 1, 1), s = new Wire(t, 1, 1), t1 = new Wire(t, 1, 15), t2 = new Wire(t, 1, 1), q = new Wire(t, 1, 1),
+ nq = new Wire(t, 1, 1);
+
+ new OrGate(t, 1, t2.createReadWriteEnd(), r.createReadOnlyEnd(), nq.createReadOnlyEnd());
+ new OrGate(t, 1, t1.createReadWriteEnd(), s.createReadOnlyEnd(), q.createReadOnlyEnd());
+ new NotGate(t, 1, t2.createReadOnlyEnd(), q.createReadWriteEnd());
+ new NotGate(t, 1, t1.createReadOnlyEnd(), nq.createReadWriteEnd());
+
+ ReadWriteEnd sIn = s.createReadWriteEnd(), rIn = r.createReadWriteEnd();
+
+ sIn.feedSignals(Bit.ONE);
+ rIn.feedSignals(Bit.ZERO);
+
+ t.executeAll();
+
+ assertEquals(Bit.ONE, q.getValue());
+ assertEquals(Bit.ZERO, nq.getValue());
+
+ sIn.feedSignals(Bit.ZERO);
+
+ t.executeAll();
+ assertEquals(Bit.ONE, q.getValue());
+ assertEquals(Bit.ZERO, nq.getValue());
+
+ rIn.feedSignals(Bit.ONE);
+
+ t.executeAll();
+
+ assertEquals(Bit.ZERO, q.getValue());
+ assertEquals(Bit.ONE, nq.getValue());
+ }
+
+ @Test
+ void numericValueTest()
+ {
+ t.reset();
+
+ Wire a = new Wire(t, 4, 1);
+ a.createReadWriteEnd().feedSignals(Bit.ONE, Bit.ONE, Bit.ONE, Bit.ONE);
+
+ t.executeAll();
+
+ assertEquals(15, a.getUnsignedValue());
+ assertEquals(-1, a.getSignedValue());
+ }
+
+ boolean flag = false;
+
+ @Test
+ void simpleTimelineTest()
+ {
+ Timeline t = new Timeline(3);
+ flag = false;
+ t.addEvent((e) ->
+ {
+ if (!flag)
+ fail();
+ flag = false;
+ }, 15);
+ t.addEvent((e) ->
+ {
+ if (flag)
+ fail();
+ flag = true;
+ }, 10);
+ t.addEvent((e) ->
+ {
+ if (flag)
+ fail();
+ flag = true;
+ }, 20);
+ t.addEvent((e) ->
+ {
+ fail("Only supposed to execute until timestamp 20, not 25");
+ }, 25);
+
+ t.executeUntil(t.laterThan(20), 100);
+
+ if (!flag)
+ fail();
+ }
+
+ @Test
+ void multipleInputs()
+ {
+ t.reset();
+ Wire w = new Wire(t, 2, 1);
+ ReadWriteEnd wI1 = w.createReadWriteEnd(), wI2 = w.createReadWriteEnd();
+ wI1.feedSignals(Bit.ONE, Bit.Z);
+ wI2.feedSignals(Bit.Z, Bit.X);
+ t.executeAll();
+ assertBitArrayEquals(w.getValues(), Bit.ONE, Bit.X);
+
+ wI2.feedSignals(Bit.ZERO, Bit.Z);
+ t.executeAll();
+ assertBitArrayEquals(w.getValues(), Bit.X, Bit.Z);
+
+ wI2.feedSignals(Bit.Z, Bit.Z);
+ t.executeAll();
+ assertBitArrayEquals(w.getValues(), Bit.ONE, Bit.Z);
+
+ wI2.feedSignals(Bit.ONE, Bit.Z);
+ ReadEnd rE = w.createReadOnlyEnd();
+ rE.addObserver((i, oldValues) -> fail("WireEnd notified observer, although value did not change."));
+ t.executeAll();
+ rE.close();
+ wI1.feedSignals(Bit.X, Bit.X);
+ t.executeAll();
+ wI1.addObserver((i, oldValues) -> fail("WireEnd notified observer, although it was closed."));
+ wI1.close();
+ assertBitArrayEquals(w.getValues(), Bit.ONE, Bit.Z);
+ }
+
+ @Test
+ void wireConnections()
+ {
+ // Nur ein Experiment, was über mehrere 'passive' Bausteine hinweg passieren würde
+
+ t.reset();
+
+ Wire a = new Wire(t, 1, 2);
+ Wire b = new Wire(t, 1, 2);
+ Wire c = new Wire(t, 1, 2);
+ ReadWriteEnd aI = a.createReadWriteEnd();
+ ReadWriteEnd bI = b.createReadWriteEnd();
+ ReadWriteEnd cI = c.createReadWriteEnd();
+
+ TestBitDisplay test = new TestBitDisplay(t, c.createReadOnlyEnd());
+ TestBitDisplay test2 = new TestBitDisplay(t, a.createReadOnlyEnd());
+ LongConsumer print = time -> System.out.format("Time %2d\n a: %s\n b: %s\n c: %s\n", time, a, b, c);
+
+ cI.feedSignals(Bit.ONE);
+ test.assertAfterSimulationIs(print, Bit.ONE);
+
+ cI.feedSignals(Bit.X);
+ test.assertAfterSimulationIs(print, Bit.X);
+
+ cI.feedSignals(Bit.X);
+ cI.feedSignals(Bit.Z);
+ test.assertAfterSimulationIs(print, Bit.Z);
+
+ new Connector(t, b.createReadWriteEnd(), c.createReadWriteEnd()).connect();
+ test.assertAfterSimulationIs(print, Bit.Z);
+ System.err.println("ONE");
+ bI.feedSignals(Bit.ONE);
+ test.assertAfterSimulationIs(print, Bit.ONE);
+ System.err.println("ZERO");
+ bI.feedSignals(Bit.ZERO);
+ test.assertAfterSimulationIs(print, Bit.ZERO);
+ System.err.println("Z");
+ bI.feedSignals(Bit.Z);
+ test.assertAfterSimulationIs(print, Bit.Z);
+
+ new Connector(t, a.createReadWriteEnd(), b.createReadWriteEnd()).connect();
+ System.err.println("Z 2");
+ aI.feedSignals(Bit.Z);
+ test.assertAfterSimulationIs(print, Bit.Z);
+ test2.assertAfterSimulationIs(Bit.Z);
+ System.err.println("ONE 2");
+ aI.feedSignals(Bit.ONE);
+ test.assertAfterSimulationIs(print, Bit.ONE);
+ test2.assertAfterSimulationIs(Bit.ONE);
+ System.err.println("ZERO 2");
+ aI.feedSignals(Bit.ZERO);
+ test.assertAfterSimulationIs(print, Bit.ZERO);
+ test2.assertAfterSimulationIs(Bit.ZERO);
+ System.err.println("Z 2 II");
+ aI.feedSignals(Bit.Z);
+ test.assertAfterSimulationIs(print, Bit.Z);
+ test2.assertAfterSimulationIs(Bit.Z);
+
+ System.err.println("No Conflict yet");
+ bI.feedSignals(Bit.ONE);
+ test.assertAfterSimulationIs(print, Bit.ONE);
+ test2.assertAfterSimulationIs(Bit.ONE);
+ aI.feedSignals(Bit.ONE);
+ test.assertAfterSimulationIs(print, Bit.ONE);
+ test2.assertAfterSimulationIs(Bit.ONE);
+ System.err.println("Conflict");
+ aI.feedSignals(Bit.ZERO);
+ test.assertAfterSimulationIs(print, Bit.X);
+ test2.assertAfterSimulationIs(Bit.X);
+ aI.feedSignals(Bit.ONE);
+ test.assertAfterSimulationIs(print, Bit.ONE);
+ test2.assertAfterSimulationIs(Bit.ONE);
+ }
+
+ private static void assertBitArrayEquals(BitVector actual, Bit... expected)
+ {
+ assertArrayEquals(expected, actual.getBits());
+ }