1 package net.mograsim.logic.model.am2900.am2901;
3 import java.util.ArrayList;
4 import java.util.Comparator;
7 import net.mograsim.logic.core.types.Bit;
8 import net.mograsim.logic.core.types.BitVector;
9 import net.mograsim.logic.model.SimpleLogicUIStandalone;
10 import net.mograsim.logic.model.SimpleLogicUIStandalone.VisualisationObjects;
11 import net.mograsim.logic.model.model.ViewModelModifiable;
12 import net.mograsim.logic.model.model.components.GUIComponent;
13 import net.mograsim.logic.model.model.components.atomic.GUIAndGate;
14 import net.mograsim.logic.model.model.components.atomic.GUIBitDisplay;
15 import net.mograsim.logic.model.model.components.atomic.GUIManualSwitch;
16 import net.mograsim.logic.model.model.components.atomic.GUINotGate;
17 import net.mograsim.logic.model.model.components.atomic.TextComponent;
18 import net.mograsim.logic.model.model.wires.Pin;
19 import net.mograsim.logic.model.model.wires.PinUsage;
20 import net.mograsim.logic.model.model.wires.WireCrossPoint;
21 import net.mograsim.logic.model.serializing.IndirectGUIComponentCreator;
22 import net.mograsim.logic.model.util.ModellingTool;
24 public class Am2901Testbench
26 public static void main(String[] args)
28 SimpleLogicUIStandalone.executeVisualisation(Am2901Testbench::createTestbench, Am2901Testbench::beforeRun);
31 public static void createTestbench(ViewModelModifiable model)
33 GUIComponent comp = IndirectGUIComponentCreator.createComponent(model, "GUIAm2901");
34 ModellingTool tool = ModellingTool.createFor(model);
38 GUIManualSwitch enable = new GUIManualSwitch(model, 1);
39 WireCrossPoint wcp0 = new WireCrossPoint(model, 1);
40 GUINotGate not1 = new GUINotGate(model, 1);
41 GUINotGate not2 = new GUINotGate(model, 1);
42 GUINotGate not3 = new GUINotGate(model, 1);
43 GUIAndGate and = new GUIAndGate(model, 1);
44 tool.connect(wcp0, enable, "");
45 tool.connect(wcp0, and, "A");
46 tool.connect(wcp0, not1, "A");
47 tool.connect(not1, not2, "Y", "A");
48 tool.connect(not2, not3, "Y", "A");
49 tool.connect(not3, and, "Y", "B");
50 enable.moveTo(20, -32.5);
54 not3.moveTo(110, -20);
56 Pin last = and.getPin("Y");
58 List<String> inputPinNames = new ArrayList<>();
59 List<String> outputPinNames = new ArrayList<>();
60 for (Pin p : comp.getPins().values())
61 if (p.usage == PinUsage.INPUT)
62 inputPinNames.add(p.name);
64 outputPinNames.add(p.name);
66 inputPinNames.sort(Comparator.comparing(comp::getPin, Comparator.comparing(Pin::getRelY)));
67 outputPinNames.sort(Comparator.comparing(comp::getPin, Comparator.comparing(Pin::getRelY)));
69 for (int i = 0; i < inputPinNames.size(); i++)
71 double x = 55 + 70 * (i % 2);
74 WireCrossPoint wcp = new WireCrossPoint(model, 1);
75 GUIComponent d_ff = IndirectGUIComponentCreator.createComponent(model, "GUIdff");
76 GUIManualSwitch sw = new GUIManualSwitch(model, 1);
78 tool.connect(last, wcp);
79 tool.connect(wcp, d_ff, "C");
80 tool.connect(sw, d_ff, "", "D");
81 tool.connect(d_ff, comp, "Q", inputPinNames.get(i));
84 TextComponent label = new TextComponent(model, inputPinNames.get(i));
86 sw.moveTo(x, y + 7.5);
89 label.moveTo(x - 48, y + 8);
92 for (int i = 0; i < outputPinNames.size(); i++)
94 double x = 300 + 75 * (i % 2);
95 double y = 10 * i - 2.5;
96 GUIBitDisplay bd = new GUIBitDisplay(model, 1);
98 tool.connect(bd.getInputPin(), comp, outputPinNames.get(i));
100 TextComponent label = new TextComponent(model, outputPinNames.get(i));
101 label.moveTo(x + 25, y);
105 public static void beforeRun(VisualisationObjects vis)
107 vis.model.getComponentsByName().values().forEach(c ->
109 if (c instanceof GUIManualSwitch)
111 GUIManualSwitch cCasted = (GUIManualSwitch) c;
112 cCasted.setHighLevelState("out", BitVector.of(Bit.ZERO, cCasted.logicWidth));