public bool PointRotor(IMyTerminalBlock rotor, double ang, double speed = 10) { double targAng = ang * 57.2958; if (!rotors.ContainsKey(rotor)) { rotors.Add(rotor, new ROTORPID(targAng, -speed, speed, false)); } rotors[rotor].SetPoint = targAng; double currentAngle = (rotor as IMyMotorStator).Angle * 57.2958; if (currentAngle > 180) currentAngle -= 360; double deltaAng = targAng - currentAngle; if (deltaAng > 180) deltaAng -= 360; if (deltaAng < -180) deltaAng += 360; double rpm = rotors[rotor].Compute(currentAngle); if (rotors[rotor].lastError > -0.1 && rotors[rotor].lastError < 0.1) { rotor.SetValueFloat("Velocity", 0); rotors.Remove(rotor); return true; } rotor.SetValueFloat("Velocity", (float)rpm); return false; }
public bool PointRotor(IMyTerminalBlock rotor, Vector3D targ, IMyTerminalBlock reference) { double targAng = GetTargetRotorAngle(rotor, targ, reference) * 57.2958; if (!rotors.ContainsKey(rotor)) { rotors.Add(rotor, new ROTORPID(targAng, -10, 10, false)); } rotors[rotor].SetPoint = targAng; double currentAngle = (rotor as IMyMotorStator).Angle * 57.2958; if (currentAngle > 180) currentAngle -= 360; double rpm = rotors[rotor].Compute(currentAngle); rotor.SetValueFloat("Velocity", (float)rpm); return false; }
public void ExecuteInstruction() { if (Instructions.Count <= 0 || Instructions.Count < Line) { return; } Instruction instruction = Instructions[Line]; string name, mode, action, search, property, source; float value1 = 0f; float value2 = 0f; float epsilon = 0.1f; bool bool1 = false; bool bool2 = false; Object var; switch (instruction.Command) { case Command.Comment: Line++; break; case Command.Var: // var <var name> <float value> name = instruction.Fields[0]; ParseFieldFloat(instruction.Fields[1], out value1); Vars.Add(name, value1); Line++; break; case Command.Add: case Command.Sub: case Command.Mul: case Command.Div: // <operator> <var name> <var name|float value> <float value> name = instruction.Fields[0]; ParseFieldFloat(instruction.Fields[1], out value1); ParseFieldFloat(instruction.Fields[2], out value2); float result = 0f; switch (instruction.Command) { case Command.Add: result = value1 + value2; break; case Command.Sub: result = value1 - value2; break; case Command.Mul: result = value1 * value2; break; case Command.Div: result = value1 / value2; break; } Vars[name] = result; Line++; break; case Command.Print: bool append = true; string message = ParseFieldString(instruction.Fields[0]); message = "\n" + message; if (instruction.Fields.Count > 1) { List <string> args = new List <string>(); for (int i = 1; i < instruction.Fields.Count; i++) { float value; ParseFieldFloat(instruction.Fields[1], out value); args.Add(value.ToString()); } myProgram.drawingSurface.WriteText(string.Format(message, args.ToArray()), append); } else { myProgram.drawingSurface.WriteText(message, append); } Line++; break; case Command.Select: // select <var name> <mode> <string value> //myProgram.drawingSurface.WriteText($"\nSelect fields={instruction.Fields.Count}", true); name = instruction.Fields[0]; mode = instruction.Fields[1]; search = instruction.Fields[2]; List <IMyTerminalBlock> blocks = new List <IMyTerminalBlock>(); switch (mode) { case "tag": myProgram.GridTerminalSystem.GetBlocksOfType <IMyTerminalBlock>(blocks, myBlock => myBlock.CustomName.Contains(search)); if (blocks.Count > 0) { Vars.Add(name, blocks); } break; case "group": IMyBlockGroup group = myProgram.GridTerminalSystem.GetBlockGroupWithName(search); group.GetBlocks(blocks); if (blocks.Count > 0) { Vars.Add(name, blocks); } break; default: IMyTerminalBlock block = myProgram.GridTerminalSystem.GetBlockWithName(search); if (block != null) { blocks.Add(block); Vars.Add(name, blocks); } break; } Line++; break; case Command.Action: // action <var name> <action> name = instruction.Fields[0]; action = instruction.Fields[1]; Vars.TryGetValue(name, out var); if (instruction.Fields.Count == 3) { ParseFieldFloat(instruction.Fields[2], out value1); } if (var != null) { blocks = (List <IMyTerminalBlock>)var; blocks.ForEach(delegate(IMyTerminalBlock block) { block.ApplyAction(action); }); } Line++; break; case Command.Set: // set <var name> <property> <value> name = instruction.Fields[0]; property = instruction.Fields[1]; Vars.TryGetValue(name, out var); if (var != null) { if (var is List <IMyTerminalBlock> ) { blocks = (List <IMyTerminalBlock>)var; if (blocks.Count > 0) { IMyTerminalBlock firstBlock = blocks[0]; ITerminalProperty prop = firstBlock.GetProperty(property); //myProgram.drawingSurface.WriteText($"\nProperty={prop.TypeName}", true); switch (prop.TypeName) { case "Single": ParseFieldFloat(instruction.Fields[2], out value1); break; case "Boolean": ParseFieldBool(instruction.Fields[2], out bool1); break; } blocks.ForEach(delegate(IMyTerminalBlock block) { switch (prop.TypeName) { case "Single": block.SetValueFloat(property, value1); break; case "Boolean": block.SetValueBool(property, bool1); break; } }); } } } Line++; break; case Command.Get: // get <var name> <property> <var name> name = instruction.Fields[0]; property = instruction.Fields[1]; source = instruction.Fields[2]; Vars.TryGetValue(source, out var); if (var != null) { if (var is List <IMyTerminalBlock> ) { blocks = (List <IMyTerminalBlock>)var; if (blocks.Count > 0) { IMyTerminalBlock firstBlock = blocks[0]; ITerminalProperty prop = firstBlock.GetProperty(property); switch (prop.TypeName) { case "Single": Vars.Add(name, firstBlock.GetValueFloat(property)); break; case "Boolean": Vars.Add(name, firstBlock.GetValueBool(property)); break; } } } } Line++; break; case Command.Wait: // wait <var name> <property> <value> <epsilon> name = instruction.Fields[0]; property = instruction.Fields[1]; if (instruction.Fields.Count > 3) { ParseFieldFloat(instruction.Fields[3], out epsilon); } Vars.TryGetValue(name, out var); bool isState = true; if (var != null) { if (var is List <IMyTerminalBlock> ) { blocks = (List <IMyTerminalBlock>)var; if (blocks.Count > 0) { ITerminalProperty prop = null; IMyTerminalBlock firstBlock = blocks[0]; prop = firstBlock.GetProperty(property); if (prop == null) { switch (GetAttibutType(property)) { case "Single": ParseFieldFloat(instruction.Fields[2], out value1); break; case "Boolean": ParseFieldBool(instruction.Fields[2], out bool1); break; } } else { switch (prop.TypeName) { case "Single": ParseFieldFloat(instruction.Fields[2], out value1); break; case "Boolean": ParseFieldBool(instruction.Fields[2], out bool1); break; } break; } blocks.ForEach(delegate(IMyTerminalBlock block) { if (prop == null) { switch (GetAttibutType(property)) { case "Single": value2 = GetAttibutFloat(block, property); if (Math.Abs(value2 - value1) > epsilon) { isState = false; } break; case "Boolean": bool2 = GetAttibutBool(block, property); if (bool2 != bool1) { isState = false; } break; } } else { switch (prop.TypeName) { case "Single": value2 = block.GetValueFloat(property); if (Math.Abs(value2 - value1) > epsilon) { isState = false; } break; case "Boolean": bool2 = block.GetValueBool(property); if (bool2 != bool1) { isState = false; } break; } } }); } } } if (isState) { Line++; } break; } }