public override unsafe void Init(MyObjectBuilder_CubeBlock objectBuilder, MyCubeGrid cubeGrid) { base.SyncFlag = true; MyResourceSinkComponent component = new MyResourceSinkComponent(1); component.Init(this.MotorDefinition.ResourceSinkGroup, this.MotorDefinition.RequiredPowerInput, new Func <float>(this.ComputeRequiredPowerInput)); component.IsPoweredChanged += new Action(this.Receiver_IsPoweredChanged); base.ResourceSink = component; base.Init(objectBuilder, cubeGrid); base.SlimBlock.ComponentStack.IsFunctionalChanged += new Action(this.ComponentStack_IsFunctionalChanged); base.ResourceSink.Update(); this.m_dummyDisplacement.SetLocalValue(0f); this.m_dummyDisplacement.ValueChanged += new Action <SyncBase>(this.m_dummyDisplacement_ValueChanged); this.LoadDummyPosition(); MyObjectBuilder_MotorBase base2 = objectBuilder as MyObjectBuilder_MotorBase; if ((Sync.IsServer && (base2.RotorEntityId != null)) && (base2.RotorEntityId.Value != 0)) { MyMechanicalConnectionBlockBase.State *statePtr1; MyMechanicalConnectionBlockBase.State state = new MyMechanicalConnectionBlockBase.State { TopBlockId = base2.RotorEntityId }; statePtr1->Welded = (base2.WeldedEntityId != null) || base2.ForceWeld; statePtr1 = (MyMechanicalConnectionBlockBase.State *) ref state; base.m_connectionState.Value = state; } base.AddDebugRenderComponent(new MyDebugRenderComponentMotorBase(this)); base.NeedsUpdate |= MyEntityUpdateEnum.EACH_100TH_FRAME; }
private bool isAttached_motor(AttachedGrids partner) { foreach (IMySlimBlock motorBase in allMotorBases) { MyObjectBuilder_MotorBase builder_base = motorBase.GetObjectBuilder() as MyObjectBuilder_MotorBase; long rotorEntityId = builder_base.RotorEntityId; foreach (IMySlimBlock motorRotor in partner.allMotorRotors) { if (rotorEntityId == motorRotor.FatBlock.EntityId) { log("matched " + myGrid.DisplayName + " : " + motorBase.FatBlock.DefinitionDisplayNameText + " to " + partner.myGrid.DisplayName + " : " + motorRotor.FatBlock.DefinitionDisplayNameText, "isAttached_motor()", Logger.severity.TRACE); tryAddAttached(partner); return(true); } } } return(false); }
private static IEnumerable <MyObjectBuilder_CubeBlock> MirrorCubes(IMyCubeGrid shipEntity, bool integrate, MirrorDirection xMirror, int xAxis, MirrorDirection yMirror, int yAxis, MirrorDirection zMirror, int zAxis) { var blocks = new List <MyObjectBuilder_CubeBlock>(); if (xMirror == MirrorDirection.None && yMirror == MirrorDirection.None && zMirror == MirrorDirection.None) { return(blocks); } List <IMySlimBlock> cubeBlocks = new List <IMySlimBlock>(); shipEntity.GetBlocks(cubeBlocks); foreach (var block in cubeBlocks) { MyObjectBuilder_CubeBlock newBlock = (MyObjectBuilder_CubeBlock)block.GetObjectBuilder().Clone(); // Need to use the Min from the GetObjectBuilder(), as block.Position is NOT representative. Vector3I oldMin = newBlock.Min; newBlock.EntityId = 0; MyObjectBuilder_MotorBase motorBase = newBlock as MyObjectBuilder_MotorBase; if (motorBase != null) { motorBase.RotorEntityId = 0; } MyObjectBuilder_PistonBase pistonBase = newBlock as MyObjectBuilder_PistonBase; if (pistonBase != null) { pistonBase.TopBlockId = 0; } MyCubeBlockDefinition definition = MyDefinitionManager.Static.GetCubeBlockDefinition(newBlock); MyCubeBlockDefinition mirrorDefinition; MirrorCubeOrientation(definition, block.Orientation, xMirror, yMirror, zMirror, out mirrorDefinition, out newBlock.BlockOrientation); newBlock.SubtypeName = mirrorDefinition.Id.SubtypeName; if (definition.Size.X == 1 && definition.Size.Y == 1 && definition.Size.Z == 1) { newBlock.Min = oldMin.Mirror(xMirror, xAxis, yMirror, yAxis, zMirror, zAxis); } else { // resolve size of component, and transform to original orientation. var orientSize = definition.Size.Add(-1).Transform(block.Orientation).Abs(); var min = oldMin.Mirror(xMirror, xAxis, yMirror, yAxis, zMirror, zAxis); var blockMax = new SerializableVector3I(oldMin.X + orientSize.X, oldMin.Y + orientSize.Y, oldMin.Z + orientSize.Z); var max = ((Vector3I)blockMax).Mirror(xMirror, xAxis, yMirror, yAxis, zMirror, zAxis); if (xMirror != MirrorDirection.None) { newBlock.Min = new SerializableVector3I(max.X, min.Y, min.Z); } if (yMirror != MirrorDirection.None) { newBlock.Min = new SerializableVector3I(min.X, max.Y, min.Z); } if (zMirror != MirrorDirection.None) { newBlock.Min = new SerializableVector3I(min.X, min.Y, max.Z); } } Vector3I newPosition = ComputePositionInGrid(new MatrixI(newBlock.BlockOrientation), mirrorDefinition, newBlock.Min); // Don't place a block if one already exists there in the mirror. if (integrate && cubeBlocks.Any(b => b.Position.X == newPosition.X && b.Position.Y == newPosition.Y && b.Position.Z == newPosition.Z)) { continue; } //VRage.Utils.MyLog.Default.WriteLineAndConsole($"## CHECK ## new block {newBlock.SubtypeName}"); blocks.Add(newBlock); // Alternate to using AddBlock(). //Quaternion q; //((MyBlockOrientation)newBlock.BlockOrientation).GetQuaternion(out q); //((MyCubeGrid)shipEntity).BuildGeneratedBlock(new MyCubeGrid.MyBlockLocation(mirrorDefinition.Id, newBlock.Min, newBlock.Min, newBlock.Min, q, 0, 0) , newBlock.ColorMaskHSV); } return(blocks); }