func (vm *Machine) setMoveMode(stmt *gcode.Block) { if w, err := stmt.GetModalGroup("motionGroup"); err == nil { if w != nil { if w.Address != 'G' { unknownCommand("motionGroup", w) } switch w.Command { case 0: vm.State.MoveMode = MoveModeRapid case 1: vm.State.MoveMode = MoveModeLinear case 2: vm.State.MoveMode = MoveModeCWArc case 3: vm.State.MoveMode = MoveModeCCWArc case 80: vm.State.MoveMode = MoveModeNone default: unknownCommand("motionGroup", w) } stmt.Remove(w) } } else { propagate(err) } }
func (vm *Machine) setCoolant(stmt *gcode.Block) { // TODO Handle M7 and M8 on same line if w, err := stmt.GetModalGroup("coolantGroup"); err == nil { if w != nil { if w.Address != 'M' { unknownCommand("coolantGroup", w) } switch w.Command { case 7: vm.State.MistCoolant = true case 8: vm.State.FloodCoolant = true case 9: vm.State.MistCoolant = false vm.State.FloodCoolant = false default: unknownCommand("coolantGroup", w) } stmt.Remove(w) } } else { propagate(err) } }
func (vm *Machine) setSpindle(stmt *gcode.Block) { if w, err := stmt.GetModalGroup("spindleGroup"); err == nil { if w != nil { if w.Address != 'M' { unknownCommand("spindleGroup", w) } switch w.Command { case 3: vm.State.SpindleEnabled = true vm.State.SpindleClockwise = true case 4: vm.State.SpindleEnabled = true vm.State.SpindleClockwise = false case 5: vm.State.SpindleEnabled = false default: unknownCommand("spindleGroup", w) } stmt.Remove(w) } } else { propagate(err) } }
func (vm *Machine) feedRateMode(stmt *gcode.Block) { if w, err := stmt.GetModalGroup("feedRateModeGroup"); err == nil { if w != nil { if w.Address != 'G' { unknownCommand("feedRateModeGroup", w) } oldMode := vm.State.FeedMode switch w.Command { case 93: vm.State.FeedMode = FeedModeInvTime case 94: vm.State.FeedMode = FeedModeUnitsMin case 95: vm.State.FeedMode = FeedModeUnitsRev default: unknownCommand("feedRateModeGroup", w) } if vm.State.FeedMode != oldMode { // Ensure that feedrate is cleared vm.State.Feedrate = 0 } stmt.Remove(w) } } else { propagate(err) } }
func (vm *Machine) setCoordinateSystem(stmt *gcode.Block) { // TODO Implement coordinate system offsets! if w, err := stmt.GetModalGroup("coordinateSystemGroup"); err == nil { if w != nil { if w.Address != 'G' { unknownCommand("coordinateSystemGroup", w) } if vm.State.CutterCompensation != CutCompModeNone { invalidCommand("coordinateSystemGroup", "coordinate system select", "Coordinate system change attempted with cutter compensation enabled") } switch w.Command { case 54: vm.CoordinateSystem.SelectCoordinateSystem(1) case 55: vm.CoordinateSystem.SelectCoordinateSystem(2) case 56: vm.CoordinateSystem.SelectCoordinateSystem(3) case 57: vm.CoordinateSystem.SelectCoordinateSystem(4) case 58: vm.CoordinateSystem.SelectCoordinateSystem(5) case 59: vm.CoordinateSystem.SelectCoordinateSystem(6) case 59.1: vm.CoordinateSystem.SelectCoordinateSystem(7) case 59.2: vm.CoordinateSystem.SelectCoordinateSystem(8) case 59.3: vm.CoordinateSystem.SelectCoordinateSystem(9) default: unknownCommand("coordinateSystemGroup", w) } stmt.Remove(w) } } else { propagate(err) } }
func (vm *Machine) setArcDistanceMode(stmt *gcode.Block) { if w, err := stmt.GetModalGroup("arcDistanceModeGroup"); err == nil { if w != nil { if w.Address != 'G' { unknownCommand("arcDistanceModeGroup", w) } switch w.Command { case 90.1: vm.AbsoluteArc = true case 91.1: vm.AbsoluteArc = false default: unknownCommand("arcDistanceModeGroup", w) } stmt.Remove(w) } } else { propagate(err) } }
func (vm *Machine) setToolLength(stmt *gcode.Block) { if w, err := stmt.GetModalGroup("toolLengthGroup"); err == nil { if w != nil { if w.Address != 'G' { unknownCommand("toolLengthGroup", w) } switch w.Command { case 43: // Ignore! fmt.Fprintf(os.Stderr, "Warning: G43 issued and ignored.\n") stmt.RemoveAddress('H') default: unknownCommand("toolLengthGroup", w) } stmt.Remove(w) } } else { propagate(err) } }
func (vm *Machine) setUnits(stmt *gcode.Block) { if w, err := stmt.GetModalGroup("unitsGroup"); err == nil { if w != nil { if w.Address != 'G' { unknownCommand("unitsGroup", w) } switch w.Command { case 20: vm.Imperial = true case 21: vm.Imperial = false default: unknownCommand("unitsGroup", w) } stmt.Remove(w) } } else { propagate(err) } }
func (vm *Machine) setStop(stmt *gcode.Block) { // TODO implement if w, err := stmt.GetModalGroup("stoppingGroup"); err == nil { if w != nil { if w.Address != 'M' { unknownCommand("stoppingGroup", w) } switch w.Command { case 2: vm.Completed = true case 30: vm.Completed = true default: unknownCommand("stoppingGroup", w) } stmt.Remove(w) } } else { propagate(err) } }
func (vm *Machine) setCutterCompensation(stmt *gcode.Block) { if w, err := stmt.GetModalGroup("cutterCompensationModeGroup"); err == nil { if w != nil { if w.Address != 'G' { unknownCommand("cutterCompensationModeGroup", w) } switch w.Command { case 40: vm.State.CutterCompensation = CutCompModeNone case 41: vm.State.CutterCompensation = CutCompModeOuter case 42: vm.State.CutterCompensation = CutCompModeInner default: unknownCommand("cutterCompensationModeGroup", w) } stmt.Remove(w) } } else { propagate(err) } }
func (vm *Machine) setPlane(stmt *gcode.Block) { if w, err := stmt.GetModalGroup("planeSelectionGroup"); err == nil { if w != nil { if w.Address != 'G' { unknownCommand("planeSelectionGroup", w) } switch w.Command { case 17: vm.MovePlane = PlaneXY case 18: vm.MovePlane = PlaneXZ case 19: vm.MovePlane = PlaneYZ default: unknownCommand("planeSelectionGroup", w) } stmt.Remove(w) } } else { propagate(err) } }
func (vm *Machine) toolChange(stmt *gcode.Block) { if w, err := stmt.GetModalGroup("toolChangeGroup"); err == nil { if w != nil { if w.Address != 'M' { unknownCommand("toolChangeGroup", w) } switch w.Command { case 6: if vm.NextTool == -1 { panic("Toolchange attempted without a defined tool") } vm.State.Tool = vm.NextTool default: unknownCommand("toolChangeGroup", w) } stmt.Remove(w) } } else { propagate(err) } }
func (vm *Machine) nonModals(stmt *gcode.Block) { if w, err := stmt.GetModalGroup("nonModalGroup"); err == nil { if w != nil { if w.Address != 'G' { unknownCommand("nonModalGroup", w) } switch w.Command { case 4: if val, err := stmt.GetWord('P'); err == nil { if val < 0 { invalidCommand("nonModalGroup", "dwell", "P word negative") } vm.dwell(val) } else { invalidCommand("nonModalGroup", "dwell", "P word not specified or specified multiple times") } stmt.RemoveAddress('P') case 10: if val, err := stmt.GetWord('L'); err == nil { if val == 2 { // Set coordinate system offsets if cs, err := stmt.GetWord('P'); err == nil { cs := int(cs) x, y, z := stmt.GetWordDefault('X', 0), stmt.GetWordDefault('Y', 0), stmt.GetWordDefault('Z', 0) x, y, z = vm.axesToMetric(x, y, z) vm.CoordinateSystem.SetCoordinateSystem(x, y, z, cs) stmt.RemoveAddress('X', 'Y', 'Z') } else { invalidCommand("nonModalGroup", "coordinate system configuration", "P word not specified or specified multiple times") } stmt.RemoveAddress('P') } } else { invalidCommand("nonModalGroup", "G10 configuration", "L word not specified or specified multiple times") } stmt.RemoveAddress('L') case 28: oldMode := vm.State.MoveMode vm.State.MoveMode = MoveModeRapid if stmt.IncludesOneOf('X', 'Y', 'Z') { newX, newY, newZ, _, _, _ := vm.calcPos(*stmt) vm.move(newX, newY, newZ) stmt.RemoveAddress('X', 'Y', 'Z') } vm.move(vm.StoredPos1.X, vm.StoredPos1.Y, vm.StoredPos1.Z) vm.State.MoveMode = oldMode case 28.1: pos := vm.curPos() vm.StoredPos1 = pos.Vector() case 30: oldMode := vm.State.MoveMode vm.State.MoveMode = MoveModeRapid if stmt.IncludesOneOf('X', 'Y', 'Z') { newX, newY, newZ, _, _, _ := vm.calcPos(*stmt) vm.move(newX, newY, newZ) stmt.RemoveAddress('X', 'Y', 'Z') } vm.move(vm.StoredPos2.X, vm.StoredPos2.Y, vm.StoredPos2.Z) vm.State.MoveMode = oldMode case 30.1: pos := vm.curPos() vm.StoredPos2 = pos.Vector() case 53: vm.CoordinateSystem.Override() case 92: if stmt.IncludesOneOf('X', 'Y', 'Z') { cp := vm.curPos() x, y, z := stmt.GetWordDefault('X', 0), stmt.GetWordDefault('Y', 0), stmt.GetWordDefault('Z', 0) x, y, z = vm.axesToMetric(x, y, z) vm.CoordinateSystem.DisableOffset() x, y, z = vm.CoordinateSystem.ApplyCoordinateSystem(x, y, z) diffX, diffY, diffZ := cp.X-x, cp.Y-y, cp.Z-z vm.CoordinateSystem.SetOffset(diffX, diffY, diffZ) vm.CoordinateSystem.EnableOffset() stmt.RemoveAddress('X', 'Y', 'Z') } else { invalidCommand("nonModalGroup", "G92 configuration", "No axis words specified") } case 92.1: vm.CoordinateSystem.EraseOffset() case 92.2: vm.CoordinateSystem.DisableOffset() case 92.3: vm.CoordinateSystem.EnableOffset() default: unknownCommand("nonModalGroup", w) } stmt.Remove(w) } } else { propagate(err) } }