コード例 #1
0
        private void ExecuteExtendedFunction(string line)
        {
            var    lineParts    = line.Split(':');
            string functionName = lineParts[0].ToUpper();
            string parameters   = lineParts.Length > 1 ? lineParts[1] : "";

            switch (functionName)
            {
            case "!Z-TOP":
                _machine.MoveZServo(_machine.Settings.ZServoTopPosition);
                _machine.SendDwell(500);
                break;

            case "!Z-BOTTOM":
                _machine.MoveZServo(_machine.Settings.ZServoBottomPosition, true);
                break;

            case "!Z-LOAD":
                _machine.MoveZServo(_machine.Settings.ZServoLoadPosition);
                _machine.SendDwell(500);
                break;

            case "!END":
                ProgramFinished = true;
                break;

            case "!EXEC":
                ExecuteCode(GCodeFunctions.ExecuteGCodeFile(parameters), true);
                break;

            default:
                throw new Exception("Invalid extended function");
            }
        }
コード例 #2
0
        public void ExecuteCode(List <string> gCode, bool nestedCall = false)
        {
            int  linesParsed  = 0;
            int  linesToParse = gCode.Count;
            bool cancel       = false;

            SetMachineWorkingOffset();

            // Header File
            if (!nestedCall && _machine.Settings.ExecHeaderFile.Length > 0)
            {
                ExecuteCode(GCodeFunctions.ExecuteGCodeFile(_machine.Settings.ExecHeaderFile), true);
            }

            foreach (string line in gCode)
            {
                if (ProgramFinished)
                {
                    break;
                }

                string normalizedLine = line.Split('/')[0];             // The '/' signifies a remark to the end of the line
                normalizedLine = normalizedLine.Split('(')[0];          // The '(' signifies an inline/multiline remark in standard Gcode, but we're only treating it as a line comment or end of line comment
                normalizedLine = normalizedLine.Trim();

                // Raise event to notify caller of progress
                linesParsed++;
                if (!nestedCall && OnProgressNotify != null)
                {
                    OnProgressNotify(string.Format("Parsing G-Code: {0} of {1}", linesParsed, linesToParse), out cancel);
                }

                if (cancel)
                {
                    break;
                }
                if (normalizedLine.Length == 0)
                {
                    continue;
                }

                // --- Extended (non-gcode) functions begin with a '!'
                if (normalizedLine.StartsWith("!"))
                {
                    ExecuteExtendedFunction(normalizedLine);
                }

                // --- Everything else is gcode
                else
                {
                    var blocks = GCodeBlock.Parse(normalizedLine);

                    foreach (var block in blocks)
                    {
                        if (block.G.HasValue || block.T.HasValue)
                        {
                            ExecuteGBlock(block);
                        }
                        if (block.M.HasValue)
                        {
                            ExecuteMBlock(block);
                        }
                    }
                }
            }

            // Footer File
            if (!nestedCall && _machine.Settings.ExecFooterFile.Length > 0)
            {
                ExecuteCode(GCodeFunctions.ExecuteGCodeFile(_machine.Settings.ExecFooterFile), true);
            }
        }
コード例 #3
0
        private void ExecuteGBlock(GCodeBlock block)
        {
            // Remember sticky words for subsequent operations
            if (block.F.HasValue)
            {
                G1FeedRate = (int)Math.Floor((double)block.F);
            }
            if (block.Q.HasValue)
            {
                _drillDepthIncrement = (double)block.Q;
            }
            if (block.R.HasValue)
            {
                _drillSurfaceStart = (double)block.R;
            }
            if (block.P.HasValue)
            {
                _dwellDurationMS = (int)Math.Abs((Math.Floor((double)block.P)));
            }

            // Set Absolute coordinate mode
            if (block.G == 90)
            {
                AbsoluteMode = true;
            }

            // Set Incremental coordinate mode
            if (block.G == 91)
            {
                AbsoluteMode = false;
            }

            // Causes next G0, G1, G2, or G3 to use Machine coordinate system - only applies once
            if (block.G == 53)
            {
                _oneTimeMachineCoordinateSystem = true;
            }

            // G49 cancels G43
            if (block.G == 49)
            {
                ToolLengthCompensation = false;
                SetMachineWorkingOffset();
            }

            // G43 - Sets tool length compensation
            if (block.G == 43)
            {
                ToolLengthCompensation = true;
                SetMachineWorkingOffset();
            }

            // G53 - G59 -- Working Coordinate System change
            if (block.G >= 54 && block.G <= 59)
            {
                SetWorkspaceOffset((double)block.G);
            }

            if (block.T >= 1 && block.T <= 9)
            {
                SetToolOffset((double)block.T);
            }

            // G00 - Rapid Traverse
            if (block.G == 0)
            {
                BeforeMoveSetMCS();
                _machine.MoveTo(GetMoveTargetCoordinate(block), !AbsoluteMode, false, _machine.Settings.FeedRateMaximum);
                AfterMoveRevertMCS();
            }

            // G01 - Line to
            if (block.G == 1)
            {
                BeforeMoveSetMCS();
                _machine.MoveTo(GetMoveTargetCoordinate(block), !AbsoluteMode, true, G1FeedRate);
                AfterMoveRevertMCS();
            }

            // G02/G03 - Arc clockwise/counter-clockwise to a point (Does not currently support Incremental mode)
            if (block.G == 2 || block.G == 3)
            {
                bool clockwise = block.G == 2;
                if (!block.I.HasValue)
                {
                    block.I = 0;
                }
                if (!block.J.HasValue)
                {
                    block.J = 0;
                }

                if (block.I == 0 && block.J == 0)
                {
                    throw new Exception("I and J may not both be zero for a g02/g03");
                }

                var machineLocation = _machine.GetWorkingLocation();
                var finish          = GetMoveTargetCoordinate(block);
                var center          = new Coordinate(machineLocation.X + (double)block.I, machineLocation.Y + (double)block.J, machineLocation.Z);

                //TODO: make sure this supports incremental mode (which I don't think it does now)
                BeforeMoveSetMCS();
                ExecuteCode(GCodeFunctions.GenerateArc(machineLocation, finish, center, clockwise), true);
                AfterMoveRevertMCS();
            }

            // G4 - Pause in milliseconds. EG: G04 P250 -- P is sticky
            if (block.G == 4)
            {
                _machine.SendDwell(_dwellDurationMS);
            }

            // G83 - Drilling cycle with pecks: Accepts X, Y, Z, P (Depth increment), Q (Dwell time in ms) and R (Work surface Z) values
            //       P, Q and R are sticky
            if (block.G == 83 || block.G == 82 || block.G == 81)
            {
                _oneTimeMachineCoordinateSystem = false;        // Not supported for G83
                var location = GetMoveTargetCoordinate(block);
                ExecuteCode(GCodeFunctions.GeneratePeckingDrillCycle(location, _drillDepthIncrement, _dwellDurationMS, _drillSurfaceStart), true);
            }
        }