/** Copyright (C) 2012-2016 by Autodesk, Inc. All rights reserved. Bridgeport post processor configuration. $Revision: 41369 65a1f6cb57e3c7389dc895ea10958fc2f7947b0d $ $Date: 2017-03-20 14:12:44 $ FORKID {F3119F46-1AEA-47e8-94A1-41460DAD4328} */ description = "Bridgeport DX-32"; vendor = "Bridgeport"; vendorUrl = "http://www.bpt.com"; legal = "Copyright (C) 2012-2016 by Autodesk, Inc."; certificationLevel = 2; minimumRevision = 24000; longDescription = "Bridgeport Torq-Cut DX-32"; extension = "txt"; programNameIsInteger = false; setCodePage("ascii"); capabilities = CAPABILITY_MILLING; tolerance = spatial(0.002, MM); minimumChordLength = spatial(0.01, MM); minimumCircularRadius = spatial(0.01, MM); maximumCircularRadius = spatial(1000, MM); minimumCircularSweep = toRad(0.01); maximumCircularSweep = toRad(180); allowHelicalMoves = true; allowedCircularPlanes = undefined; // allow any circular motion // user-defined properties properties = { writeMachine: true, // write machine writeTools: true, // writes the tools preloadTool: false, // preloads next tool on tool change if any showSequenceNumbers: false, // show sequence numbers sequenceNumberStart: 1, // first sequence number sequenceNumberIncrement: 1, // increment for sequence numbers optionalStop: true, // optional stop separateWordsWithSpace: true, // specifies that the words should be separated with a white space useToolChanger: true, // specifies that a tool changer is available rigidTapping: true, // rigid tapping vs floating tapping usePitchForTapping: true, // G95 = Feed per spindle revolution (pitch) mode (FANUC mode). numberOperations: true, // number operations serialDNC: false, // include percent symbol top and bottom decelerationOverride: false, // deceleration override G9 writeDetails: true // write details }; var numberOfToolSlots = 24; var mapCoolantTable = new Table( [9, 8, 7], {initial:COOLANT_OFF, force:true}, "Invalid coolant mode" ); var gFormat = createFormat({prefix:"G", decimals:0}); var mFormat = createFormat({prefix:"M", decimals:0}); var xyzFormat = createFormat({decimals:(unit == MM ? 3 : 4), forceDecimal:true}); var abcFormat = createFormat({decimals:3, forceDecimal:true, scale:DEG}); var feedFormat = createFormat({decimals:(unit == MM ? 1 : 2), forceDecimal:true}); var toolFormat = createFormat({decimals:0}); var rpmFormat = createFormat({decimals:0}); var secFormat = createFormat({decimals:2, forceDecimal:true}); // seconds - range 0.01-1000 var taperFormat = createFormat({decimals:1, scale:DEG}); var pitchOutput = createFormat({prefix:"F", decimals:(unit == MM ? 3 : 4), forceDecimal:true}); var xOutput = createVariable({prefix:"X"}, xyzFormat); var yOutput = createVariable({prefix:"Y"}, xyzFormat); var zOutput = createVariable({prefix:"Z"}, xyzFormat); var aOutput = createVariable({prefix:"A"}, abcFormat); var bOutput = createVariable({prefix:"B"}, abcFormat); var cOutput = createVariable({prefix:"C"}, abcFormat); var feedOutput = createVariable({prefix:"F"}, feedFormat); var sOutput = createVariable({prefix:"S", force:true}, rpmFormat); // circular output var iOutput = createVariable({prefix:"I", force:true}, xyzFormat); var jOutput = createVariable({prefix:"J", force:true}, xyzFormat); var kOutput = createVariable({prefix:"K", force:true}, xyzFormat); var gMotionModal = createModal({}, gFormat); // modal group 1 // G0-G3, ... var gPlaneModal = createModal({onchange:function () {gMotionModal.reset();}}, gFormat); // modal group 2 // G17-19 var gAbsIncModal = createModal({}, gFormat); // modal group 3 // G90-91 var gFeedModeModal = createModal({}, gFormat); // modal group 4 // G44-45 var gUnitModal = createModal({}, gFormat); // modal group 5 // G70-71 var gCycleModal = createModal({}, gFormat); // modal group 6 // G81, ... var gDecelModal = createModal({}, gFormat); // modal group 7 // G8-9 DECELERATION OVERRIDE var gFeedPitchModal = createModal({}, gFormat); // modal group 8 // G94-95 Pitch feed var WARNING_WORK_OFFSET = 0; // collected state var sequenceNumber; var currentWorkOffset; /** Writes the specified block. */ function writeBlock() { // use / for optional blocks if (properties.showSequenceNumbers) { var words = formatWords(arguments); if (words) { writeWords2("N" + (sequenceNumber % 10000), words); sequenceNumber += properties.sequenceNumberIncrement; } } else { writeWords(arguments); } } function formatComment(text) { return "(" + String(text).replace(/[']/g, "") + ")"; } /** Output a comment. */ function writeComment(text) { writeln(";" + formatComment(text)); } function onOpen() { if (!machineConfiguration.isMachineCoordinate(0)) { aOutput.disable(); } if (!machineConfiguration.isMachineCoordinate(1)) { bOutput.disable(); } if (!machineConfiguration.isMachineCoordinate(2)) { cOutput.disable(); } if (!properties.separateWordsWithSpace) { setWordSeparator(""); } sequenceNumber = properties.sequenceNumberStart; if (properties.serialDNC) { writeln("%"); } if (programName) { writeComment(programName); } if (programComment) { writeComment(programComment); } // Write model and post details if (properties.writeDetails) { writeComment("Bridgeport DX-32"); if (hasGlobalParameter("generated-by")) { var value = getGlobalParameter("generated-by"); writeComment(value); } if (hasGlobalParameter("generated-at")) { var value = getGlobalParameter("generated-at"); var date = new Date(value + ' UTC'); writeComment(date.toString()); } if (hasGlobalParameter("username")) { var value = getGlobalParameter("username"); writeComment(value); } if (hasGlobalParameter("document-path")) { var value = getGlobalParameter("document-path"); writeComment(value); } if (hasGlobalParameter("job-description")) { var value = getGlobalParameter("job-description"); writeComment(value); } } // dump machine configuration var vendor = machineConfiguration.getVendor(); var model = machineConfiguration.getModel(); var description = machineConfiguration.getDescription(); if (properties.writeMachine && (vendor || model || description)) { writeComment(localize("Machine")); if (vendor) { writeComment(" " + localize("vendor") + ": " + vendor); } if (model) { writeComment(" " + localize("model") + ": " + model); } if (description) { writeComment(" " + localize("description") + ": " + description); } } // dump tool information if (properties.writeTools) { var zRanges = {}; if (is3D()) { var numberOfSections = getNumberOfSections(); for (var i = 0; i < numberOfSections; ++i) { var section = getSection(i); var zRange = section.getGlobalZRange(); var tool = section.getTool(); if (zRanges[tool.number]) { zRanges[tool.number].expandToRange(zRange); } else { zRanges[tool.number] = zRange; } } } var tools = getToolTable(); if (tools.getNumberOfTools() > 0) { for (var i = 0; i < tools.getNumberOfTools(); ++i) { var tool = tools.getTool(i); var comment = "T" + toolFormat.format(tool.number) + " " + "D=" + xyzFormat.format(tool.diameter) + " " + localize("CR") + "=" + xyzFormat.format(tool.cornerRadius); if ((tool.taperAngle > 0) && (tool.taperAngle < Math.PI)) { comment += " " + localize("TAPER") + "=" + taperFormat.format(tool.taperAngle) + localize("deg"); } if (zRanges[tool.number]) { comment += " - " + localize("ZMIN") + "=" + xyzFormat.format(zRanges[tool.number].getMinimum()); } comment += " - " + getToolTypeName(tool.type); writeComment(comment); } } } // absolute coordinates and feed per min // G0, G17, G30, G40, G45, G54, G70 or G71, G72, G75, G90, G96 writeBlock(gFormat.format(0), gFormat.format(17), gFormat.format(30), gFormat.format(40), gFeedModeModal.format(45), gFormat.format(72), gFormat.format(75), gFormat.format(80), gAbsIncModal.format(90), gFormat.format(96)); if(properties.decelerationOverride) { writeBlock(gDecelModal.format(8)); } switch (unit) { case IN: writeBlock(gUnitModal.format(70)); break; case MM: writeBlock(gUnitModal.format(71)); break; } onCommand(COMMAND_START_CHIP_TRANSPORT); } function onComment(message) { writeComment(message); } /** Force output of X, Y, and Z. */ function forceXYZ() { xOutput.reset(); yOutput.reset(); zOutput.reset(); } /** Force output of A, B, and C. */ function forceABC() { aOutput.reset(); bOutput.reset(); cOutput.reset(); } /** Force output of X, Y, Z, A, B, C, and F on next output. */ function forceAny() { forceXYZ(); forceABC(); feedOutput.reset(); } function onParameter(name, value) { } var currentWorkPlaneABC = undefined; function forceWorkPlane() { currentWorkPlaneABC = undefined; } function setWorkPlane(abc) { if (!machineConfiguration.isMultiAxisConfiguration()) { return; // ignore } if (!((currentWorkPlaneABC == undefined) || abcFormat.areDifferent(abc.x, currentWorkPlaneABC.x) || abcFormat.areDifferent(abc.y, currentWorkPlaneABC.y) || abcFormat.areDifferent(abc.z, currentWorkPlaneABC.z))) { return; // no change } onCommand(COMMAND_UNLOCK_MULTI_AXIS); // NOTE: add retract here writeBlock( gMotionModal.format(0), conditional(machineConfiguration.isMachineCoordinate(0), "A" + abcFormat.format(abc.x)), conditional(machineConfiguration.isMachineCoordinate(1), "B" + abcFormat.format(abc.y)), conditional(machineConfiguration.isMachineCoordinate(2), "C" + abcFormat.format(abc.z)) ); onCommand(COMMAND_LOCK_MULTI_AXIS); currentWorkPlaneABC = abc; } var closestABC = false; // choose closest machine angles var currentMachineABC; function getWorkPlaneMachineABC(workPlane) { var W = workPlane; // map to global frame var abc = machineConfiguration.getABC(W); if (closestABC) { if (currentMachineABC) { abc = machineConfiguration.remapToABC(abc, currentMachineABC); } else { abc = machineConfiguration.getPreferredABC(abc); } } else { abc = machineConfiguration.getPreferredABC(abc); } try { abc = machineConfiguration.remapABC(abc); currentMachineABC = abc; } catch (e) { error( localize("Machine angles not supported") + ":" + conditional(machineConfiguration.isMachineCoordinate(0), " A" + abcFormat.format(abc.x)) + conditional(machineConfiguration.isMachineCoordinate(1), " B" + abcFormat.format(abc.y)) + conditional(machineConfiguration.isMachineCoordinate(2), " C" + abcFormat.format(abc.z)) ); } var direction = machineConfiguration.getDirection(abc); if (!isSameDirection(direction, W.forward)) { error(localize("Orientation not supported.")); } if (!machineConfiguration.isABCSupported(abc)) { error( localize("Work plane is not supported") + ":" + conditional(machineConfiguration.isMachineCoordinate(0), " A" + abcFormat.format(abc.x)) + conditional(machineConfiguration.isMachineCoordinate(1), " B" + abcFormat.format(abc.y)) + conditional(machineConfiguration.isMachineCoordinate(2), " C" + abcFormat.format(abc.z)) ); } var tcp = true; if (tcp) { setRotation(W); // TCP mode } else { var O = machineConfiguration.getOrientation(abc); var R = machineConfiguration.getRemainingOrientation(abc, W); setRotation(R); } return abc; } function onSection() { var insertToolCall = isFirstSection() || currentSection.getForceToolChange && currentSection.getForceToolChange() || (tool.number != getPreviousSection().getTool().number); var retracted = false; // specifies that the tool has been retracted to the safe plane var newWorkOffset = isFirstSection() || (getPreviousSection().workOffset != currentSection.workOffset); // work offset changes var newWorkPlane = isFirstSection() || !isSameDirection(getPreviousSection().getGlobalFinalToolAxis(), currentSection.getGlobalInitialToolAxis()); if (insertToolCall || newWorkOffset || newWorkPlane) { // retract to safe plane // retracted = true; } if (hasParameter("operation-comment")) { var comment = getParameter("operation-comment"); if (comment && properties.numberOperations && properties.showSequenceNumbers == false) { writeWords2("N" + (sequenceNumber % 10000), ";(" + comment +")"); sequenceNumber += properties.sequenceNumberIncrement; } else if (comment) { writeComment(comment); } } if (insertToolCall) { forceWorkPlane(); retracted = true; onCommand(COMMAND_COOLANT_OFF); if (properties.useToolChanger) { if (!isFirstSection() && properties.optionalStop) { onCommand(COMMAND_OPTIONAL_STOP); } } if (tool.number > numberOfToolSlots) { warning(localize("Tool number exceeds maximum value.")); } if (properties.useToolChanger) { writeBlock("T" + toolFormat.format(tool.number), mFormat.format(6)); // writeBlock("T" + toolFormat.format(tool.number) + "/" + xyzFormat.format(tool.bodyLength) + "/" + xyzFormat.format(tool.cutterDiameter), mFormat.format(6)); } else { var comment = "T" + toolFormat.format(tool.number) + " " + "D=" + xyzFormat.format(tool.diameter) + " " + localize("CR") + "=" + xyzFormat.format(tool.cornerRadius); if ((tool.taperAngle > 0) && (tool.taperAngle < Math.PI)) { comment += " " + localize("TAPER") + "=" + taperFormat.format(tool.taperAngle) + localize("deg"); } comment += " - " + getToolTypeName(tool.type); writeComment(comment); } if (tool.comment) { writeComment(tool.comment); } var showToolZMin = false; if (showToolZMin) { if (is3D()) { var numberOfSections = getNumberOfSections(); var zRange = currentSection.getGlobalZRange(); var number = tool.number; for (var i = currentSection.getId() + 1; i < numberOfSections; ++i) { var section = getSection(i); if (section.getTool().number != number) { break; } zRange.expandToRange(section.getGlobalZRange()); } writeComment(localize("ZMIN") + "=" + zRange.getMinimum()); } } if (properties.useToolChanger && properties.preloadTool) { var nextTool = getNextTool(tool.number); if (nextTool) { writeBlock("T" + toolFormat.format(nextTool.number)); } else { // preload first tool var section = getSection(0); var firstToolNumber = section.getTool().number; if (tool.number != firstToolNumber) { writeBlock("T" + toolFormat.format(firstToolNumber)); } } } if (!properties.useToolChanger) { onCommand(COMMAND_STOP); } } if (insertToolCall || isFirstSection() || (rpmFormat.areDifferent(tool.spindleRPM, sOutput.getCurrent())) || (tool.clockwise != getPreviousSection().getTool().clockwise)) { if (tool.spindleRPM < 1) { error(localize("Spindle speed out of range.")); } if (tool.spindleRPM > 99999) { warning(localize("Spindle speed exceeds maximum value.")); } writeBlock( sOutput.format(tool.spindleRPM), mFormat.format(tool.clockwise ? 3 : 4) ); } // wcs if (insertToolCall) { // force work offset when changing tool currentWorkOffset = undefined; } var workOffset = currentSection.workOffset; if (workOffset == 0) { warningOnce(localize("Work offset has not been specified. Using G54 as WCS."), WARNING_WORK_OFFSET); workOffset = 1; } if (workOffset > 0 && workOffset < 7) { if (workOffset != currentWorkOffset) { writeBlock(gFormat.format(53 + workOffset)); // G54->G59 currentWorkOffset = workOffset; } } else { error(localize("Work offset out of range.")); return; } forceXYZ(); if (machineConfiguration.isMultiAxisConfiguration()) { // use 5-axis indexing for multi-axis mode // set working plane after datum shift var abc = new Vector(0, 0, 0); if (currentSection.isMultiAxis()) { forceWorkPlane(); cancelTransformation(); } else { abc = getWorkPlaneMachineABC(currentSection.workPlane); } setWorkPlane(abc); } else { // pure 3D var remaining = currentSection.workPlane; if (!isSameDirection(remaining.forward, new Vector(0, 0, 1))) { error(localize("Tool orientation is not supported.")); return; } setRotation(remaining); } // set coolant after we have positioned at Z { var c = mapCoolantTable.lookup(tool.coolant); if (c) { writeBlock(mFormat.format(c)); } else { warning(localize("Coolant not supported.")); } } forceAny(); var initialPosition = getFramePosition(currentSection.getInitialPosition()); if (!retracted) { if (getCurrentPosition().z < initialPosition.z) { writeBlock(gMotionModal.format(0), zOutput.format(initialPosition.z)); } } if (insertToolCall || retracted) { gMotionModal.reset(); writeBlock(gPlaneModal.format(17)); if (!machineConfiguration.isHeadConfiguration()) { writeBlock( gAbsIncModal.format(90), gMotionModal.format(0), xOutput.format(initialPosition.x), yOutput.format(initialPosition.y) ); writeBlock(gMotionModal.format(0), zOutput.format(initialPosition.z)); } else { writeBlock( gAbsIncModal.format(90), gMotionModal.format(0), xOutput.format(initialPosition.x), yOutput.format(initialPosition.y), zOutput.format(initialPosition.z) ); } } else { writeBlock( gAbsIncModal.format(90), gMotionModal.format(0), xOutput.format(initialPosition.x), yOutput.format(initialPosition.y) ); } } function onDwell(seconds) { if (seconds > 99999.999) { warning(localize("Dwelling time is out of range.")); } seconds = clamp(0.01, seconds, 99999.99); writeBlock(gFormat.format(4), "/" + secFormat.format(seconds)); } function onSpindleSpeed(spindleSpeed) { writeBlock(sOutput.format(spindleSpeed)); } function onCycle() { writeBlock(gPlaneModal.format(17)); } function getCommonCycle(x, y, z, r) { forceXYZ(); return [xOutput.format(x), yOutput.format(y), "Z" + xyzFormat.format(z)]; } function onCyclePoint(x, y, z) { if (isFirstCyclePoint()) { repositionToCycleClearance(cycle, x, y, z); // return to initial Z which is clearance plane and set absolute mode var F = cycle.feedrate; // var P = (cycle.dwell == 0) ? 0 : clamp(1, cycle.dwell, 99999.999); // in seconds switch (cycleType) { case "drilling": writeBlock( gAbsIncModal.format(90), gCycleModal.format(81), //getCommonCycle(x, y, cycle.depth + cycle.retract), //getCommonCycle(x, y, (cycle.retract)), getCommonCycle(x, y, (cycle.bottom*-1+cycle.clearance)), feedOutput.format(F) ); break; case "counter-boring": if (false) { writeBlock( gAbsIncModal.format(90), gCycleModal.format(82), getCommonCycle(x, y, (cycle.bottom*-1+cycle.clearance)), // "P" + secFormat.format(P), // not optional feedOutput.format(F) ); } else { writeBlock( gAbsIncModal.format(90), gCycleModal.format(81), getCommonCycle(x, y, (cycle.bottom*-1+cycle.clearance)), feedOutput.format(F) ); } break; case "chip-breaking": if (false) { expandCyclePoint(x, y, z); } else { writeBlock( gAbsIncModal.format(90), gCycleModal.format(87), getCommonCycle(x, y, (cycle.bottom*-1+cycle.clearance)), "Z" + xyzFormat.format(cycle.incrementalDepth), feedOutput.format(F) ); } break; case "deep-drilling": if (false) { expandCyclePoint(x, y, z); } else { writeBlock( gAbsIncModal.format(90), gCycleModal.format(83), getCommonCycle(x, y, (cycle.bottom*-1+cycle.clearance)), "Z" + xyzFormat.format(cycle.incrementalDepth), feedOutput.format(F) ); } break; case "tapping": if (!F) { F = tool.getTappingFeedrate(); } if (properties.rigidTapping) { writeBlock(mFormat.format(29)); } if (properties.usePitchForTapping) { writeBlock( gAbsIncModal.format(90), gFeedPitchModal.format(95), gCycleModal.format(84), getCommonCycle(x, y, (cycle.bottom*-1+cycle.clearance)), pitchOutput.format(tool.threadPitch) ); } else { writeBlock( gAbsIncModal.format(90), gFeedPitchModal.format(94), gCycleModal.format(84), getCommonCycle(x, y, (cycle.bottom*-1+cycle.clearance)), feedOutput.format(F) ); } break; case "right-tapping": if (!F) { F = tool.getTappingFeedrate(); } if (properties.rigidTapping) { writeBlock(mFormat.format(29)); } if (properties.usePitchForTapping) { writeBlock( gAbsIncModal.format(90), gFeedPitchModal.format(95), gCycleModal.format(84), getCommonCycle(x, y, (cycle.bottom*-1+cycle.clearance)), pitchOutput.format(tool.threadPitch) ); } else { writeBlock( gAbsIncModal.format(90), gFeedPitchModal.format(94), gCycleModal.format(84), getCommonCycle(x, y, (cycle.bottom*-1+cycle.clearance)), feedOutput.format(F) ); } break; case "left-tapping": if (!F) { F = tool.getTappingFeedrate(); } if (properties.rigidTapping) { writeBlock(mFormat.format(29)); } if (properties.usePitchForTapping) { writeBlock( gAbsIncModal.format(90), gFeedPitchModal.format(95), gCycleModal.format(84), getCommonCycle(x, y, (cycle.bottom*-1+cycle.clearance)), pitchOutput.format(tool.threadPitch) ); } else { writeBlock( gAbsIncModal.format(90), gFeedPitchModal.format(94), gCycleModal.format(84), getCommonCycle(x, y, (cycle.bottom*-1+cycle.clearance)), feedOutput.format(F) ); } break; break; case "fine-boring": // not supported expandCyclePoint(x, y, z); break; case "back-boring": if (false) { expandCyclePoint(x, y, z); } else { var I = cycle.shift * 1; var J = cycle.shift * 0; writeBlock( gAbsIncModal.format(90), gCycleModal.format(87), getCommonCycle(x, y, (cycle.bottom*-1+cycle.clearance)), "I" + xyzFormat.format(I), "J" + xyzFormat.format(J), "K" + xyzFormat.format(cycle.bottom - cycle.backBoreDistance), feedOutput.format(F) ); } break; case "reaming": writeBlock( gAbsIncModal.format(90), gCycleModal.format(85), getCommonCycle(x, y, (cycle.bottom*-1+cycle.clearance)), feedOutput.format(F) ); break; case "stop-boring": writeBlock( gAbsIncModal.format(90), gCycleModal.format(86), getCommonCycle(x, y, (cycle.bottom*-1+cycle.clearance)), feedOutput.format(F) // conditional(P > 0, "P" + secFormat.format(P)), // "P" + secFormat.format(P) // not optional ); break; case "manual-boring": writeBlock( gAbsIncModal.format(90), gCycleModal.format(88), getCommonCycle(x, y, (cycle.bottom*-1+cycle.clearance)), // "P" + secFormat.format(P), // not optional feedOutput.format(F) ); break; case "boring": if (false) { writeBlock( gAbsIncModal.format(90), gCycleModal.format(89), getCommonCycle(x, y, (cycle.bottom*-1+cycle.clearance)), // "P" + secFormat.format(P), // not optional feedOutput.format(F) ); } else { writeBlock( gAbsIncModal.format(90), gCycleModal.format(85), getCommonCycle(x, y, (cycle.bottom*-1+cycle.clearance)), feedOutput.format(F) ); } break; default: expandCyclePoint(x, y, z); } } else { if (cycleExpanded) { expandCyclePoint(x, y, z); } else { var _x = xOutput.format(x); var _y = yOutput.format(y); if (!_x && !_y) { xOutput.reset(); // at least one axis is required _x = xOutput.format(x); } writeBlock(_x, _y); } } } function onCycleEnd() { if (!cycleExpanded) { if (cycleType.match(/tapping/g) && properties.rigidTapping) { writeBlock(mFormat.format(28)); } if (cycleType.match(/tapping/g)) { writeBlock(gFeedPitchModal.format(94)); } writeBlock(gCycleModal.format(80)); zOutput.reset(); } } var pendingRadiusCompensation = -1; function onRadiusCompensation() { pendingRadiusCompensation = radiusCompensation; } function onRapid(_x, _y, _z) { if(properties.decelerationOverride) { writeBlock(gDecelModal.format(8)); } var x = xOutput.format(_x); var y = yOutput.format(_y); var z = zOutput.format(_z); if (x || y || z) { if (pendingRadiusCompensation >= 0) { error(localize("Radius compensation mode cannot be changed at rapid traversal.")); } writeBlock(gMotionModal.format(0), x, y, z); feedOutput.reset(); } } function onLinear(_x, _y, _z, feed) { if(properties.decelerationOverride) { writeBlock(gDecelModal.format(9)); } // at least one axis is required if (pendingRadiusCompensation >= 0) { // ensure that we end at desired position when compensation is turned off xOutput.reset(); yOutput.reset(); } var x = xOutput.format(_x); var y = yOutput.format(_y); var z = zOutput.format(_z); var f = feedOutput.format(feed); var xx = xOutput.format(getCurrentPosition().x); var yy = yOutput.format(getCurrentPosition().y); if (hasParameter("operation:makeSharpCorners")) { var makeSharpCorners = getParameter("operation:makeSharpCorners"); } else { var makeSharpCorners = 0; } if (x || y || z) { if (pendingRadiusCompensation >= 0) { pendingRadiusCompensation = -1; var d = tool.diameterOffset; if (d > numberOfToolSlots) { warning(localize("The diameter offset exceeds the maximum value.")); } switch (radiusCompensation) { case RADIUS_COMPENSATION_LEFT: writeBlock(gPlaneModal.format(17), gFormat.format(1), xx, yy); if (makeSharpCorners) { writeBlock(gCycleModal.format(48)); } else { writeBlock(gCycleModal.format(49)); } writeBlock(gFormat.format(41), xx, yy); writeBlock(gFormat.format(1), x, y, z, f); break; case RADIUS_COMPENSATION_RIGHT: writeBlock(gPlaneModal.format(17), gFormat.format(1), xx, yy); if (makeSharpCorners) { writeBlock(gCycleModal.format(48)); } else { writeBlock(gCycleModal.format(49)); } writeBlock(gFormat.format(42), xx, yy); writeBlock(gFormat.format(1), x, y, z, f); break; default: writeBlock(gFormat.format(1), x, y, z, f); writeBlock(gFormat.format(40)); } } else { writeBlock(gMotionModal.format(1), x, y, z, f); } } else if (f) { if (getNextRecord().isMotion()) { // try not to output feed without motion feedOutput.reset(); // force feed on next line } else { writeBlock(gMotionModal.format(1), f); } } } function onRapid5D(_x, _y, _z, _a, _b, _c) { if (!currentSection.isOptimizedForMachine()) { error(localize("This post configuration has not been customized for 5-axis simultaneous toolpath.")); return; } if (pendingRadiusCompensation >= 0) { error(localize("Radius compensation mode cannot be changed at rapid traversal.")); return; } var x = xOutput.format(_x); var y = yOutput.format(_y); var z = zOutput.format(_z); var a = aOutput.format(_a); var b = bOutput.format(_b); var c = cOutput.format(_c); writeBlock(gMotionModal.format(0), x, y, z, a, b, c); feedOutput.reset(); } function onLinear5D(_x, _y, _z, _a, _b, _c, feed) { if (!currentSection.isOptimizedForMachine()) { error(localize("This post configuration has not been customized for 5-axis simultaneous toolpath.")); return; } // at least one axis is required if (pendingRadiusCompensation >= 0) { error(localize("Radius compensation cannot be activated/deactivated for 5-axis move.")); return; } var x = xOutput.format(_x); var y = yOutput.format(_y); var z = zOutput.format(_z); var a = aOutput.format(_a); var b = bOutput.format(_b); var c = cOutput.format(_c); var f = feedOutput.format(feed); if (x || y || z || a || b || c) { writeBlock(gMotionModal.format(1), x, y, z, a, b, c, f); } else if (f) { if (getNextRecord().isMotion()) { // try not to output feed without motion feedOutput.reset(); // force feed on next line } else { writeBlock(gMotionModal.format(1), f); } } } function onCircular(clockwise, cx, cy, cz, x, y, z, feed) { // one of X/Y and I/J are required and likewise // XY might need to be force when using R-word - only <180deg arcs allowed if (pendingRadiusCompensation >= 0) { error(localize("Radius compensation cannot be activated/deactivated for a circular move.")); return; } if (isFullCircle()) { if (isHelical()) { linearize(tolerance); return; } // TAG: are 360deg arcs supported switch (getCircularPlane()) { case PLANE_XY: writeBlock(gPlaneModal.format(17), gMotionModal.format(clockwise ? 2 : 3), xOutput.format(x), iOutput.format(cx), jOutput.format(cy), feedOutput.format(feed)); break; case PLANE_ZX: writeBlock(gPlaneModal.format(18), gMotionModal.format(clockwise ? 2 : 3), zOutput.format(z), iOutput.format(cx), kOutput.format(cz), feedOutput.format(feed)); break; case PLANE_YZ: writeBlock(gPlaneModal.format(19), gMotionModal.format(clockwise ? 2 : 3), yOutput.format(y), jOutput.format(cy), kOutput.format(cz), feedOutput.format(feed)); break; default: linearize(tolerance); } } else { switch (getCircularPlane()) { case PLANE_XY: writeBlock( gPlaneModal.format(17), gMotionModal.format((isHelical() ? 10 : 0) + (clockwise ? 2 : 3)), // Use G12/G13 // gMotionModal.format(clockwise ? 2 : 3), xOutput.format(x), yOutput.format(y), zOutput.format(z), iOutput.format(cx), jOutput.format(cy), feedOutput.format(feed) ); break; case PLANE_ZX: if (isHelical()) { linearize(tolerance); } else { writeBlock(gPlaneModal.format(18), gMotionModal.format(clockwise ? 2 : 3), xOutput.format(x), yOutput.format(y), zOutput.format(z), iOutput.format(cx), kOutput.format(cz), feedOutput.format(feed)); } break; case PLANE_YZ: if (isHelical()) { linearize(tolerance); } else { writeBlock(gPlaneModal.format(19), gMotionModal.format(clockwise ? 2 : 3), xOutput.format(x), yOutput.format(y), zOutput.format(z), jOutput.format(cy), kOutput.format(cz), feedOutput.format(feed)); } break; default: linearize(tolerance); } } } var mapCommand = { COMMAND_STOP:0, COMMAND_OPTIONAL_STOP:1, COMMAND_END:2, COMMAND_SPINDLE_CLOCKWISE:3, COMMAND_SPINDLE_COUNTERCLOCKWISE:4, COMMAND_STOP_SPINDLE:5, COMMAND_ORIENTATE_SPINDLE:19, COMMAND_LOAD_TOOL:6, COMMAND_COOLANT_ON:8, COMMAND_COOLANT_OFF:9 }; function onCommand(command) { switch (command) { case COMMAND_START_SPINDLE: onCommand(tool.clockwise ? COMMAND_SPINDLE_CLOCKWISE : COMMAND_SPINDLE_COUNTERCLOCKWISE); return; case COMMAND_LOCK_MULTI_AXIS: return; case COMMAND_UNLOCK_MULTI_AXIS: return; case COMMAND_BREAK_CONTROL: return; case COMMAND_TOOL_MEASURE: return; case COMMAND_START_CHIP_TRANSPORT: return; case COMMAND_STOP_CHIP_TRANSPORT: return; } var stringId = getCommandStringId(command); var mcode = mapCommand[stringId]; if (mcode != undefined) { writeBlock(mFormat.format(mcode)); } else { onUnsupportedCommand(command); } } function onSectionEnd() { writeBlock(gPlaneModal.format(17)); forceAny(); } function onClose() { onCommand(COMMAND_COOLANT_OFF); setWorkPlane(new Vector(0, 0, 0)); // reset working plane onCommand(COMMAND_STOP_CHIP_TRANSPORT); onImpliedCommand(COMMAND_END); onCommand(COMMAND_STOP_SPINDLE); writeBlock(gFormat.format(90)); writeBlock(mFormat.format(22)); // end of program, stop spindle, coolant off if (properties.serialDNC) { writeln("%"); } }