예제 #1
0
        public virtual void testSetPhaseJMF()
        {
            JDFDoc        docJMF = new JDFDoc("JMF");
            JDFJMF        jmf    = docJMF.getJMFRoot();
            JDFSignal     sig    = jmf.appendSignal(EnumType.Status);
            JDFDeviceInfo di     = sig.appendDeviceInfo();

            di.appendEmployee().setPersonalID("p1");
            JDFJobPhase phase = di.appendJobPhase();

            phase.setPhaseStartTime(new JDFDate());
            phase.setStatus(EnumNodeStatus.Setup);
            phase.setJobID(jdfRoot.getJobID(true));
            phase.setJobPartID(jdfRoot.getJobPartID(true));

            VElement el = myAuditPool.setPhase(jmf);

            Assert.IsNotNull(el);
            Assert.AreEqual(1, myAuditPool.getChildElementVector(ElementName.PHASETIME, null, null, true, 0, true).Count);
            Assert.IsNotNull(((JDFPhaseTime)myAuditPool.getAudit(0, EnumAuditType.PhaseTime, null, null)).getEmployee(0));
            Assert.AreEqual(el, myAuditPool.getChildElementVector(ElementName.PHASETIME, null, null, true, 0, true));

            el = myAuditPool.setPhase(jmf);
            Assert.IsNotNull(el);
            Assert.AreEqual(1, myAuditPool.getChildElementVector(ElementName.PHASETIME, null, null, true, 0, true).Count);
            Assert.AreEqual(el, myAuditPool.getChildElementVector(ElementName.PHASETIME, null, null, true, 0, true));

            phase.setStatus(EnumNodeStatus.Aborted);
            el = myAuditPool.setPhase(jmf);
            Assert.IsNotNull(el);
            Assert.AreEqual(2, myAuditPool.getChildElementVector(ElementName.PHASETIME, null, null, true, 0, true).Count);
            Assert.AreEqual(el[0], myAuditPool.getChildElementVector(ElementName.PHASETIME, null, null, true, 0, true)[1]);
        }
예제 #2
0
        public virtual void testPerfectingJMF()
        {
            JDFElement.setLongID(false);
            JDFJMF jmfStatus = JDFJMF.createJMF(EnumFamily.Signal, EnumType.Status);

            jmfStatus.setSenderID("thePress");
            JDFSignal     sig = jmfStatus.getSignal(0);
            JDFDeviceInfo di  = sig.appendDeviceInfo();

            di.setDeviceStatus(EnumDeviceStatus.Running);

            JDFJobPhase jp = di.appendJobPhase();

            jp.setJobID("jobID");
            jp.setJobPartID("jobPartID");
            jp.setStatus(EnumNodeStatus.InProgress);

            JDFModuleStatus ms = jp.appendModuleStatus();

            ms.setModuleID("ID_Perfecting_1");
            ms.setModuleType("PerfectingModule");
            ms.setDeviceStatus(EnumDeviceStatus.Idle);

            ms = jp.appendModuleStatus();
            ms.setModuleType("PrintModule");
            ms.setDeviceStatus(EnumDeviceStatus.Running);
            ms.setModuleIndex(new JDFIntegerRangeList("0 1 3 4"));

            ms = jp.appendModuleStatus();
            ms.setModuleType("PrintModule");
            ms.setDeviceStatus(EnumDeviceStatus.Idle);
            ms.setModuleIndex(new JDFIntegerRangeList("2"));

            jmfStatus.getOwnerDocument_JDFElement().write2File(sm_dirTestDataTemp + "StatusPerfecting.jmf", 2, false);
            Assert.IsTrue(jmfStatus.isValid(EnumValidationLevel.Complete), "known defect - wait for autoclass fix");
        }
예제 #3
0
        public virtual void testModules14()
        {
            VString v = new VString("orig fullList end", null);

            for (int i = 0; i < v.Count; i++)
            {
                reSetUp();
                string       testType = v.stringAt(i);
                JDFAuditPool ap       = n.getCreateAuditPool();
                ap.appendXMLComment("JDF 1.3 incompatible auditing of module phases the REQUIRED time attributes are not set in the ModulePhase elements\n" + "- note that phases may now arbitrarily overlap\n" + "The modulePhase elements now only specify which modules are involved, times are all defined by the phasetime proper", null);
                ap.appendXMLComment("The following phaseTime is executed by one module - the RIP,which executes two process steps (Interpreting and Rendering)", null);
                JDFPhaseTime ptRIP = ap.addPhaseTime(EnumNodeStatus.Setup, null, null);
                JDFDate      date  = new JDFDate();
                ptRIP.setStart(date);

                JDFDoc jmfDoc = new JDFDoc("JMF");
                JDFJMF jmf    = jmfDoc.getJMFRoot();
                jmf.setDescriptiveName("Initial phase when the RIP starts up");
                JDFSignal     signal = jmf.appendSignal(JDFMessage.EnumType.Status);
                JDFDeviceInfo di     = signal.appendDeviceInfo();

                JDFJobPhase jpRIP = di.appendJobPhase();
                di.setDeviceStatus(EnumDeviceStatus.Setup);
                jpRIP.setStartTime(date);
                jpRIP.setStatus(EnumNodeStatus.Setup);
                jpRIP.setJobID(n.getJobID(true));
                jpRIP.setJobPartID(n.getJobPartID(true));

                JDFModuleStatus msRIP = jpRIP.appendModuleStatus();
                msRIP.setCombinedProcessIndex(new JDFIntegerList("0 1"));
                msRIP.setModuleType("Imaging");
                msRIP.setModuleID("ID_Imaging");

                JDFModulePhase mpRIP = ptRIP.appendModulePhase();
                mpRIP.setCombinedProcessIndex(new JDFIntegerList("0 1"));
                mpRIP.setModuleType("Imaging");
                mpRIP.setModuleID("ID_Imaging");

                JDFModuleStatus msPrint = di.appendModuleStatus();
                msPrint.setCombinedProcessIndex(new JDFIntegerList("2"));
                msPrint.setModuleType("Printer");
                msPrint.setModuleID("ID_Printer");

                JDFModuleStatus msStitch = di.appendModuleStatus();
                msStitch.setCombinedProcessIndex(new JDFIntegerList("3"));
                msStitch.setModuleType("Stitcher");
                msStitch.setModuleID("ID_Stitcher");

                jmfDoc.write2File(sm_dirTestDataTemp + "moduleStatus" + testType + "0.jmf", 2, false);
                date.addOffset(0, 5, 0, 0);
                jmf.setTimeStamp(date);

                JDFJobPhase jpPrint = di.appendJobPhase();
                di.setDeviceStatus(EnumDeviceStatus.Running);
                jpPrint.setStatus(EnumNodeStatus.InProgress);
                jpPrint.setStartTime(date);
                jpPrint.setJobID(n.getJobID(true));
                jpPrint.setJobPartID(n.getJobPartID(true));

                msPrint = jpPrint.appendModuleStatus();
                msPrint.setCombinedProcessIndex(new JDFIntegerList("2"));
                msPrint.setModuleType("Printer");
                msPrint.setModuleID("ID_Printer");

                msStitch = jpPrint.appendModuleStatus();
                msStitch.setCombinedProcessIndex(new JDFIntegerList("3"));
                msStitch.setModuleType("Stitcher");
                msStitch.setModuleID("ID_Stitcher");

                di.removeChildren(ElementName.MODULESTATUS, null, null);
                jmf.setDescriptiveName("Phase when the Printer and Finisher start up; RIP is still RIPping");
                jmfDoc.write2File(sm_dirTestDataTemp + "moduleStatus" + testType + "1.jmf", 2, false);

                ap.appendXMLComment("The following phaseTime is executed by two modules - sticher and printer", null);
                JDFPhaseTime   ptPrint = ap.addPhaseTime(EnumNodeStatus.InProgress, null, null);
                JDFModulePhase mpPrint = ptPrint.appendModulePhase();
                mpPrint.setCombinedProcessIndex(new JDFIntegerList("2"));
                mpPrint.setModuleType("Printer");
                mpPrint.setModuleID("ID_Printer");
                ptPrint.setStart(date);

                JDFModulePhase mpStitch = ptPrint.appendModulePhase();
                mpStitch.setCombinedProcessIndex(new JDFIntegerList("3"));
                mpStitch.setModuleType("Stitcher");
                mpStitch.setModuleID("ID_Stitcher");
                date.addOffset(0, 30, 0, 0);
                ptRIP.setEnd(date);

                JDFDeviceInfo di2 = null;
                if (i < 2)
                {
                    JDFSignal signal2 = jmf.appendSignal(JDFMessage.EnumType.Status);
                    di2 = (JDFDeviceInfo)signal2.copyElement(di, null);
                    di2.removeChild(ElementName.JOBPHASE, null, 0);
                    if (i == 1)
                    {
                        JDFModuleStatus directMSRip = (JDFModuleStatus)di2.copyElement(msRIP, null);
                        directMSRip.setDeviceStatus(EnumDeviceStatus.Idle);
                    }
                }
                else
                {
                    jpRIP.setAttribute("EndTime", date.DateTimeISO);
                    jpRIP.setDescriptiveName("Added EndTime to explicitly close phase");
                }
                jmf.setTimeStamp(date);
                jmf.setDescriptiveName("Phase when the RIP has completed, Printer and Finisher are still RIPping");
                jmfDoc.write2File(sm_dirTestDataTemp + "moduleStatus" + testType + "2.jmf", 2, false);

                date.addOffset(0, 70, 0, 0);
                ptPrint.setEnd(date);
                jmf.setTimeStamp(date);

                if (i < 2)
                {
                    signal.deleteNode();
                    signal = jmf.appendSignal(JDFMessage.EnumType.Status);
                    di     = (JDFDeviceInfo)signal.copyElement(di2, null);
                    di.removeChild(ElementName.JOBPHASE, null, 0);
                    di.removeChild(ElementName.MODULESTATUS, null, 0);
                    di.setDeviceStatus(EnumDeviceStatus.Idle);
                    signal.appendXMLComment("Or should the complete list of modules also be specified here?", di);
                }
                else
                {
                    jpRIP.deleteNode();
                    jpPrint.setAttribute("EndTime", date.DateTimeISO);
                    jpPrint.setDescriptiveName("Added EndTime to explicitly close phase");
                }
                jmf.setDescriptiveName("Phase when the Printer and Finisher have completed");
                jmfDoc.write2File(sm_dirTestDataTemp + "moduleStatus" + testType + "3.jmf", 2, false);
                doc.write2File(sm_dirTestDataTemp + "DigiPrintModule.1.4" + testType + ".jdf", 2, false);
            }
        }
예제 #4
0
        ///
        ///	 <summary> * Set the Status and StatusDetails of this node update the PhaseTime audit or append a new phasetime as appropriate
        ///	 * also prepare a status JMF
        ///	 *  </summary>
        ///	 * <param name="nodeStatus"> the new status of the node </param>
        ///	 * <param name="nodeStatusDetails"> the new statusDetails of the node </param>
        ///	 * <param name="deviceStatus"> the new status of the device </param>
        ///	 * <param name="deviceStatusDetails"> the new statusDetails of the device </param>
        ///	 * <param name="vPartMap"> the vector of parts to that should be set </param>
        ///	 * <param name="vResLink"> the resourcelinks that are used to fill the various amount attributes in jobphase and phasetime
        ///	 *  </param>
        ///
        public virtual void setPhase(EnumNodeStatus nodeStatus, string nodeStatusDetails, EnumDeviceStatus deviceStatus, string deviceStatusDetails, AmountBag[] amounts)
        {
            docJMFPhaseTime = new JDFDoc(ElementName.JMF);
            JDFJMF jmf = docJMFPhaseTime.getJMFRoot();

            docJMFResource = new JDFDoc(ElementName.JMF);
            JDFJMF jmfRes = docJMFResource.getJMFRoot();

            AmountBag  ab     = getBag(getFirstRefID(), amounts);
            LinkAmount la     = getLinkAmount(getFirstRefID());
            AmountBag  lastAb = la == null ? null : la.lastBag;

            JDFAuditPool ap = m_Node.getCreateAuditPool();
            // TODO rethink when to send 2 phases
            JDFPhaseTime pt1  = ap.getLastPhase(m_vPartMap, null);
            JDFPhaseTime pt2  = pt1;
            bool         bEnd = nodeStatus.Equals(EnumNodeStatus.Completed) || nodeStatus.Equals(EnumNodeStatus.Aborted);

            pt2 = ap.setPhase(nodeStatus, nodeStatusDetails, m_vPartMap, null);
            if (bEnd)
            {
                JDFProcessRun pr = (JDFProcessRun)ap.addAudit(EnumAuditType.ProcessRun, null);
                pr.setPartMapVector(m_vPartMap);
                VElement audits = ap.getAudits(EnumAuditType.PhaseTime, null, m_vPartMap);
                for (int i = 0; i < audits.Count; i++)
                {
                    pr.addPhase((JDFPhaseTime)audits[i]);
                }
                pr.setEndStatus(nodeStatus);
            }

            if (pt1 != null && pt2 != pt1) // we explicitly added a new phasetime
            // audit, thus we need to add a closing
            // JMF for the original jobPhase
            {
                JDFSignal     s          = (JDFSignal)jmf.appendMessageElement(JDFMessage.EnumFamily.Signal, JDFMessage.EnumType.Status);
                JDFDeviceInfo deviceInfo = s.appendDeviceInfo();

                JDFJobPhase jp = deviceInfo.createJobPhaseFromPhaseTime(pt1);
                jp.setJobID(m_Node.getJobID(true));
                jp.setJobPartID(m_Node.getJobPartID(false));
                setJobPhaseAmounts(lastAb, jp);

                if (m_deviceID != null)
                {
                    deviceInfo.setDeviceID(m_deviceID);
                }
            }

            if (pt2 != null)
            {
                JDFSignal     s          = (JDFSignal)jmf.appendMessageElement(JDFMessage.EnumFamily.Signal, JDFMessage.EnumType.Status);
                JDFDeviceInfo deviceInfo = s.appendDeviceInfo();
                if (!bEnd) // don't write a jobphase for an idle device
                {
                    JDFJobPhase jp = deviceInfo.createJobPhaseFromPhaseTime(pt2);
                    setJobPhaseAmounts(ab, jp);
                }

                deviceInfo.setDeviceStatus(deviceStatus);
                deviceInfo.setStatusDetails(deviceStatusDetails);
                deviceInfo.setDeviceID(m_deviceID);
                m_Node.setPartStatus(m_vPartMap, nodeStatus, null);
                getVResLink(amounts, 2); // update the nodes links

                generateResourceSignal(amounts, jmfRes);

                if (bEnd)
                {
                    pt2.deleteNode(); // zapp the last phasetime
                }
                else
                {
                    pt2.setLinks(getVResLink(amounts, 1));
                    pt2.eraseEmptyAttributes(true);
                }
            }

            // cleanup!
            if (vLinkAmount != null)
            {
                for (int i = 0; i < vLinkAmount.Length; i++)
                {
                    string    refID = vLinkAmount[i].rl.getrRef();
                    AmountBag bag   = getBag(refID, amounts);
                    vLinkAmount[i].lastBag = new AmountBag(bag);
                }
            }
            jmf.eraseEmptyAttributes(true);
        }