~chenluhua/Bond2.git

			@@ -12,6 +12,14 @@
			} \
			}

			#define CHECK_WRITE_STEP_SIGNAL2(addr, data, size) { \
			BOOL bFlag = isBitOn(data, size, addr); \
			SERVO::CStep* pStep = getStep(addr); \
			if (pStep != nullptr) { \
			((CWriteStep*)pStep)->onRecvSignal(bFlag ? addr : 0); \
			} \
			}

			namespace SERVO {
			CLoadPort::CLoadPort() : CEquipment()
			{
			@@ -867,12 +875,12 @@
			static int cassetteTypeReply[] = { STEP_ID_PROT1_CASSETTE_TYPE_CHANGE_REPLY, STEP_ID_PROT2_CASSETTE_TYPE_CHANGE_REPLY,
			STEP_ID_PROT3_CASSETTE_TYPE_CHANGE_REPLY, STEP_ID_PROT4_CASSETTE_TYPE_CHANGE_REPLY };

			CHECK_READ_STEP_SIGNAL2(typeReply[m_nIndex], pszData, size);
			CHECK_READ_STEP_SIGNAL2(modeReply[m_nIndex], pszData, size);
			CHECK_READ_STEP_SIGNAL2(transferModeReply[m_nIndex], pszData, size);
			CHECK_READ_STEP_SIGNAL2(enableModeReply[m_nIndex], pszData, size);
			CHECK_READ_STEP_SIGNAL2(typeAutoReply[m_nIndex], pszData, size);
			CHECK_READ_STEP_SIGNAL2(cassetteTypeReply[m_nIndex], pszData, size);
			CHECK_WRITE_STEP_SIGNAL2(typeReply[m_nIndex], pszData, size);
			CHECK_WRITE_STEP_SIGNAL2(modeReply[m_nIndex], pszData, size);
			CHECK_WRITE_STEP_SIGNAL2(transferModeReply[m_nIndex], pszData, size);
			CHECK_WRITE_STEP_SIGNAL2(enableModeReply[m_nIndex], pszData, size);
			CHECK_WRITE_STEP_SIGNAL2(typeAutoReply[m_nIndex], pszData, size);
			CHECK_WRITE_STEP_SIGNAL2(cassetteTypeReply[m_nIndex], pszData, size);
			}

			int CLoadPort::decodePortStatusReport(CStep* pStep, const char* pszData, size_t size)
			@@ -885,10 +893,8 @@

			// 缓存Attribute，用于调试时显示信息
			unsigned int weight = 201;
			CAttributeVector attrubutes;
			CAttributeVector& attrubutes = pStep->attributeVector();
			m_portStatusReport.getAttributeVector(attrubutes, weight);
			pStep->addAttributeVector(attrubutes);


			LOGI("<CCassetteTranserStateStep>decodePortStatusReport<Status:%d, CassetteSequenceNo:%d>",
			m_portStatusReport.getPortStatus(), m_portStatusReport.getCassetteSequenceNo());
			@@ -1140,4 +1146,42 @@
			return 0;
			}

			int CLoadPort::testGenerateGlassListFromConfig(const SERVO::PortConfig& config)
			{
			char szBuffer[64];
			for (const auto& slot : config.vecSlot) {
			int nSlotIndex = slot.nSlotID - 1;
			if (nSlotIndex < 0 \|\| nSlotIndex >= SLOT_MAX) {
			continue;
			}
			if (!slot.isEnabled) {
			m_slot[nSlotIndex].setContext(nullptr);
			continue;
			}

			CJobDataS js;
			js.setCassetteSequenceNo(getNextCassetteSequenceNo());
			js.setJobSequenceNo(m_slot[nSlotIndex].getNo());

			sprintf_s(szBuffer, 64, "%05d%05d", js.getCassetteSequenceNo(), js.getJobSequenceNo());
			js.setJobType(1);
			js.setMaterialsType(config.nMaterialType);

			js.setLotId(config.strLotID.c_str());
			js.setProductId(config.strProductID.c_str());
			js.setOperationId(config.strOperationID.c_str());
			js.setGlass1Id(szBuffer);

			CGlass* pGlass = theApp.m_model.m_glassPool.allocaGlass();
			pGlass->addPath(m_nID, 0);
			pGlass->processEnd(m_nID, 0);
			pGlass->setID(szBuffer);
			pGlass->setType(static_cast<SERVO::MaterialsType>(config.nMaterialType));
			pGlass->setJobDataS(&js);

			m_slot[nSlotIndex].setContext(pGlass);
			}

			return 0;
			}
			}