~chenluhua/Bond2.git

			@@ -3,6 +3,22 @@
			#include "ToolUnits.h"


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

			#define CHECK_WRITE_STEP_SIGNAL(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 {

			CEquipment::CEquipment() : m_nID(0), m_strName(""), m_strDescription(""), m_station(0, 255)
			@@ -358,40 +374,65 @@
			// Equipment Status Change Report(0x361)
			// Equipment Alarm Change Report(0x362 ~ 0x366)
			for (int i = 0; i < 7; i++) {
			checkReadStepSignal(0x360 + i, pszData, size);
			CHECK_READ_STEP_SIGNAL(0x360 + i, pszData, size);
			}


			// CIM Mode
			checkWriteStepSignal(0x350, pszData, size);
			CHECK_WRITE_STEP_SIGNAL(0x350, pszData, size);


			// Port1 ~ Port4
			checkReadStepSignal(0x3e0, pszData, size);
			checkReadStepSignal(0x3e1, pszData, size);
			checkReadStepSignal(0x3e2, pszData, size);
			checkReadStepSignal(0x3e3, pszData, size);
			checkReadStepSignal(0x3e8, pszData, size);
			checkReadStepSignal(0x3e9, pszData, size);
			checkReadStepSignal(0x3ea, pszData, size);
			checkReadStepSignal(0x3eb, pszData, size);
			checkReadStepSignal(0x3f0, pszData, size);
			checkReadStepSignal(0x3f1, pszData, size);
			checkReadStepSignal(0x3f2, pszData, size);
			checkReadStepSignal(0x3f3, pszData, size);
			checkReadStepSignal(0x3f8, pszData, size);
			checkReadStepSignal(0x3f9, pszData, size);
			checkReadStepSignal(0x3fa, pszData, size);
			checkReadStepSignal(0x3fb, pszData, size);
			checkReadStepSignal(0x400, pszData, size);
			checkReadStepSignal(0x401, pszData, size);
			checkReadStepSignal(0x402, pszData, size);
			checkReadStepSignal(0x403, pszData, size);
			checkReadStepSignal(0x408, pszData, size);
			checkReadStepSignal(0x409, pszData, size);
			checkReadStepSignal(0x40a, pszData, size);
			checkReadStepSignal(0x40b, pszData, size);
			CHECK_READ_STEP_SIGNAL(0x3e0, pszData, size);
			CHECK_READ_STEP_SIGNAL(0x3e1, pszData, size);
			CHECK_READ_STEP_SIGNAL(0x3e2, pszData, size);
			CHECK_READ_STEP_SIGNAL(0x3e3, pszData, size);
			CHECK_READ_STEP_SIGNAL(0x3e8, pszData, size);
			CHECK_READ_STEP_SIGNAL(0x3e9, pszData, size);
			CHECK_READ_STEP_SIGNAL(0x3ea, pszData, size);
			CHECK_READ_STEP_SIGNAL(0x3eb, pszData, size);
			CHECK_READ_STEP_SIGNAL(0x3f0, pszData, size);
			CHECK_READ_STEP_SIGNAL(0x3f1, pszData, size);
			CHECK_READ_STEP_SIGNAL(0x3f2, pszData, size);
			CHECK_READ_STEP_SIGNAL(0x3f3, pszData, size);
			CHECK_READ_STEP_SIGNAL(0x3f8, pszData, size);
			CHECK_READ_STEP_SIGNAL(0x3f9, pszData, size);
			CHECK_READ_STEP_SIGNAL(0x3fa, pszData, size);
			CHECK_READ_STEP_SIGNAL(0x3fb, pszData, size);
			CHECK_READ_STEP_SIGNAL(0x400, pszData, size);
			CHECK_READ_STEP_SIGNAL(0x401, pszData, size);
			CHECK_READ_STEP_SIGNAL(0x402, pszData, size);
			CHECK_READ_STEP_SIGNAL(0x403, pszData, size);
			CHECK_READ_STEP_SIGNAL(0x408, pszData, size);
			CHECK_READ_STEP_SIGNAL(0x409, pszData, size);
			CHECK_READ_STEP_SIGNAL(0x40a, pszData, size);
			CHECK_READ_STEP_SIGNAL(0x40b, pszData, size);

			// CEqCassetteTranserStateStep
			CHECK_READ_STEP_SIGNAL(STEP_ID_PORT1_CASSETTIE_EMPTY, pszData, size);
			CHECK_READ_STEP_SIGNAL(STEP_ID_PORT1_CASSETTIE_LOAD_READY, pszData, size);
			CHECK_READ_STEP_SIGNAL(STEP_ID_PORT1_CASSETTIE_LOADED, pszData, size);
			CHECK_READ_STEP_SIGNAL(STEP_ID_PORT1_CASSETTIE_INUSE, pszData, size);
			CHECK_READ_STEP_SIGNAL(STEP_ID_PORT1_CASSETTIE_UNLOAD_READY, pszData, size);
			CHECK_READ_STEP_SIGNAL(STEP_ID_PORT1_CASSETTIE_BLOCKED, pszData, size);
			CHECK_READ_STEP_SIGNAL(STEP_ID_PORT2_CASSETTIE_EMPTY, pszData, size);
			CHECK_READ_STEP_SIGNAL(STEP_ID_PORT2_CASSETTIE_LOAD_READY, pszData, size);
			CHECK_READ_STEP_SIGNAL(STEP_ID_PORT2_CASSETTIE_LOADED, pszData, size);
			CHECK_READ_STEP_SIGNAL(STEP_ID_PORT2_CASSETTIE_INUSE, pszData, size);
			CHECK_READ_STEP_SIGNAL(STEP_ID_PORT2_CASSETTIE_UNLOAD_READY, pszData, size);
			CHECK_READ_STEP_SIGNAL(STEP_ID_PORT2_CASSETTIE_BLOCKED, pszData, size);
			CHECK_READ_STEP_SIGNAL(STEP_ID_PORT3_CASSETTIE_EMPTY, pszData, size);
			CHECK_READ_STEP_SIGNAL(STEP_ID_PORT3_CASSETTIE_LOAD_READY, pszData, size);
			CHECK_READ_STEP_SIGNAL(STEP_ID_PORT3_CASSETTIE_LOADED, pszData, size);
			CHECK_READ_STEP_SIGNAL(STEP_ID_PORT3_CASSETTIE_INUSE, pszData, size);
			CHECK_READ_STEP_SIGNAL(STEP_ID_PORT3_CASSETTIE_UNLOAD_READY, pszData, size);
			CHECK_READ_STEP_SIGNAL(STEP_ID_PORT3_CASSETTIE_BLOCKED, pszData, size);
			CHECK_READ_STEP_SIGNAL(STEP_ID_PORT4_CASSETTIE_EMPTY, pszData, size);
			CHECK_READ_STEP_SIGNAL(STEP_ID_PORT4_CASSETTIE_LOAD_READY, pszData, size);
			CHECK_READ_STEP_SIGNAL(STEP_ID_PORT4_CASSETTIE_LOADED, pszData, size);
			CHECK_READ_STEP_SIGNAL(STEP_ID_PORT4_CASSETTIE_INUSE, pszData, size);
			CHECK_READ_STEP_SIGNAL(STEP_ID_PORT4_CASSETTIE_UNLOAD_READY, pszData, size);
			CHECK_READ_STEP_SIGNAL(STEP_ID_PORT4_CASSETTIE_BLOCKED, pszData, size);
			}

			BOOL CEquipment::isBitOn(const char* pszData, size_t size, int index)
			@@ -673,23 +714,5 @@
			Unlock();

			return pGlass;
			}

			void CEquipment::checkReadStepSignal(unsigned int addr, const char* pszData, size_t size)
			{
			BOOL bFlag = isBitOn(pszData, size, addr);
			SERVO::CStep* pStep = getStep(addr);
			if (pStep != nullptr) {
			((CReadStep*)pStep)->onReadSignal(bFlag ? 1 : 0);
			}
			}

			void CEquipment::checkWriteStepSignal(unsigned int addr, const char* pszData, size_t size)
			{
			BOOL bFlag = isBitOn(pszData, size, addr);
			SERVO::CStep* pStep = getStep(addr);
			if (pStep != nullptr) {
			((CWriteStep*)pStep)->onRecvSignal(bFlag);
			}
			}
			}