~chenluhua/Bond2.git

			@@ -188,12 +188,13 @@
			// master recipe list report
			CEqReadStep* pStep = new CEqReadStep(0x16955, 255 * 2,
			[&](void* pFrom, int code, const char* pszData, size_t size) -> int {
			CEqReadStep* pTmpStep = (CEqReadStep*)pFrom;
			short ret = MRLRC_OK;
			if (code == ROK && pszData != nullptr && size > 0) {
			// 此处解释配方数据
			short ret = decodeRecipeListReport(pszData, size);
			pStep->setReturnCode(ret);
			ret = decodeRecipeListReport(pszData, size);
			}
			pStep->setReturnCode(MRLRC_OK);
			pTmpStep->setReturnCode(ret);
			return -1;
			});
			pStep->setName(STEP_EQ_MASTER_RECIPE_LIST);
			@@ -206,40 +207,41 @@

			{
			// 请求配方参数
			//CEqWriteStep* pStep = new CEqWriteStep();
			//pStep->setName(STEP_EQ_RECIPE_PARAMETER_REQ);
			//pStep->setWriteSignalDev(0xc67);
			//pStep->setDataDev(0x379b);
			//if (addStep(STEP_ID_RECIPE_PARAMETER_CMD_REPLY, pStep) != 0) {
			// delete pStep;
			//}
			CEqWriteStep* pStep = new CEqWriteStep();
			pStep->setName(STEP_EQ_RECIPE_PARAMETER_REQ);
			pStep->setWriteSignalDev(0xc67);
			pStep->setDataDev(0x2e4b);
			if (addStep(STEP_ID_RECIPE_PARAMETER_CMD_REPLY, pStep) != 0) {
			delete pStep;
			}
			}

			{
			// recipe parameter report
			//CEqReadStep* pStep = new CEqReadStep(0x1aa54, 257 * 2,
			// [&](void* pFrom, int code, const char* pszData, size_t size) -> int {
			// if (code == ROK && pszData != nullptr && size > 0) {
			// // 此处解释配方数据
			// short ret = decodeRecipeParameterReport(pszData, size);
			// pStep->setReturnCode(ret);
			// }
			// pStep->setReturnCode(MRLRC_OK);
			// return -1;
			// });
			//pStep->setName(STEP_EQ_RECIPE_PARAMETER);
			//pStep->setWriteSignalDev(0xc4c);
			//pStep->setReturnDev(m_nIndex == 0 ? 0x126c : 0x1bbc);
			//if (addStep(STEP_ID_RECIPE_PARAMETER_REPORT, pStep) != 0) {
			// delete pStep;
			//}
			CEqReadStep* pStep = new CEqReadStep(0x16a54, 257 * 2,
			[&](void* pFrom, int code, const char* pszData, size_t size) -> int {
			CEqReadStep* pTmpStep = (CEqReadStep*)pFrom;
			if (code == ROK && pszData != nullptr && size > 0) {
			// 此处解释配方数据
			short ret = decodeRecipeParameterReport(pszData, size);
			pTmpStep->setReturnCode(ret);
			}
			pTmpStep->setReturnCode(MRLRC_OK);
			return -1;
			});
			pStep->setName(STEP_EQ_RECIPE_PARAMETER);
			pStep->setWriteSignalDev(0xc4c);
			pStep->setReturnDev(0x2ec);
			if (addStep(STEP_ID_RECIPE_PARAMETER_REPORT, pStep) != 0) {
			delete pStep;
			}
			}

			// 使用CEqReadStep替换CEqJobEventStep
			{
			// Received Job Report Upstream #1~9
			char szBuffer[256];
			for (int i = 0; i < 9; i++) {
			for (int i = 0; i < 2; i++) {
			CEqReadStep* pStep = new CEqReadStep(0x14c90 + 320 * i, 320 * 2,
			[&](void* pFrom, int code, const char* pszData, size_t size) -> int {
			if (code == ROK && pszData != nullptr && size > 0) {
			@@ -263,13 +265,13 @@
			{
			// Sent Out Job Report Downstream #1~9
			char szBuffer[256];
			for (int i = 0; i < 9; i++) {
			for (int i = 0; i < 2; i++) {
			CEqReadStep* pStep = new CEqReadStep(0x14000 + 320 * i, 320 * 2,
			[&](void* pFrom, int code, const char* pszData, size_t size) -> int {
			if (code == ROK && pszData != nullptr && size > 0) {
			int port = (int)(__int64)((CEqReadStep*)pFrom)->getProp("Port");
			if (port > 0) {
			decodeReceivedJobReport((CStep*)pFrom, port, pszData, size);
			decodeSentOutJobReport((CStep*)pFrom, port, pszData, size);
			}
			}
			return -1;
			@@ -287,7 +289,7 @@
			{
			// Fetched Out Job Report #1~15
			char szBuffer[256];
			for (int i = 0; i < 15; i++) {
			for (int i = 0; i < 2; i++) {
			CEqReadStep* pStep = new CEqReadStep(0x15c31 + 18 * i, 18 * 2,
			[&](void* pFrom, int code, const char* pszData, size_t size) -> int {
			if (code == ROK && pszData != nullptr && size > 0) {
			@@ -311,7 +313,7 @@
			{
			// Stored Job Report #1~15
			char szBuffer[256];
			for (int i = 0; i < 15; i++) {
			for (int i = 0; i < 2; i++) {
			CEqReadStep* pStep = new CEqReadStep(0x15b23 + 18 * i, 18 * 2,
			[&](void* pFrom, int code, const char* pszData, size_t size) -> int {
			if (code == ROK && pszData != nullptr && size > 0) {
			@@ -331,6 +333,40 @@
			}
			}
			}

			// process start/end report
			{
			CEqReadStep* pStep = new CEqReadStep(0x15D3F, 13 * 2,
			[&](void* pFrom, int code, const char* pszData, size_t size) -> int {
			if (code == ROK && pszData != nullptr && size > 0) {
			decodeJobProcessStartReport((CStep*)pFrom, pszData, size);
			}
			return -1;
			});
			pStep->setName(STEP_EQ_JOB_PROCESS_START_REPORT);
			pStep->setProp("Port", (void*)1);
			pStep->setWriteSignalDev(0xc33);
			if (addStep(STEP_ID_JOB_PROCESS_START_REPORT, pStep) != 0) {
			delete pStep;
			}
			}

			{
			CEqReadStep* pStep = new CEqReadStep(0x15D4C, 13 * 2,
			[&](void* pFrom, int code, const char* pszData, size_t size) -> int {
			if (code == ROK && pszData != nullptr && size > 0) {
			decodeJobProcessEndReport((CStep*)pFrom, pszData, size);
			}
			return -1;
			});
			pStep->setName(STEP_EQ_JOB_PROCESS_END_REPORT);
			pStep->setProp("Port", (void*)1);
			pStep->setWriteSignalDev(0xc34);
			if (addStep(STEP_ID_JOB_PROCESS_END_REPORT, pStep) != 0) {
			delete pStep;
			}
			}

			}

			// 必须要实现的虚函数，在此初始化Slot信息
			@@ -341,6 +377,13 @@
			m_slot[0].setNo(1);
			m_slot[0].setName("Slot 1(G1)");
			m_slot[0].setType(MaterialsType::G1);
			m_slot[0].setLinkSignalPath(0);
			m_slot[1].enable();
			m_slot[1].setPosition(m_nID);
			m_slot[1].setNo(2);
			m_slot[1].setName("Slot 2(G1)");
			m_slot[1].setType(MaterialsType::G1);
			m_slot[1].setLinkSignalPath(1);
			}

			void CVacuumBake::onTimer(UINT nTimerid)
			@@ -367,4 +410,53 @@
			{
			return 30000;
			}

			int CVacuumBake::parsingParams(const char* pszData, size_t size, std::vector<CParam>& params)
			{
			ASSERT(pszData);
			if (size < 250) return 0;
			int i = 0, v;


			// 1.A_腔加热时间
			v = (pszData[i] & 0xff) \| (pszData[i + 1] & 0xff) << 8;
			params.push_back(CParam("A_腔加热时间", "", "", v * 0.1f));
			i += 2;

			// 2.B_腔加热时间
			v = (pszData[i] & 0xff) \| (pszData[i + 1] & 0xff) << 8;
			params.push_back(CParam("B_腔加热时间", "", "", v * 0.1f));
			i += 2;

			// 3.A_腔破真空时间
			v = (pszData[i] & 0xff) \| (pszData[i + 1] & 0xff) << 8;
			params.push_back(CParam("A_腔破真空时间", "", "", v * 0.01f));
			i += 2;

			// 4.B_腔破真空时间
			v = (pszData[i] & 0xff) \| (pszData[i + 1] & 0xff) << 8;
			params.push_back(CParam("B_腔破真空时间", "", "", v * 0.01f));
			i += 2;

			// 5.A_腔真空到达值
			params.push_back(CParam("A_腔真空到达值", "", "", (double)toFloat(&pszData[i])));
			i += 4;

			// 6.B_腔真空到达值
			params.push_back(CParam("B_腔真空到达值", "", "", (double)toFloat(&pszData[i])));
			i += 4;

			// 7.A_腔温控表主控温度设定
			v = (pszData[i] & 0xff) \| (pszData[i + 1] & 0xff) << 8 \| (pszData[i + 2] & 0xff) << 16 \| (pszData[i + 3] & 0xff) << 24;
			params.push_back(CParam("A_腔温控表主控温度设定", "", "", v * 0.1f));
			i += 4;

			// 8.B_腔温控表主控温度设定
			v = (pszData[i] & 0xff) \| (pszData[i + 1] & 0xff) << 8 \| (pszData[i + 2] & 0xff) << 16 \| (pszData[i + 3] & 0xff) << 24;
			params.push_back(CParam("B_腔温控表主控温度设定", "", "", v * 0.1f));
			i += 4;


			return (int)params.size();
			}
			}