From af5c7a6ce19dd295701348f5f7eb6ce53c91826a Mon Sep 17 00:00:00 2001
From: chenluhua1980 <Chenluhua@qq.com>
Date: 星期四, 12 二月 2026 10:58:44 +0800
Subject: [PATCH] 1.工创建PJ, 然后生产,当时有3片料,PJ只选了两片。其中两片配对生产了,按道理就不应该去取第三片了,但实际上它还去取了。修复此Bug
---
SourceCode/Bond/Servo/CMaster.cpp | 1073 +++++++++++++++++++++++++++++++++++++++++++++++++++++++++--
1 files changed, 1,027 insertions(+), 46 deletions(-)
diff --git a/SourceCode/Bond/Servo/CMaster.cpp b/SourceCode/Bond/Servo/CMaster.cpp
index 610ec95..62a6733 100644
--- a/SourceCode/Bond/Servo/CMaster.cpp
+++ b/SourceCode/Bond/Servo/CMaster.cpp
@@ -3,10 +3,14 @@
#include "CMaster.h"
#include <future>
#include <vector>
+#include <algorithm>
#include "RecipeManager.h"
#include <fstream>
#include "SerializeUtil.h"
#include "CServoUtilsTool.h"
+#include "AlarmManager.h"
+#include "ToolUnits.h"
+#include "Model.h"
namespace SERVO {
@@ -58,6 +62,8 @@
m_ullStartTime = 0;
m_ullRunTime = 0;
m_state = MASTERSTATE::READY;
+ m_curveMode = CurveMode::Production;
+ m_schedulingMode = SchedulingMode::Production;
m_pActiveRobotTask = nullptr;
m_nLastError = ER_CODE_NOERROR;
m_isCompareMapsBeforeProceeding = FALSE;
@@ -71,6 +77,8 @@
m_nContinuousWorkingPort = 0;
m_nContinuousWorkingSlot = 0;
m_pControlJob = nullptr;
+ m_bPauseAlarmRaised = false;
+ m_pModelCtx = nullptr;
m_nTestFlag = 0;
InitializeCriticalSection(&m_criticalSection);
}
@@ -112,12 +120,18 @@
m_hEventDispatchThreadExit[1] = nullptr;
}
+
DeleteCriticalSection(&m_criticalSection);
}
void CMaster::setListener(MasterListener listener)
{
m_listener = listener;
+ }
+
+ void CMaster::setModelCtx(CModel* pModel)
+ {
+ m_pModelCtx = pModel;
}
CRobotTask* CMaster::getActiveRobotTask()
@@ -127,11 +141,18 @@
int CMaster::init()
{
+ const ULONGLONG boot_master_begin = GetTickCount64();
LOGI("<Master>姝e湪鍒濆鍖�...");
+ LOGI("[BOOT][MASTER] init begin");
// cclink
- if (m_cclink.Connect(CC_LINK_IE_CONTROL_CHANNEL(1)) != 0) {
+ const ULONGLONG boot_cclink_begin = GetTickCount64();
+ const int cc_ret = m_cclink.Connect(CC_LINK_IE_CONTROL_CHANNEL(1));
+ LOGI("[BOOT][MASTER] CC-Link connect ret=%d, cost=%llu ms",
+ cc_ret,
+ (unsigned long long)(GetTickCount64() - boot_cclink_begin));
+ if (cc_ret != 0) {
LOGE("杩炴帴CC-Link澶辫触.");
}
else {
@@ -220,8 +241,21 @@
// 璇荤紦瀛樻暟鎹�
+ const ULONGLONG boot_cache_begin = GetTickCount64();
+ const ULONGLONG boot_read_begin = GetTickCount64();
readCache();
+ LOGI("[BOOT][MASTER] readCache finished, cost=%llu ms", (unsigned long long)(GetTickCount64() - boot_read_begin));
+
+ const ULONGLONG boot_state_begin = GetTickCount64();
loadState();
+ LOGI("[BOOT][MASTER] loadState finished, cost=%llu ms", (unsigned long long)(GetTickCount64() - boot_state_begin));
+ if (m_listener.onControlJobChanged) {
+ notifyControlJobChanged();
+ }
+
+ LOGI("[BOOT][MASTER] cache/state loaded, cost=%llu ms (since init %llu ms)",
+ (unsigned long long)(GetTickCount64() - boot_cache_begin),
+ (unsigned long long)(GetTickCount64() - boot_master_begin));
// 瀹氭椂鍣�
@@ -244,7 +278,50 @@
LOGI("<Master>鍒濆鍖栧畬鎴�.");
+ LOGI("[BOOT][MASTER] init finished, total cost=%llu ms",
+ (unsigned long long)(GetTickCount64() - boot_master_begin));
return 0;
+ }
+
+ void CMaster::setCurveMode(CurveMode mode)
+ {
+ if (m_curveMode == mode) {
+ return;
+ }
+ m_curveMode = mode;
+ if (m_pCollector != nullptr) {
+ const uint32_t mids[] = {
+ MID_Bonder1, MID_Bonder2,
+ MID_VacuumBakeA, MID_VacuumBakeB,
+ MID_BakeCoolingA, MID_BakeCoolingB
+ };
+ for (uint32_t mid : mids) {
+ if (mode == CurveMode::EmptyChamber) {
+ m_pCollector->batchStart(mid, "EMPTY_CHAMBER", 30 * 60 * 1000ULL); // 绌鸿厰妯″紡锛氬惎鍔ㄩ噰鏍锋壒娆�
+ }
+ else {
+ m_pCollector->batchStop(mid);
+ m_pCollector->buffersClear(mid); // 鍒囧洖鐢熶骇妯″紡锛屾竻鎺夌┖鑵旀暟鎹�
+ }
+ }
+ }
+ LOGI("<Master>CurveMode=%s", mode == CurveMode::EmptyChamber ? "EmptyChamber" : "Production");
+ }
+
+ CurveMode CMaster::getCurveMode() const
+ {
+ return m_curveMode;
+ }
+
+ void CMaster::setSchedulingMode(SchedulingMode mode)
+ {
+ m_schedulingMode = mode;
+ LOGI("<Master>SchedulingMode=%s", mode == SchedulingMode::Production ? "Production" : "Tuning");
+ }
+
+ SchedulingMode CMaster::getSchedulingMode() const
+ {
+ return m_schedulingMode;
}
int CMaster::term()
@@ -272,6 +349,13 @@
}
m_listEquipment.clear();
+ // release manual-remove buffer before glass pool is torn down
+ for (auto* pGlass : m_bufGlass) {
+ if (pGlass != nullptr) {
+ pGlass->release();
+ }
+ }
+ m_bufGlass.clear();
if (m_pCollector != nullptr) {
m_pCollector->stopLoop();
@@ -623,6 +707,91 @@
continue;
}
+ // 鐢熶骇妯″紡鍥哄畾鏄犲皠锛歅ort1/3 -> G1锛孭ort2/4 -> G2銆�
+ auto isProductionPortTypeMatch = [&](int portIndex, MaterialsType type) -> bool {
+ if (m_schedulingMode != SchedulingMode::Production) return true;
+ const bool isG1Port = (portIndex == 0 || portIndex == 2);
+ if (type == MaterialsType::G1) return isG1Port;
+ if (type == MaterialsType::G2) return !isG1Port;
+ return true;
+ };
+
+ // 鐢熶骇妯″紡锛氭牴鎹嚎涓婃湭閰嶅鐜荤拑鍙嶆帹涓嬩竴鐗囧簲鏉ヨ嚜鍝釜绔彛锛圥ort1<->2, Port3<->4锛夈��
+ auto getPreferredPortForType = [&](MaterialsType targetType) -> int {
+ if (m_schedulingMode != SchedulingMode::Production) return -1;
+
+ auto preferG1ByG2 = [&](CGlass* pG2) -> int {
+ if (pG2 == nullptr || pG2->getType() != MaterialsType::G2 || pG2->getBuddy() != nullptr) return -1;
+ int originPort = -1, originSlot = -1;
+ pG2->getOrginPort(originPort, originSlot);
+ if (originPort == 1) return 0; // Port2 -> Port1
+ if (originPort == 3) return 2; // Port4 -> Port3
+ return -1;
+ };
+ auto preferG2ByG1 = [&](CGlass* pG1) -> int {
+ if (pG1 == nullptr || pG1->getType() != MaterialsType::G1 || pG1->getBuddy() != nullptr) return -1;
+ int originPort = -1, originSlot = -1;
+ pG1->getOrginPort(originPort, originSlot);
+ if (originPort == 0) return 1; // Port1 -> Port2
+ if (originPort == 2) return 3; // Port3 -> Port4
+ return -1;
+ };
+
+ if (targetType == MaterialsType::G1) {
+ int p = preferG1ByG2(pBonder1->getGlassFromSlot(1)); if (p >= 0) return p;
+ p = preferG1ByG2(pBonder2->getGlassFromSlot(1)); if (p >= 0) return p;
+ p = preferG1ByG2(pFliper->getGlassFromSlot(1)); if (p >= 0) return p;
+ p = preferG1ByG2(pAligner->getGlassFromSlot(1)); if (p >= 0) return p;
+ }
+ else if (targetType == MaterialsType::G2) {
+ int p = preferG2ByG1(pBonder1->getGlassFromSlot(2)); if (p >= 0) return p;
+ p = preferG2ByG1(pBonder2->getGlassFromSlot(2)); if (p >= 0) return p;
+ p = preferG2ByG1(pVacuumBake->getGlassFromSlot(1)); if (p >= 0) return p;
+ p = preferG2ByG1(pVacuumBake->getGlassFromSlot(2)); if (p >= 0) return p;
+ p = preferG2ByG1(pAligner->getGlassFromSlot(1)); if (p >= 0) return p;
+ }
+
+ return -1;
+ };
+
+ // Job 妯″紡涓嬭姹� Bonder 鍐呯殑 G1/G2 鏉ヨ嚜鍚屼竴涓� ProcessJob銆�
+ auto validateBonderPairProcessJob = [&](CEquipment* pBonder, const char* bonderName) -> bool {
+ if (m_pActiveRobotTask == nullptr) return false;
+ CGlass* pIncomingG1 = (CGlass*)m_pActiveRobotTask->getContext();
+ CGlass* pExistingG2 = pBonder->getGlassFromSlot(0);
+ if (pIncomingG1 == nullptr || pExistingG2 == nullptr) return true;
+
+ CProcessJob* pjG1 = pIncomingG1->getProcessJob();
+ CProcessJob* pjG2 = pExistingG2->getProcessJob();
+ if (m_bJobMode && (pjG1 == nullptr || pjG2 == nullptr || pjG1 != pjG2)) {
+ std::string pj1 = (pjG1 == nullptr) ? "NULL" : pjG1->id();
+ std::string pj2 = (pjG2 == nullptr) ? "NULL" : pjG2->id();
+ LOGW("<Master>%s閰嶅鎷︽埅锛欸1/G2鏉ヨ嚜涓嶅悓ProcessJob(G1=%s,G2=%s)銆�",
+ bonderName, pj1.c_str(), pj2.c_str());
+ delete m_pActiveRobotTask;
+ m_pActiveRobotTask = nullptr;
+ return false;
+ }
+
+ // 鐢熶骇妯″紡鍥哄畾绔彛瀵癸細Port1<->Port2锛孭ort3<->Port4銆�
+ if (m_schedulingMode == SchedulingMode::Production) {
+ int g1Port = 0, g1Slot = 0, g2Port = 0, g2Slot = 0;
+ pIncomingG1->getOrginPort(g1Port, g1Slot);
+ pExistingG2->getOrginPort(g2Port, g2Slot);
+ const bool pairOk =
+ (g1Port == 0 && g2Port == 1) ||
+ (g1Port == 2 && g2Port == 3);
+ if (!pairOk) {
+ LOGW("<Master>%s閰嶅鎷︽埅锛氱鍙e涓嶅尮閰�(瑕佹眰1<->2鎴�3<->4, 瀹為檯G1Port=%d,G2Port=%d)銆�",
+ bonderName, g1Port + 1, g2Port + 1);
+ delete m_pActiveRobotTask;
+ m_pActiveRobotTask = nullptr;
+ return false;
+ }
+ }
+ return true;
+ };
+
// Bonder1銆丅onder2銆丗liper銆乂acuumBake銆丄ligner锛岀粺璁2鍜孏1鐨勬暟閲�, 閰嶅缁勬暟, 澶氬嚭鐨勭被鍨�
int nG2Count = 0, nG1Count = 0, nGlassGroup, nExtraType;
@@ -674,14 +843,22 @@
// Measurement -> LoadPort
- for (int s = 0; s < 4; s++) {
- PortType pt = pLoadPorts[s]->getPortType();
- if (!rmd.armState[0] && pLoadPorts[s]->isEnable()
- && (pt == PortType::Unloading || pt == PortType::Both)
- && pLoadPorts[s]->getPortStatus() == PORT_INUSE) {
- m_pActiveRobotTask = createTransferTask(pMeasurement, pLoadPorts[s], MaterialsType::G1, secondaryType);
- if (m_pActiveRobotTask != nullptr) {
- goto PORT_PUT;
+ if (m_schedulingMode == SchedulingMode::Production) {
+ if (!rmd.armState[0]) {
+ m_pActiveRobotTask = createTransferTask_returnOrigin(pMeasurement, pLoadPorts);
+ CHECK_RUN_ACTIVE_ROBOT_TASK(m_pActiveRobotTask);
+ }
+ }
+ else {
+ for (int s = 0; s < 4; s++) {
+ PortType pt = pLoadPorts[s]->getPortType();
+ if (!rmd.armState[0] && pLoadPorts[s]->isEnable()
+ && (pt == PortType::Unloading || pt == PortType::Both)
+ && pLoadPorts[s]->getPortStatus() == PORT_INUSE) {
+ m_pActiveRobotTask = createTransferTask(pMeasurement, pLoadPorts[s], MaterialsType::G1, secondaryType);
+ if (m_pActiveRobotTask != nullptr) {
+ goto PORT_PUT;
+ }
}
}
}
@@ -745,11 +922,17 @@
// VacuumBake(G1) -> Bonder
if (!rmd.armState[0] && pBonder1->slotHasGlass(0) && !pBonder1->slotHasGlass(1)) {
m_pActiveRobotTask = createTransferTask(pVacuumBake, pBonder1, MaterialsType::G1, MaterialsType::G0);
+ if (m_pActiveRobotTask != nullptr && !validateBonderPairProcessJob(pBonder1, "Bonder1")) {
+ // 鍚� PJ 鏍¢獙澶辫触锛屾湰杞笉涓嬪彂鎼��
+ }
CHECK_RUN_ACTIVE_ROBOT_TASK(m_pActiveRobotTask);
}
if (!rmd.armState[0] && pBonder2->slotHasGlass(0) && !pBonder2->slotHasGlass(1)) {
m_pActiveRobotTask = createTransferTask(pVacuumBake, pBonder2, MaterialsType::G1, MaterialsType::G0);
+ if (m_pActiveRobotTask != nullptr && !validateBonderPairProcessJob(pBonder2, "Bonder2")) {
+ // 鍚� PJ 鏍¢獙澶辫触锛屾湰杞笉涓嬪彂鎼��
+ }
CHECK_RUN_ACTIVE_ROBOT_TASK(m_pActiveRobotTask);
}
@@ -788,15 +971,45 @@
else {
primaryType = MaterialsType::G1;
}
+ const int preferredPortForPrimary = getPreferredPortForType(primaryType);
+ {
+ static int s_prevPrimaryType = -1;
+ static int s_prevPreferredPort = -2;
+ const int curPrimaryType = (int)primaryType;
+ if (s_prevPrimaryType != curPrimaryType || s_prevPreferredPort != preferredPortForPrimary) {
+ LOGI("<Master>LoadPort->Aligner瑙勫垯(RUNNING): primaryType=%d, preferredPort=%d",
+ curPrimaryType, preferredPortForPrimary >= 0 ? (preferredPortForPrimary + 1) : 0);
+ s_prevPrimaryType = curPrimaryType;
+ s_prevPreferredPort = preferredPortForPrimary;
+ }
+ }
for (int s = 0; s < 4; s++) {
PortType pt = pLoadPorts[s]->getPortType();
if (!rmd.armState[0] && pLoadPorts[s]->isEnable()
&& (pt == PortType::Loading || pt == PortType::Both)
&& pLoadPorts[s]->getPortStatus() == PORT_INUSE) {
+ if (!isProductionPortTypeMatch(s, primaryType)) {
+ continue;
+ }
+ if (preferredPortForPrimary >= 0 && s != preferredPortForPrimary) {
+ continue;
+ }
m_pActiveRobotTask = createTransferTask(pLoadPorts[s], pAligner, primaryType, secondaryType, 1, m_bJobMode);
if (m_pActiveRobotTask != nullptr) {
CGlass* pGlass = (CGlass*)m_pActiveRobotTask->getContext();
+ CProcessJob* pPJ = (pGlass != nullptr) ? pGlass->getProcessJob() : nullptr;
+ LOGI("<Master>LoadPort->Aligner鍛戒腑(RUNNING): port=%d, primaryType=%d, preferredPort=%d, glass=%s, scheduled=%d, pj=%s",
+ s + 1, (int)primaryType, preferredPortForPrimary >= 0 ? (preferredPortForPrimary + 1) : 0,
+ pGlass != nullptr ? pGlass->getID().c_str() : "",
+ (pGlass != nullptr && pGlass->isScheduledForProcessing()) ? 1 : 0,
+ pPJ != nullptr ? pPJ->id().c_str() : "NULL");
+ if (pGlass == nullptr) {
+ LOGE("<Master>LoadPort->Aligner鍛戒腑(RUNNING)浣哻ontext涓虹┖锛屼换鍔″凡涓㈠純.");
+ delete m_pActiveRobotTask;
+ m_pActiveRobotTask = nullptr;
+ continue;
+ }
if (pGlass->getBuddy() != nullptr) {
delete m_pActiveRobotTask;
m_pActiveRobotTask = nullptr;
@@ -878,6 +1091,118 @@
continue;
}
+ // 鐢熶骇妯″紡鍥哄畾鏄犲皠锛歅ort1/3 -> G1锛孭ort2/4 -> G2銆�
+ auto isProductionPortTypeMatch = [&](int portIndex, MaterialsType type) -> bool {
+ if (m_schedulingMode != SchedulingMode::Production) return true;
+ const bool isG1Port = (portIndex == 0 || portIndex == 2);
+ if (type == MaterialsType::G1) return isG1Port;
+ if (type == MaterialsType::G2) return !isG1Port;
+ return true;
+ };
+
+ // 鐢熶骇妯″紡锛氭牴鎹嚎涓婃湭閰嶅鐜荤拑鍙嶆帹涓嬩竴鐗囧簲鏉ヨ嚜鍝釜绔彛锛圥ort1<->2, Port3<->4锛夈��
+ auto getPreferredPortForType = [&](MaterialsType targetType) -> int {
+ if (m_schedulingMode != SchedulingMode::Production) return -1;
+
+ auto preferG1ByG2 = [&](CGlass* pG2) -> int {
+ if (pG2 == nullptr || pG2->getType() != MaterialsType::G2 || pG2->getBuddy() != nullptr) return -1;
+ int originPort = -1, originSlot = -1;
+ pG2->getOrginPort(originPort, originSlot);
+ if (originPort == 1) return 0; // Port2 -> Port1
+ if (originPort == 3) return 2; // Port4 -> Port3
+ return -1;
+ };
+ auto preferG2ByG1 = [&](CGlass* pG1) -> int {
+ if (pG1 == nullptr || pG1->getType() != MaterialsType::G1 || pG1->getBuddy() != nullptr) return -1;
+ int originPort = -1, originSlot = -1;
+ pG1->getOrginPort(originPort, originSlot);
+ if (originPort == 0) return 1; // Port1 -> Port2
+ if (originPort == 2) return 3; // Port3 -> Port4
+ return -1;
+ };
+
+ if (targetType == MaterialsType::G1) {
+ int p = preferG1ByG2(pBonder1->getGlassFromSlot(1)); if (p >= 0) return p;
+ p = preferG1ByG2(pBonder2->getGlassFromSlot(1)); if (p >= 0) return p;
+ p = preferG1ByG2(pFliper->getGlassFromSlot(1)); if (p >= 0) return p;
+ p = preferG1ByG2(pAligner->getGlassFromSlot(1)); if (p >= 0) return p;
+ }
+ else if (targetType == MaterialsType::G2) {
+ int p = preferG2ByG1(pBonder1->getGlassFromSlot(2)); if (p >= 0) return p;
+ p = preferG2ByG1(pBonder2->getGlassFromSlot(2)); if (p >= 0) return p;
+ p = preferG2ByG1(pVacuumBake->getGlassFromSlot(1)); if (p >= 0) return p;
+ p = preferG2ByG1(pVacuumBake->getGlassFromSlot(2)); if (p >= 0) return p;
+ p = preferG2ByG1(pAligner->getGlassFromSlot(1)); if (p >= 0) return p;
+ }
+
+ return -1;
+ };
+
+ // Job 妯″紡涓嬭姹� Bonder 鍐呯殑 G1/G2 鏉ヨ嚜鍚屼竴涓� ProcessJob銆�
+ auto validateBonderPairProcessJob = [&](CEquipment* pBonder, const char* bonderName) -> bool {
+ if (m_pActiveRobotTask == nullptr) return false;
+ CGlass* pIncomingG1 = (CGlass*)m_pActiveRobotTask->getContext();
+ CGlass* pExistingG2 = pBonder->getGlassFromSlot(0);
+ if (pIncomingG1 == nullptr || pExistingG2 == nullptr) return true;
+
+ CProcessJob* pjG1 = pIncomingG1->getProcessJob();
+ CProcessJob* pjG2 = pExistingG2->getProcessJob();
+ if (m_bJobMode && (pjG1 == nullptr || pjG2 == nullptr || pjG1 != pjG2)) {
+ std::string pj1 = (pjG1 == nullptr) ? "NULL" : pjG1->id();
+ std::string pj2 = (pjG2 == nullptr) ? "NULL" : pjG2->id();
+ LOGW("<Master>%s閰嶅鎷︽埅锛欸1/G2鏉ヨ嚜涓嶅悓ProcessJob(G1=%s,G2=%s)銆�",
+ bonderName, pj1.c_str(), pj2.c_str());
+ delete m_pActiveRobotTask;
+ m_pActiveRobotTask = nullptr;
+ return false;
+ }
+
+ // 鐢熶骇妯″紡鍥哄畾绔彛瀵癸細Port1<->Port2锛孭ort3<->Port4銆�
+ if (m_schedulingMode == SchedulingMode::Production) {
+ int g1Port = 0, g1Slot = 0, g2Port = 0, g2Slot = 0;
+ pIncomingG1->getOrginPort(g1Port, g1Slot);
+ pExistingG2->getOrginPort(g2Port, g2Slot);
+ const bool pairOk =
+ (g1Port == 0 && g2Port == 1) ||
+ (g1Port == 2 && g2Port == 3);
+ if (!pairOk) {
+ LOGW("<Master>%s閰嶅鎷︽埅锛氱鍙e涓嶅尮閰�(瑕佹眰1<->2鎴�3<->4, 瀹為檯G1Port=%d,G2Port=%d)銆�",
+ bonderName, g1Port + 1, g2Port + 1);
+ delete m_pActiveRobotTask;
+ m_pActiveRobotTask = nullptr;
+ return false;
+ }
+ }
+ return true;
+ };
+
+ // 5.5) 鏆傚仠鐘舵�佹鏌ワ細鑻� CJ 鎴栧湪鍒� PJ 澶勪簬 Paused锛屾殏缂撹皟搴︽柊鐨勬惉閫�
+ bool pausedByEvent = false;
+ if (m_pControlJob != nullptr && m_pControlJob->state() == CJState::Paused) {
+ pausedByEvent = true;
+ }
+ for (auto pj : m_inProcesJobs) {
+ if (pj != nullptr && pj->state() == PJState::Paused) {
+ pausedByEvent = true;
+ break;
+ }
+ }
+ if (!pausedByEvent && m_bPauseAlarmRaised) {
+ if (m_pModelCtx != nullptr) {
+ m_pModelCtx->clearSoftAlarm(ALID_SOFTWARE_PAUSE_EVENT, 0, 0);
+ }
+ else {
+ AlarmManager& alarmManager = AlarmManager::getInstance();
+ alarmManager.clearAlarmByAttributes(ALID_SOFTWARE_PAUSE_EVENT, 0, 0, CToolUnits::getCurrentTimeString());
+ }
+ m_bPauseAlarmRaised = false;
+ }
+ if (pausedByEvent) {
+ LOGI("<Master>璋冨害鏆傚仠锛欳ontrolJob/ProcessJob 澶勪簬 Paused 鐘舵�侊紙鍙兘鐢� PauseEvent 瑙﹀彂锛�");
+ unlock();
+ continue;
+ }
+
// 6) 鈥斺�斿叧閿細鍏ㄥ眬缁熻 G1/G2 涓庣粍鏁伴棬闄愶紙涓庡崟鐗囧垎鏀榻愶級鈥斺��
auto countG1G2 = [&]() {
int g1 = 0, g2 = 0;
@@ -909,19 +1234,27 @@
// 缁勬暟闂ㄩ檺锛氣墺2 缁勬椂涓嶅啀浠� LP 涓婄墖锛岄伩鍏嶅爢绉紙涓庡崟鐗囦竴鑷达級
bool blockLoadFromLP = (nGlassGroup >= 2);
- // 7) Measurement -> LoadPort锛堝浐瀹氾細G1 浼樺厛鍥� LP锛�
+ // 7) Measurement -> LoadPort
if (rmd.armState[0] || rmd.armState[1]) {
LOGD("Arm1 %s, Arm2 %s.",
rmd.armState[0] ? _T("涓嶅彲鐢�") : _T("鍙敤"),
rmd.armState[1] ? _T("涓嶅彲鐢�") : _T("鍙敤"));
}
- for (int s = 0; s < 4; s++) {
- PortType pt = pLoadPorts[s]->getPortType();
- if (!rmd.armState[0] && pLoadPorts[s]->isEnable()
- && (pt == PortType::Unloading || pt == PortType::Both)
- && pLoadPorts[s]->getPortStatus() == PORT_INUSE) {
- m_pActiveRobotTask = createTransferTask(pMeasurement, pLoadPorts[s], MaterialsType::G1, secondaryType);
- if (m_pActiveRobotTask != nullptr) { goto BATCH_PORT_PUT; }
+ if (m_schedulingMode == SchedulingMode::Production) {
+ if (!rmd.armState[0]) {
+ m_pActiveRobotTask = createTransferTask_returnOrigin(pMeasurement, pLoadPorts);
+ CHECK_RUN_ACTIVE_ROBOT_TASK(m_pActiveRobotTask);
+ }
+ }
+ else {
+ for (int s = 0; s < 4; s++) {
+ PortType pt = pLoadPorts[s]->getPortType();
+ if (!rmd.armState[0] && pLoadPorts[s]->isEnable()
+ && (pt == PortType::Unloading || pt == PortType::Both)
+ && pLoadPorts[s]->getPortStatus() == PORT_INUSE) {
+ m_pActiveRobotTask = createTransferTask(pMeasurement, pLoadPorts[s], MaterialsType::G1, secondaryType);
+ if (m_pActiveRobotTask != nullptr) { goto BATCH_PORT_PUT; }
+ }
}
}
@@ -971,10 +1304,16 @@
// 13) VacuumBake(G1) -> Bonder锛堟Ы绾у垽瀹氾細slot0(G2) 宸叉湁涓� slot1(G1) 涓虹┖锛�
if (!rmd.armState[0] && pBonder1->slotHasGlass(0) && !pBonder1->slotHasGlass(1)) {
m_pActiveRobotTask = createTransferTask(pVacuumBake, pBonder1, MaterialsType::G1, MaterialsType::G0);
+ if (m_pActiveRobotTask != nullptr && !validateBonderPairProcessJob(pBonder1, "Bonder1")) {
+ // 鍚� PJ 鏍¢獙澶辫触锛屾湰杞笉涓嬪彂鎼��
+ }
CHECK_RUN_ACTIVE_ROBOT_TASK(m_pActiveRobotTask);
}
if (!rmd.armState[0] && pBonder2->slotHasGlass(0) && !pBonder2->slotHasGlass(1)) {
m_pActiveRobotTask = createTransferTask(pVacuumBake, pBonder2, MaterialsType::G1, MaterialsType::G0);
+ if (m_pActiveRobotTask != nullptr && !validateBonderPairProcessJob(pBonder2, "Bonder2")) {
+ // 鍚� PJ 鏍¢獙澶辫触锛屾湰杞笉涓嬪彂鎼��
+ }
CHECK_RUN_ACTIVE_ROBOT_TASK(m_pActiveRobotTask);
}
@@ -996,16 +1335,46 @@
// 16) LoadPort -> Aligner锛堝彈缁勬暟闂ㄩ檺鎺у埗锛涚粺涓� buddy/鐘舵�佹椂搴忥級
if (blockLoadFromLP) { unlock(); continue; }
+ const int preferredPortForPrimary = getPreferredPortForType(primaryType);
+ {
+ static int s_prevPrimaryType = -1;
+ static int s_prevPreferredPort = -2;
+ const int curPrimaryType = (int)primaryType;
+ if (s_prevPrimaryType != curPrimaryType || s_prevPreferredPort != preferredPortForPrimary) {
+ LOGI("<Master>LoadPort->Aligner瑙勫垯(RUNNING_BATCH): primaryType=%d, preferredPort=%d",
+ curPrimaryType, preferredPortForPrimary >= 0 ? (preferredPortForPrimary + 1) : 0);
+ s_prevPrimaryType = curPrimaryType;
+ s_prevPreferredPort = preferredPortForPrimary;
+ }
+ }
for (int s = 0; s < 4; s++) {
PortType pt = pLoadPorts[s]->getPortType();
if (!rmd.armState[0] && pLoadPorts[s]->isEnable()
&& (pt == PortType::Loading || pt == PortType::Both)
&& pLoadPorts[s]->getPortStatus() == PORT_INUSE) {
+ if (!isProductionPortTypeMatch(s, primaryType)) {
+ continue;
+ }
+ if (preferredPortForPrimary >= 0 && s != preferredPortForPrimary) {
+ continue;
+ }
m_pActiveRobotTask = createTransferTask(pLoadPorts[s], pAligner, primaryType, secondaryType, 1, m_bJobMode);
if (m_pActiveRobotTask != nullptr) {
auto* pGlass = static_cast<CGlass*>(m_pActiveRobotTask->getContext());
+ CProcessJob* pPJ = (pGlass != nullptr) ? pGlass->getProcessJob() : nullptr;
+ LOGI("<Master>LoadPort->Aligner鍛戒腑(RUNNING_BATCH): port=%d, primaryType=%d, preferredPort=%d, glass=%s, scheduled=%d, pj=%s",
+ s + 1, (int)primaryType, preferredPortForPrimary >= 0 ? (preferredPortForPrimary + 1) : 0,
+ pGlass != nullptr ? pGlass->getID().c_str() : "",
+ (pGlass != nullptr && pGlass->isScheduledForProcessing()) ? 1 : 0,
+ pPJ != nullptr ? pPJ->id().c_str() : "NULL");
+ if (pGlass == nullptr) {
+ LOGE("<Master>LoadPort->Aligner鍛戒腑(RUNNING_BATCH)浣哻ontext涓虹┖锛屼换鍔″凡涓㈠純.");
+ delete m_pActiveRobotTask;
+ m_pActiveRobotTask = nullptr;
+ continue;
+ }
if (pGlass->getBuddy() != nullptr) {
delete m_pActiveRobotTask; m_pActiveRobotTask = nullptr;
continue;
@@ -1483,6 +1852,7 @@
this->saveState();
LOGE("<Master>ProcessJob(%s)瀹屾垚.",
pJob->id().c_str());
+ processJobFromInPorcessToComplete(pJob);
if (m_listener.onPjEnd != nullptr) {
m_listener.onPjEnd(this, pJob);
}
@@ -1536,7 +1906,7 @@
unlock();
}
};
- listener.onProcessStateChanged = [&](void* pEquipment, int slotNo, PROCESS_STATE state) -> void {
+ listener.onProcessStateChanged = [&](void* pEquipment, int slotNo, PROCESS_STATE prevState, PROCESS_STATE state) -> void {
ASSERT(1 <= slotNo && slotNo <= 8);
int eqid = ((CEquipment*)pEquipment)->getID();
CGlass* pGlass = ((CEquipment*)pEquipment)->getGlassFromSlot(slotNo);
@@ -1551,6 +1921,15 @@
if (pGlass != nullptr) {
m_pCollector->batchStop(SlotToMid(eqid, slotNo));
}
+ }
+
+ if (m_listener.onProcessStateChanged != nullptr) {
+ m_listener.onProcessStateChanged(this, (CEquipment*)pEquipment, slotNo, prevState, state);
+ }
+ };
+ listener.onProcessDataReport = [&](void* pEquipment, const std::vector<CParam>& params) {
+ if (m_listener.onProcessDataReport != nullptr) {
+ m_listener.onProcessDataReport(this, (CEquipment*)pEquipment, params);
}
};
listener.onMapMismatch = [&](void* pEquipment, short scanMap, short downMap) {
@@ -1573,12 +1952,36 @@
pGlass->setProcessJob(pj);
PJWarp& jpWarp = pj->getPjWarp();
+ int portIndex = -1;
+ switch (pPort->getID()) {
+ case EQ_ID_LOADPORT1: portIndex = 0; break;
+ case EQ_ID_LOADPORT2: portIndex = 1; break;
+ case EQ_ID_LOADPORT3: portIndex = 2; break;
+ case EQ_ID_LOADPORT4: portIndex = 3; break;
+ default: break;
+ }
+
+ BOOL scheduled = FALSE;
+ int material = 1; // G1
+ if (1 <= slot && slot <= 8) {
+ if (0 <= portIndex && portIndex <= 3 && jpWarp.selectedPorts[portIndex]) {
+ scheduled = jpWarp.checkSlots[portIndex][slot - 1];
+ material = jpWarp.materialSlots[portIndex][slot - 1];
+ }
+ else {
+ // Backward compatibility for legacy single-port PJWarp.
+ scheduled = jpWarp.checkSlot[slot - 1];
+ material = jpWarp.material[slot - 1];
+ }
+ }
+ material = (material == 2) ? 2 : 1;
+
int nRecipeID = RecipeManager::getInstance().getIdByPPID(pj->recipeSpec());
RecipeInfo stRecipeInfo = RecipeManager::getInstance().getRecipeByPPID(pj->recipeSpec());
std::vector<DeviceRecipe> vecRecipeInfo = stRecipeInfo.vecDeviceList;
- pGlass->setScheduledForProcessing(jpWarp.checkSlot[slot-1]);
- pGlass->setType(static_cast<SERVO::MaterialsType>(jpWarp.material[slot-1]));
+ pGlass->setScheduledForProcessing(scheduled);
+ pGlass->setType(static_cast<SERVO::MaterialsType>(material));
SERVO::CJobDataS* pJobDataS = pGlass->getJobDataS();
if (pJobDataS != nullptr) {
@@ -1586,7 +1989,7 @@
pJobDataS->setLotId(pj->getLotId().c_str());
pJobDataS->setProductId(pj->getProductId().c_str());
pJobDataS->setOperationId(pj->getOperationId().c_str());
- pJobDataS->setMaterialsType(jpWarp.material[slot - 1]);
+ pJobDataS->setMaterialsType(material);
pJobDataS->setMasterRecipe(nRecipeID);
for (const auto& info : vecRecipeInfo) {
const std::string& name = info.strDeviceName;
@@ -1624,6 +2027,15 @@
}
};
listener.onSVDataReport = [&](void* pEquipment, void* pData) {
+ const bool allowSvLog =
+ (m_state == MASTERSTATE::RUNNING ||
+ m_state == MASTERSTATE::RUNNING_CONTINUOUS_TRANSFER ||
+ m_state == MASTERSTATE::RUNNING_BATCH ||
+ m_state == MASTERSTATE::STARTING);
+ const bool allowCurve = allowSvLog || (m_curveMode == CurveMode::EmptyChamber);
+ if (!allowCurve) {
+ return;
+ }
CSVData* pSVData = (CSVData*)pData;
auto rawData = pSVData->getSVRawData();
std::vector<CParam> params;
@@ -1675,18 +2087,23 @@
int paramIndex = mapping.first;
int channel = mapping.second;
- if (paramIndex < params.size() && channel - 1 < vacuumbakeTypes.size()) {
+ if (paramIndex < params.size()) {
auto& param = params.at(paramIndex);
double value = param.getDoubleValue();
- const std::string& dataType = vacuumbakeTypes[channel - 1];
const std::string& paramName = param.getName();
const char slotTag = !paramName.empty() ? paramName[0] : '\0';
+ const int typeIndex = (slotTag == 'B') ? (channel - 8) : (channel - 1);
+ if (typeIndex < 0 || typeIndex >= (int)vacuumbakeTypes.size()) {
+ continue;
+ }
+ const int pushChannel = typeIndex + 1;
+ const std::string& dataType = vacuumbakeTypes[typeIndex];
if (m_pCollector != nullptr) {
if (slotTag == 'A')
- m_pCollector->buffersPush(SlotToMid(eqid, 1), channel, ts, value);
+ m_pCollector->buffersPush(SlotToMid(eqid, 1), pushChannel, ts, value);
else if (slotTag == 'B')
- m_pCollector->buffersPush(SlotToMid(eqid, 2), channel, ts, value);
+ m_pCollector->buffersPush(SlotToMid(eqid, 2), pushChannel, ts, value);
}
// 鏍规嵁鑵斾綋鍓嶇紑鍐欏叆瀵瑰簲 Slot 鐨勭幓鐠�
@@ -1720,20 +2137,25 @@
int paramIndex = mapping.first;
int channel = mapping.second;
- if (paramIndex < params.size() && channel - 1 < coolingTypes.size()) {
+ if (paramIndex < params.size()) {
auto& param = params.at(paramIndex);
double value = param.getDoubleValue();
- const std::string& dataType = coolingTypes[channel - 1];
const std::string& paramName = param.getName();
const char slotTag = !paramName.empty() ? paramName[0] : '\0';
const bool paramIsBake = paramName.find("鐑樼儰") != std::string::npos;
const bool paramIsCooling = paramName.find("鍐峰嵈") != std::string::npos;
+ const int typeIndex = (slotTag == 'B') ? (channel - 7) : (channel - 1);
+ if (typeIndex < 0 || typeIndex >= (int)coolingTypes.size()) {
+ continue;
+ }
+ const int pushChannel = typeIndex + 1;
+ const std::string& dataType = coolingTypes[typeIndex];
if (m_pCollector != nullptr && paramIsBake) {
if (slotTag == 'A')
- m_pCollector->buffersPush(SlotToMid(eqid, 1), channel, ts, value);
+ m_pCollector->buffersPush(SlotToMid(eqid, 1), pushChannel, ts, value);
else if (slotTag == 'B')
- m_pCollector->buffersPush(SlotToMid(eqid, 3), channel, ts, value);
+ m_pCollector->buffersPush(SlotToMid(eqid, 3), pushChannel, ts, value);
}
if (!dataType.empty()) {
@@ -1773,6 +2195,10 @@
strOut.append(szBuffer);
}
LOGD("<CMaster-%s>SVDataReport:%s", ((CEquipment*)pEquipment)->getName().c_str(), strOut.c_str());
+
+ if (m_listener.onSVDataReport != nullptr) {
+ m_listener.onSVDataReport(this, (CEquipment*)pEquipment, params);
+ }
};
listener.onPanelDataReport = [&](void* pEquipment, void* pContext) {
LOGD("<CMaster-%s>onPanelDataReport", ((CEquipment*)pEquipment)->getName().c_str());
@@ -1792,6 +2218,21 @@
}
}
+ };
+ listener.onReceivedJob = [&](void* pEquipment, int port, CJobDataS* pJobDataS) {
+ if (m_listener.onJobReceived != nullptr) {
+ m_listener.onJobReceived(this, (CEquipment*)pEquipment, port, pJobDataS);
+ }
+ };
+ listener.onSentOutJob = [&](void* pEquipment, int port, CJobDataS* pJobDataS) {
+ if (m_listener.onJobSentOut != nullptr) {
+ m_listener.onJobSentOut(this, (CEquipment*)pEquipment, port, pJobDataS);
+ }
+ };
+ listener.onEqStatusChanged = [&](void* pEquipment, int unitId, int status, int reason) {
+ if (m_listener.onEqStatusChanged != nullptr) {
+ m_listener.onEqStatusChanged(this, (CEquipment*)pEquipment, unitId, status, reason);
+ }
};
pEquipment->setListener(listener);
pEquipment->setCcLink(&m_cclink);
@@ -2031,6 +2472,201 @@
}
+ // 妯℃嫙娴嬭瘯锛堟棤鏈哄櫒鑱旀満鏃剁敤浜庤仈璋� EAP锛�
+ // 璇诲彇 test.ini锛堝綋鍓嶇洰褰曟垨 exe 鍚岀洰褰曪級
+ {
+ struct SimCfg {
+ bool enabled{ false };
+ DWORD intervalMs{ 5000 };
+ int step{ 0 };
+ };
+ auto loadCfg = [&]() -> SimCfg {
+ SimCfg cfg;
+
+ // Try INI: current dir, then exe dir
+ char iniPath[MAX_PATH] = { 0 };
+ strcpy_s(iniPath, "test.ini");
+ auto readIni = [&](const char* path) -> bool {
+ const UINT en = GetPrivateProfileIntA("SimEap", "Enabled", 0, path);
+ if (en == 0) return false; // treat as missing/disabled
+ cfg.enabled = (en != 0);
+ cfg.intervalMs = (DWORD)GetPrivateProfileIntA("SimEap", "IntervalMs", 5000, path);
+ cfg.intervalMs = max(500u, cfg.intervalMs);
+ cfg.step = (int)GetPrivateProfileIntA("SimEap", "Step", 0, path);
+ return true;
+ };
+ if (!readIni(iniPath)) {
+ char exePath[MAX_PATH] = { 0 };
+ GetModuleFileNameA(NULL, exePath, MAX_PATH);
+ char* lastSlash = strrchr(exePath, '\\');
+ if (lastSlash != nullptr) {
+ *(lastSlash + 1) = '\0';
+ strcat_s(exePath, "test.ini");
+ readIni(exePath);
+ }
+ }
+ return cfg;
+ };
+
+ const SimCfg cfg = loadCfg();
+ if (cfg.enabled) {
+ static DWORD lastTick = 0;
+ static int lastExecutedStep = -1;
+ static bool inited = false;
+ static SERVO::CGlass simGlass;
+ static SERVO::CVcrEventReport simVcr;
+ static SERVO::CProcessJob simPj("PJ1001");
+ static SERVO::CControlJob simCj("CJ5007");
+
+ if (!inited) {
+ inited = true;
+ simGlass.setID("SIM_PANEL_001");
+ simVcr.getGlassId() = "SIM_PANEL_001";
+ }
+
+ DWORD now = GetTickCount();
+ if (lastTick == 0) lastTick = now;
+ if ((now - lastTick) < cfg.intervalMs) {
+ return;
+ }
+ lastTick = now;
+
+ // 鍗曟瑙﹀彂锛氭瘡涓� Step 鍙墽琛屼竴娆★紱浣犳墜鍔ㄤ慨鏀� ini 鐨� Step 鍊煎悗浼氬啀娆¤Е鍙�
+ const int step = cfg.step;
+ if (step <= 0 || step == lastExecutedStep) {
+ return;
+ }
+ lastExecutedStep = step;
+
+ // 鍙栦竴涓� LoadPort 浣滀负妯℃嫙鐩爣
+ SERVO::CLoadPort* pLpEq = (SERVO::CLoadPort*)getEquipment(EQ_ID_LOADPORT1);
+
+ auto fireLoadPortStatus = [&](short status) {
+ pLpEq->simulateSetCassetteId("Test-Cassette-001");
+ if (m_listener.onLoadPortStatusChanged != nullptr && pLpEq != nullptr) {
+ m_listener.onLoadPortStatusChanged(this, pLpEq, status, 0);
+ }
+ };
+ auto fireProcessState = [&](SERVO::CEquipment* pEq, int slotNo, SERVO::PROCESS_STATE st) {
+ // Drive equipment state so listeners receive prev/current states consistently.
+ if (pEq != nullptr) {
+ pEq->fireSetProcessState(slotNo, st);
+ }
+ };
+
+ LOGI("<Master>SIM_EAP single-step=%d", step);
+ switch (step) {
+ // ===== 涓氬姟娴佺▼姝ラ锛�1~23锛�=====
+ case 1: // E87_06 Material Arrived(TransferBlock) -> Port Blocked
+ fireLoadPortStatus(PORT_BLOCKED);
+ break;
+ case 2: // E87_03 CarrierID Readed -> Port InUse
+ fireLoadPortStatus(PORT_INUSE);
+ break;
+ case 3: // S1F3 Query CJ Space (Host->EQ) - wait host
+ LOGI("<Master>SIM_EAP step3: wait host S1F3");
+ break;
+ case 4: // S16F21 Query PJ Space (Host->EQ) - wait host
+ LOGI("<Master>SIM_EAP step4: wait host S16F21");
+ break;
+ case 5: // S7F19 Query PPID List (Host->EQ) - wait host
+ LOGI("<Master>SIM_EAP step5: wait host S7F19");
+ break;
+ case 6: // S3F17 ProceedWithCarrier (Host->EQ) - wait host
+ LOGI("<Master>SIM_EAP step6: wait host S3F17 ProceedWithCarrier");
+ break;
+ case 7: // E87_14 Check SlotMap (璁惧涓婃姤/杩涘叆 WFH) - 鐢� PORT_INUSE 鍐呴儴瑙﹀彂
+ fireLoadPortStatus(PORT_INUSE);
+ break;
+ case 8: // S3F17 ProceedWithSlotMap (Host->EQ) - wait host
+ LOGI("<Master>SIM_EAP step8: wait host S3F17 ProceedWithSlotMap");
+ break;
+ case 9: // SlotMap Verify OK (鏈」鐩湪鏀跺埌 ProceedWithSlotMap 鍚庝笂鎶�) - wait host
+ LOGI("<Master>SIM_EAP step9: wait host ProceedWithSlotMap to trigger VerifyOK");
+ break;
+ case 10: // Create PJ (Host->EQ) - wait host
+ LOGI("<Master>SIM_EAP step10: wait host S16F15 CreateMultiPJ");
+ break;
+ case 11: // PJ Queued锛堟湰椤圭洰鍦ㄥ垱寤� PJ 鍚庝笂鎶ワ級 - wait host
+ LOGI("<Master>SIM_EAP step11: wait host CreateMultiPJ to trigger PJ_Queued");
+ break;
+ case 12: // Create CJ (Host->EQ) - wait host
+ LOGI("<Master>SIM_EAP step12: wait host S14F9 CreateCJ");
+ break;
+ case 13: // CJ Start
+ if (m_listener.onCjStart != nullptr) m_listener.onCjStart(this, &simCj);
+ break;
+ case 14: // PJ Start
+ if (m_listener.onPjStart != nullptr) m_listener.onPjStart(this, &simPj);
+ break;
+ case 15: // OCR
+ if (m_listener.onEqVcrEventReport != nullptr && pLpEq != nullptr) {
+ m_listener.onEqVcrEventReport(this, pLpEq, &simVcr);
+ }
+ break;
+ case 16: // Panel Start
+ if (m_listener.onPanelStart != nullptr) m_listener.onPanelStart(this, &simGlass);
+ // 鍚屾椂瑙﹀彂涓�娆″瓙鏈哄彴寮�濮嬶紙绀轰緥锛欱onder1, slot 1锛�
+ fireProcessState(getEquipment(EQ_ID_Bonder1), 1, SERVO::PROCESS_STATE::Processing);
+ break;
+ case 17: // Panel End
+ // 鍚屾椂瑙﹀彂涓�娆″瓙鏈哄彴缁撴潫锛堢ず渚嬶細Bonder1, slot 1锛�
+ fireProcessState(getEquipment(EQ_ID_Bonder1), 1, SERVO::PROCESS_STATE::Complete);
+ if (m_listener.onPanelEnd != nullptr) m_listener.onPanelEnd(this, &simGlass);
+ break;
+ case 18: // PJ End
+ if (m_listener.onPjEnd != nullptr) m_listener.onPjEnd(this, &simPj);
+ break;
+ case 19: // CJ End
+ if (m_listener.onCjEnd != nullptr) m_listener.onCjEnd(this, &simCj);
+ break;
+ case 20: // Ready to Release (Port Unload Ready; with prev INUSE will also trigger ReadyToRelease)
+ fireLoadPortStatus(PORT_UNLOAD_READY);
+ break;
+ case 21: // CarrierRelease (Host->EQ) - optional / wait host
+ LOGI("<Master>SIM_EAP step21: wait host S3F17 CarrierRelease");
+ break;
+ case 22: // Ready to Unload
+ fireLoadPortStatus(PORT_UNLOAD_READY);
+ break;
+ case 23: // Material Removed (and ReadyToLoad)
+ fireLoadPortStatus(PORT_LOAD_READY);
+ fireLoadPortStatus(PORT_EMPTY); // will also raise LoadPortNotAssoc via Model
+ break;
+ case 24: { // 妯℃嫙 SV Data锛堢ず渚嬶細Bonder1锛�
+ SERVO::CEquipment* pEq = getEquipment(EQ_ID_Bonder1);
+ if (pEq != nullptr && m_listener.onSVDataReport != nullptr) {
+ static int counter = 0;
+ ++counter;
+ std::vector<CParam> params;
+ params.emplace_back("MockSV_Temp", "1", "C", 25 + (counter % 5));
+ params.emplace_back("MockSV_Pressure", "2", "kPa", 100 + (counter % 3));
+ params.emplace_back("MockSV_Speed", "3", "mm/s", 50 + (counter % 7));
+ m_listener.onSVDataReport(this, pEq, params);
+ LOGI("<Master>SIM_EAP step24: mock SVData (Bonder1), params=%zu", params.size());
+ }
+ break;
+ }
+ case 25: { // 妯℃嫙 Process Data锛堢ず渚嬶細Bonder1锛�
+ SERVO::CEquipment* pEq = getEquipment(EQ_ID_Bonder1);
+ if (pEq != nullptr && m_listener.onProcessDataReport != nullptr) {
+ static int counter = 0;
+ ++counter;
+ std::vector<CParam> params;
+ params.emplace_back("MockProc_CycleTime", "1", "s", 30 + (counter % 4));
+ params.emplace_back("MockProc_MaxTemp", "2", "C", 200 + (counter % 6));
+ params.emplace_back("MockProc_Result", "3", "", (counter % 2) ? 1 : 0);
+ m_listener.onProcessDataReport(this, pEq, params);
+ LOGI("<Master>SIM_EAP step25: mock ProcessData (Bonder1), params=%zu", params.size());
+ }
+ break;
+ }
+ default:
+ break;
+ }
+ }
+ }
+
// 妯℃嫙娴嬭瘯
/*
@@ -2107,11 +2743,19 @@
nRet = pLoadPort1->getPin("Out")->connectPin(pAligner->getPin("In1"));
if (nRet < 0) {
- LOGE("杩炴帴LoadPort1-Fliper澶辫触");
+ LOGE("杩炴帴LoadPort1-Aligner澶辫触");
}
nRet = pLoadPort2->getPin("Out")->connectPin(pAligner->getPin("In2"));
if (nRet < 0) {
- LOGE("杩炴帴LoadPort1-Fliper澶辫触");
+ LOGE("杩炴帴LoadPort2-Aligner澶辫触");
+ }
+ nRet = pLoadPort3->getPin("Out")->connectPin(pAligner->getPin("In3"));
+ if (nRet < 0) {
+ LOGE("杩炴帴LoadPort3-Aligner澶辫触");
+ }
+ nRet = pLoadPort4->getPin("Out")->connectPin(pAligner->getPin("In4"));
+ if (nRet < 0) {
+ LOGE("杩炴帴LoadPort4-Aligner澶辫触");
}
nRet = pAligner->getPin("Out1")->connectPin(pFliper->getPin("In"));
@@ -2156,14 +2800,29 @@
LOGE("杩炴帴BakeCooling-LoadPort3澶辫触");
}
- nRet = pMeasurement->getPin("Out1")->connectPin(pLoadPort3->getPin("In"));
- if (nRet < 0) {
- LOGE("杩炴帴BakeCooling-LoadPort3澶辫触");
- }
+ if (m_schedulingMode == SchedulingMode::Production) {
+ // 鐢熶骇妯″紡锛氭祴閲忚緭鍑哄洖鍒� G1 鍘熶綅锛堥粯璁� Port1 / Port3锛�
+ nRet = pMeasurement->getPin("Out1")->connectPin(pLoadPort1->getPin("In"));
+ if (nRet < 0) {
+ LOGE("杩炴帴Measurement-LoadPort1澶辫触");
+ }
- nRet = pMeasurement->getPin("Out2")->connectPin(pLoadPort4->getPin("In"));
- if (nRet < 0) {
- LOGE("杩炴帴BakeCooling-LoadPort4澶辫触");
+ nRet = pMeasurement->getPin("Out2")->connectPin(pLoadPort3->getPin("In"));
+ if (nRet < 0) {
+ LOGE("杩炴帴Measurement-LoadPort3澶辫触");
+ }
+ }
+ else {
+ // 璋冩満妯″紡锛氱淮鎸佸師杩炴帴锛圤ut1->Port3, Out2->Port4锛�
+ nRet = pMeasurement->getPin("Out1")->connectPin(pLoadPort3->getPin("In"));
+ if (nRet < 0) {
+ LOGE("杩炴帴Measurement-LoadPort3澶辫触");
+ }
+
+ nRet = pMeasurement->getPin("Out2")->connectPin(pLoadPort4->getPin("In"));
+ if (nRet < 0) {
+ LOGE("杩炴帴Measurement-LoadPort4澶辫触");
+ }
}
}
@@ -2393,6 +3052,57 @@
return pTask;
}
+ CRobotTask* CMaster::createTransferTask_returnOrigin(CEquipment* pEqSrc, CLoadPort** pPorts)
+ {
+ if (!pEqSrc->IsEnabled()) {
+ return nullptr;
+ }
+
+ CSlot* pSrcSlot = pEqSrc->getProcessedSlot(MaterialsType::G1, m_bJobMode);
+ if (pSrcSlot == nullptr) {
+ return nullptr;
+ }
+
+ CGlass* pGlass = (CGlass*)pSrcSlot->getContext();
+ if (pGlass == nullptr) {
+ return nullptr;
+ }
+
+ int port = 0, slot = 0;
+ pGlass->getOrginPort(port, slot);
+ if (port < 0 || port >= 4 || slot < 0 || slot >= SLOT_MAX) {
+ return nullptr;
+ }
+
+ CLoadPort* pPort = pPorts[port];
+ if (pPort == nullptr || !pPort->isEnable()) {
+ return nullptr;
+ }
+ PortType pt = pPort->getPortType();
+ if (!(pt == PortType::Unloading || pt == PortType::Both)) {
+ return nullptr;
+ }
+ if (pPort->getPortStatus() != PORT_INUSE) {
+ return nullptr;
+ }
+
+ CSlot* pTarSlot = pPort->getSlot(slot);
+ if (pTarSlot == nullptr) {
+ return nullptr;
+ }
+ if (!pTarSlot->isEnable() || pTarSlot->isLock() || pTarSlot->getContext() != nullptr) {
+ return nullptr;
+ }
+
+ CRobotTask* pTask = new CRobotTask();
+ pTask->setContext(pSrcSlot->getContext());
+ pTask->setEFEM((CEFEM*)getEquipment(EQ_ID_EFEM));
+ taskSeqNo = pTask->setRobotTransferParam(taskSeqNo, 1, pSrcSlot->getPosition(),
+ pTarSlot->getPosition(), pSrcSlot->getNo(), pTarSlot->getNo());
+
+ return pTask;
+ }
+
CRobotTask* CMaster::createTransferTask_continuous_transfer(CEquipment* pSrcEq, int nSrcSlot,
CEquipment* pTarEq, int nTarSlot, int armNo/* = 1*/)
{
@@ -2502,6 +3212,19 @@
pPort->localSetCessetteType(type);
}
+ void CMaster::applySchedulingModePortMapping()
+ {
+ // 鐢熶骇妯″紡锛氬浐瀹� Port1/Port3 涓� G1锛孭ort2/Port4 涓� G2锛圙4 鏈畾涔夛紝鎸� G2 澶勭悊锛�
+ if (m_schedulingMode != SchedulingMode::Production) {
+ return;
+ }
+
+ setPortCassetteType(0, SERVO::CassetteType::G1);
+ setPortCassetteType(1, SERVO::CassetteType::G2);
+ setPortCassetteType(2, SERVO::CassetteType::G1);
+ setPortCassetteType(3, SERVO::CassetteType::G2);
+ }
+
void CMaster::setPortEnable(unsigned int index, BOOL bEnable)
{
ASSERT(index < 4);
@@ -2565,7 +3288,57 @@
static int pid[] = { EQ_ID_LOADPORT1, EQ_ID_LOADPORT2, EQ_ID_LOADPORT3, EQ_ID_LOADPORT4};
CLoadPort* pPort = (CLoadPort*)getEquipment(pid[port]);
- pPort->sendCassetteCtrlCmd(CCC_PROCESS_START, nullptr, 0, 0, 0, nullptr, nullptr);
+ if (pPort == nullptr) return -1;
+
+ short jobExistence[12] = { 0 };
+ short slotProcess = 0;
+ short jobCount = 0; // 0 = Process All Glass
+ bool anyScheduled = false;
+
+ // Prefer hardware scan map for job existence (first 16 slots).
+ const short scanMap = pPort->getScanCassetteMap();
+ if (scanMap != 0) {
+ jobExistence[0] = scanMap;
+ }
+
+ const int maxSlots = 12 * 16;
+ const int totalSlots = (SLOT_MAX < maxSlots) ? SLOT_MAX : maxSlots;
+ for (int slot = 1; slot <= totalSlots; ++slot) {
+ CGlass* pGlass = pPort->getGlassFromSlot(slot);
+ if (pGlass == nullptr) continue;
+
+ const int wordIndex = (slot - 1) / 16;
+ const int bitIndex = (slot - 1) % 16;
+ jobExistence[wordIndex] = (short)(jobExistence[wordIndex] | (1 << bitIndex));
+
+ if (slot <= 16 && pGlass->isScheduledForProcessing()) {
+ slotProcess = (short)(slotProcess | (1 << bitIndex));
+ anyScheduled = true;
+ }
+ }
+
+ if (!anyScheduled) {
+ slotProcess = jobExistence[0];
+ }
+
+ bool hasExistence = false;
+ for (short w : jobExistence) {
+ if (w != 0) { hasExistence = true; break; }
+ }
+ const int portStatus = pPort->getPortStatus();
+ if (!hasExistence) {
+ LOGE("ProcessStart blocked (ProceedWithCarrier): no JobExistence map (port=%u, portStatus=%d, scanMap=%d, cassetteId=%s).",
+ port + 1, portStatus, scanMap, pPort->getCassetteId().c_str());
+ return -2;
+ }
+ if (portStatus != PORT_INUSE) {
+ LOGW("ProcessStart warning (ProceedWithCarrier): port status is %d (expected INUSE).", portStatus);
+ }
+ LOGI("ProcessStart payload (ProceedWithCarrier): port=%u, cassetteId=%s, scanMap=%d, jobExistence0=%d, jobExistence1=%d, slotProcess=%d, anyScheduled=%d",
+ port + 1, pPort->getCassetteId().c_str(), scanMap,
+ (int)jobExistence[0], (int)jobExistence[1], (int)slotProcess, anyScheduled ? 1 : 0);
+
+ pPort->sendCassetteCtrlCmd(CCC_PROCESS_START, jobExistence, 12, slotProcess, jobCount, nullptr, nullptr);
return 0;
}
@@ -2600,21 +3373,101 @@
}
m_processJobs = temp;
+ // 閲嶇疆鍚勭鍙� DownloadMap锛圚ost/鏈湴鍕鹃�夌殑鏈熸湜鍔犲伐妲戒綅锛�
+ for (int i = 0; i < 4; i++) {
+ auto* pPort = (CLoadPort*)getEquipment(EQ_ID_LOADPORT1 + i);
+ if (pPort != nullptr) {
+ pPort->setDownloadCassetteMap(0);
+ }
+ }
+
+ // 鍏堟竻绌烘墍鏈夌鍙g幓鐠冪殑璋冨害鏍囪锛岄伩鍏嶆部鐢ㄥ巻鍙� PJ 鐘舵�併��
+ int clearedGlassCount = 0;
+ for (int i = 0; i < 4; i++) {
+ auto* pPort = (CLoadPort*)getEquipment(EQ_ID_LOADPORT1 + i);
+ if (pPort == nullptr) continue;
+ for (int slot = 1; slot <= SLOT_MAX; slot++) {
+ auto* pGlass = pPort->getGlassFromSlot(slot);
+ if (pGlass == nullptr) continue;
+ pGlass->setProcessJob(nullptr);
+ pGlass->setScheduledForProcessing(FALSE);
+ clearedGlassCount++;
+ }
+ }
+ LOGI("<Master>setProcessJobs: cleared scheduling marks on %d glass(es).", clearedGlassCount);
+
+ auto toPortIndex = [](int eqid) -> int {
+ switch (eqid) {
+ case EQ_ID_LOADPORT1: return 0;
+ case EQ_ID_LOADPORT2: return 1;
+ case EQ_ID_LOADPORT3: return 2;
+ case EQ_ID_LOADPORT4: return 3;
+ default: return -1;
+ }
+ };
+
+ auto hasAnySelectedPorts = [](const PJWarp& warp) -> bool {
+ for (int p = 0; p < 4; p++) {
+ if (warp.selectedPorts[p]) return true;
+ }
+ return false;
+ };
+
+ auto hasAnyLegacyCheckedSlots = [](const PJWarp& warp) -> bool {
+ for (int s = 0; s < 8; s++) {
+ if (warp.checkSlot[s]) return true;
+ }
+ return false;
+ };
// 鏇存柊context
- std::vector<uint8_t> newSlots;
- std::vector<void*> newContexts;
for (auto pj : m_processJobs) {
for (auto& c : pj->carriers()) {
auto pPort = getPortWithCarrierId(c.carrierId);
if (pPort == nullptr) continue;
+ const int portIndex = toPortIndex(pPort->getID());
+ short downloadMap = 0;
+ for (auto s : c.slots) {
+ if (s >= 1 && s <= 8) {
+ downloadMap |= (short)(1 << (s - 1));
+ }
+ }
+ pPort->setDownloadCassetteMap((short)(pPort->getDownloadCassetteMap() | downloadMap));
+
+ std::vector<uint8_t> newSlots;
+ std::vector<void*> newContexts;
+ PJWarp& warp = pj->getPjWarp();
+ const bool useMultiPortWarp = hasAnySelectedPorts(warp);
+ const bool useLegacyWarp = !useMultiPortWarp && hasAnyLegacyCheckedSlots(warp);
for (auto s : c.slots) {
auto pGlass = pPort->getGlassFromSlot(s);
if (pGlass == nullptr) continue;
newSlots.push_back(s);
newContexts.push_back(pGlass);
+
+ // 榛樿锛欻ost 涓嬪彂浣嗘湭鎼哄甫 PJWarp 缁嗚妭鏃讹紝carrier slots 瑙嗕负搴斿姞宸ャ��
+ BOOL scheduled = TRUE;
+ int material = (pGlass->getType() == MaterialsType::G2) ? 2 : 1;
+
+ if (1 <= s && s <= 8) {
+ if (useMultiPortWarp && 0 <= portIndex && portIndex < 4 && warp.selectedPorts[portIndex]) {
+ scheduled = warp.checkSlots[portIndex][s - 1];
+ material = warp.materialSlots[portIndex][s - 1];
+ }
+ else if (useLegacyWarp) {
+ scheduled = warp.checkSlot[s - 1];
+ material = warp.material[s - 1];
+ }
+ }
+ material = (material == 2) ? 2 : 1;
+
+ pGlass->setProcessJob(pj);
+ pGlass->setScheduledForProcessing(scheduled);
+ pGlass->setType(static_cast<MaterialsType>(material));
+ LOGI("<Master>setProcessJobs bind: pj=%s, port=%d, slot=%d, glass=%s, scheduled=%d, material=%d",
+ pj->id().c_str(), portIndex + 1, (int)s, pGlass->getID().c_str(), scheduled ? 1 : 0, material);
}
pj->setCarrierSlotsAndContexts(c.carrierId, newSlots, newContexts);
@@ -2624,6 +3477,9 @@
this->saveState();
+ if (m_listener.onControlJobChanged) {
+ notifyControlJobChanged();
+ }
return (int)m_processJobs.size();
}
@@ -2681,6 +3537,9 @@
}
m_pControlJob->setPJs(temps);
this->saveState();
+ if (m_listener.onControlJobChanged) {
+ notifyControlJobChanged();
+ }
return 0;
@@ -2733,7 +3592,98 @@
bool CMaster::ceidDefined(uint32_t ceid) const
{
- return true;
+ if (m_allowedCeids.empty()) return true; // backward compatible: treat as all allowed when not configured
+ return m_allowedCeids.find(ceid) != m_allowedCeids.end();
+ }
+
+ bool CMaster::raiseSoftAlarm(int alarmId,
+ const std::string& desc,
+ int level/* = -1*/,
+ int deviceId/* = 0*/,
+ int unitId/* = 0*/,
+ const char* deviceName/* = "Software"*/,
+ const char* unitName/* = "App"*/)
+ {
+ AlarmManager& alarmManager = AlarmManager::getInstance();
+ const AlarmInfo* info = alarmManager.getAlarmInfoByID(alarmId);
+
+ int severity = level;
+ if (severity < 0 && info != nullptr) {
+ severity = info->nAlarmLevel;
+ }
+ if (severity < 0) severity = 0; // fallback
+
+ std::string descText = desc;
+ if (descText.empty() && info != nullptr) {
+ descText = !info->strDescription.empty() ? info->strDescription : info->strAlarmText;
+ }
+ if (descText.empty()) {
+ descText = CToolUnits::formatString("Alarm %d", alarmId);
+ }
+
+ AlarmData alarmData;
+ alarmData.nId = alarmId;
+ alarmData.nSeverityLevel = severity;
+ alarmData.nDeviceId = deviceId;
+ alarmData.nUnitId = unitId;
+ alarmData.strDeviceName = deviceName;
+ alarmData.strUnitName = unitName;
+ alarmData.strStartTime = CToolUnits::timeToString2(CToolUnits::getTimestamp());
+ alarmData.strEndTime = "";
+ alarmData.strDescription = descText;
+
+ int nAlarmEventId = 0;
+ return alarmManager.addAlarm(alarmData, nAlarmEventId);
+ }
+
+ void CMaster::handleCollectionEvent(uint32_t ceid)
+ {
+ // 閬嶅巻褰撳墠 PJ锛屽懡涓� pauseEvents 鏃跺彲鍦ㄦ鎵╁睍鏆傚仠鍔ㄤ綔
+ bool pausedAny = false;
+ for (auto pj : m_processJobs) {
+ if (pj == nullptr) continue;
+ const auto& pauseList = pj->pauseEvents();
+ if (std::find(pauseList.begin(), pauseList.end(), ceid) != pauseList.end()) {
+ LOGW("<Master>PauseEvent hit: CEID=%u, PJ=%s, state=%d", ceid, pj->id().c_str(), (int)pj->state());
+ if (pj->pause()) {
+ LOGI("<Master>PJ paused by CEID=%u", ceid);
+ pausedAny = true;
+ }
+ if (m_pControlJob != nullptr && m_pControlJob->state() == CJState::Executing) {
+ if (m_pControlJob->pause()) {
+ LOGI("<Master>ControlJob paused by CEID=%u", ceid);
+ pausedAny = true;
+ }
+ }
+ }
+ }
+ if (pausedAny && m_listener.onControlJobChanged) {
+ // 閫氱煡搴旂敤灞傚埛鏂� UI/鎸夐挳鐘舵��
+ notifyControlJobChanged();
+ }
+ if (pausedAny && !m_bPauseAlarmRaised) {
+ std::string desc = CToolUnits::formatString("<PauseEvent CEID=%u>", ceid);
+ bool raised = false;
+ if (m_pModelCtx != nullptr) {
+ raised = m_pModelCtx->raiseSoftAlarm(ALID_SOFTWARE_PAUSE_EVENT, desc);
+ }
+ else {
+ raised = raiseSoftAlarm(ALID_SOFTWARE_PAUSE_EVENT, desc);
+ }
+ if (raised) {
+ LOGI("<Master>PauseEvent soft alarm raised, CEID=%u", ceid);
+ m_bPauseAlarmRaised = true;
+ }
+ }
+ }
+
+ void CMaster::setAllowedCeids(const std::vector<unsigned int>& ceids)
+ {
+ m_allowedCeids.clear();
+ m_allowedCeids.reserve(ceids.size());
+ for (auto id : ceids) {
+ m_allowedCeids.insert(id);
+ }
}
bool CMaster::saveState() const
@@ -3023,6 +3973,9 @@
saveState();
+ if (m_listener.onControlJobChanged) {
+ notifyControlJobChanged();
+ }
return true;
}
@@ -3036,6 +3989,11 @@
item->abort(description);
}
m_pControlJob->abort(description);
+
+ // 鍏堜笂鎶ヤ竴娆$姸鎬佸彉鍖栵紙渚夸簬 PrJobAbort 瑙﹀彂锛�
+ if (m_listener.onControlJobChanged) {
+ notifyControlJobChanged();
+ }
// 閲婃斁Job鐩稿叧
@@ -3057,6 +4015,9 @@
saveState();
+ if (m_listener.onControlJobChanged) {
+ notifyControlJobChanged();
+ }
return true;
}
@@ -3118,6 +4079,15 @@
if (pSlot == nullptr) return false;
CGlass* pGlass = (CGlass*)pSlot->getContext();
+ if (pGlass == nullptr) return false;
+
+ // Buffer 涓婇檺涓� 1锛氭柊鎼嚭鏃朵涪寮冩棫鐨�
+ if (!m_bufGlass.empty()) {
+ for (auto* oldGlass : m_bufGlass) {
+ if (oldGlass != nullptr) oldGlass->release();
+ }
+ m_bufGlass.clear();
+ }
m_bufGlass.push_back(pGlass);
pGlass->addRef();
pSlot->setContext(nullptr);
@@ -3206,14 +4176,14 @@
auto& dataTypes = CServoUtilsTool::getEqDataTypes();
auto& bonderTypes = dataTypes[MID_Bonder1];
for (size_t i = 0; i < bonderTypes.size(); ++i) {
- m_pCollector->buffersSetChannelName(MID_Bonder1, i + 1, bonderTypes[i].c_str());
- m_pCollector->buffersSetChannelName(MID_Bonder2, i + 1, bonderTypes[i].c_str());
+ m_pCollector->buffersSetChannelName(MID_Bonder1, (UINT)i + 1, bonderTypes[(UINT)i].c_str());
+ m_pCollector->buffersSetChannelName(MID_Bonder2, (UINT)i + 1, bonderTypes[(UINT)i].c_str());
}
auto& vacuumbakeTypes = dataTypes[MID_VacuumBakeA];
for (size_t i = 0; i < vacuumbakeTypes.size(); ++i) {
- m_pCollector->buffersSetChannelName(MID_VacuumBakeA, i + 1, vacuumbakeTypes[i].c_str());
- m_pCollector->buffersSetChannelName(MID_VacuumBakeB, i + 1, vacuumbakeTypes[i].c_str());
+ m_pCollector->buffersSetChannelName(MID_VacuumBakeA, (UINT)i + 1, vacuumbakeTypes[(UINT)i].c_str());
+ m_pCollector->buffersSetChannelName(MID_VacuumBakeB, (UINT)i + 1, vacuumbakeTypes[(UINT)i].c_str());
}
auto& coolingTypes = dataTypes[MID_BakeCoolingA];
@@ -3221,6 +4191,17 @@
m_pCollector->buffersSetChannelName(MID_BakeCoolingA, i + 1, coolingTypes[i].c_str());
m_pCollector->buffersSetChannelName(MID_BakeCoolingB, i + 1, coolingTypes[i].c_str());
}
+
+ if (m_curveMode == CurveMode::EmptyChamber) {
+ const uint32_t mids[] = {
+ MID_Bonder1, MID_Bonder2,
+ MID_VacuumBakeA, MID_VacuumBakeB,
+ MID_BakeCoolingA, MID_BakeCoolingB
+ };
+ for (uint32_t mid : mids) {
+ m_pCollector->batchStart(mid, "EMPTY_CHAMBER", 10 * 60 * 1000ULL);
+ }
+ }
}
}
--
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