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GrpcPrint/PrintS/log/LogDao.cpp
wangxx1809 8d7028a53d 添加plc等功能
2024-03-19 17:45:12 +08:00

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#include "LogDao.h"
#include "../Toast.h"
#include "../LanguageManager.h"
#include "../global.h"
#include <direct.h>
#include <io.h>
#include "../utils/TimeHelper.h"
//#include "turbojpeg.h"
#include "../config/bean/CoverCfg.h"
#include <fstream>
#include "../utils/StringHelper.h"
LogDao::LogDao()
:m_pDB(nullptr)
,m_CurrentShowJob(NULL)
, m_ImageThread(INVALID_HANDLE_VALUE)
, m_ImageFlag(false)
, m_ExportThread(INVALID_HANDLE_VALUE)
, m_ExportProgress(0)
, m_ExportFlag(false)
, m_ShowAxisLog(NULL)
, m_LogImageDB(NULL)
, m_ShowImageDB(NULL)
{
}
LogDao::~LogDao()
{
DeleteCriticalSection(&m_FocusStatusCS);
DeleteCriticalSection(&m_ScannerStatusCS);
DeleteCriticalSection(&m_AxisLogCs);
DeleteCriticalSection(&m_AlarmCs);
DeleteCriticalSection(&m_LogImageCs);
DeleteCriticalSection(&m_StatusCs);
DeleteCriticalSection(&m_JobCs);
DeleteCriticalSection(&m_LogCs);
DeleteCriticalSection(&m_DbCs);
DeleteCriticalSection(&m_ImgDbCs);
DeleteCriticalSection(&m_RemoteAlarmCs);
DeleteCriticalSection(&m_RemoteLogImageCs);
DeleteCriticalSection(&m_RemoteStatusCs);
DeleteCriticalSection(&m_RemoteJobCs);
DeleteCriticalSection(&m_RemoteAxisLogCs);
for (map<int, SQLite::Database*>::iterator it = m_DBMap.begin(); it != m_DBMap.end(); it++)
{
SQLite::Database* db = it->second;
delete db;
}
}
void LogDao::Init()
{
InitializeCriticalSection(&m_DbCs);
InitializeCriticalSection(&m_ImgDbCs);
InitializeCriticalSection(&m_LogCs);
InitializeCriticalSection(&m_JobCs);
InitializeCriticalSection(&m_StatusCs);
InitializeCriticalSection(&m_LogImageCs);
InitializeCriticalSection(&m_AlarmCs);
InitializeCriticalSection(&m_AxisLogCs);
InitializeCriticalSection(&m_ScannerStatusCS);
InitializeCriticalSection(&m_RemoteJobCs);
InitializeCriticalSection(&m_RemoteStatusCs);
InitializeCriticalSection(&m_RemoteLogImageCs);
InitializeCriticalSection(&m_RemoteAlarmCs);
InitializeCriticalSection(&m_RemoteAxisLogCs);
InitializeCriticalSection(&m_FocusStatusCS);
InitializeCriticalSection(&m_FindRecordCS);
m_RootPath = g_AppPath + "log/";
if (_access(m_RootPath.c_str(), 0) != 0) {
_mkdir(m_RootPath.c_str());
}
m_ImagePath = g_AppPath + "log/image/";
if (_access(m_ImagePath.c_str(), 0) != 0) {
_mkdir(m_ImagePath.c_str());
}
SYSTEMTIME tnow;
GetLocalTime(&tnow);
char buffer[128];
sprintf_s(buffer, sizeof(buffer), "%s%04d.hbd", m_RootPath.c_str(),tnow.wYear);
string databasepath = string(buffer);
m_pDB = new SQLite::Database(databasepath, SQLite::OPEN_READWRITE | SQLite::OPEN_CREATE);
m_pDB->exec("PRAGMA key = '!hbd_admin'");
m_DBMap[tnow.wYear] = m_pDB;
sprintf_s(buffer, sizeof(buffer), "%s%04d-img.hbd", m_RootPath.c_str(), tnow.wYear);
string imgpath = string(buffer);
for (int i = 2018; i < tnow.wYear; i++) {
databasepath = m_RootPath + to_string(i) + ".hbd";
int rel = _access(databasepath.c_str(), 0);
if (rel != 0)continue;
SQLite::Database *tmp = nullptr;
tmp = new SQLite::Database(databasepath, SQLite::OPEN_READWRITE);
tmp->exec("PRAGMA key = '!hbd_admin'");
if (!tmp)
continue;
m_DBMap[i] = tmp;
}
SQLite::Transaction transaction(*m_pDB);
LogBean::CreateIfNoExist(m_pDB);
JobBean::CreateIfNoExist(m_pDB);
LayerStatus::CreateIfNoExist(m_pDB);
LogImage::CreateIfNoExist(m_pDB);
PartAddition::CreateIfNoExist(m_pDB);
AxisLog::CreateIfNoExist(m_pDB);
ScannerStatus::CreateIfNoExist(m_pDB);
ScannerPowerLog::CreateIfNoExist(m_pDB);
FocusStatus::CreateIfNoExist(m_pDB);
PartPosBean::CreateIfNoExist(m_pDB);
m_pDB->exec(HistoryAlarm::GetCreateSql());
m_pDB->exec(HistoryAlarm::GetIndexSql());
transaction.commit();
}
void LogDao::GetLogs(struct tm &begin, struct tm &end)
{
begin.tm_hour = 0;
begin.tm_min = 0;
begin.tm_sec = 0;
end.tm_hour = 23;
end.tm_min = 59;
end.tm_sec = 59;
time_t tbegin = mktime(&begin);
time_t tend = mktime(&end);
if (tbegin > tend)
{
g_Toast->AddToast(new ToastBean(_(u8"结束日期要大于开始日期").c_str(), 3000));
return;
}
EnterCriticalSection(&m_LogCs);
m_Logs.clear();
LeaveCriticalSection(&m_LogCs);
char sql[1024];
if (m_DBMap.find(begin.tm_year + 1900) != m_DBMap.end())
{
sprintf_s(sql, sizeof(sql), "SELECT * FROM %s WHERE %s BETWEEN %lld AND %lld",
LogBean::LOG_TABLE_NAME.c_str(), LogBean::LOG_FIELD_INSERT_TIME.c_str(), tbegin, tend);
string level, content;
time_t date;
char buffer[1024];
EnterCriticalSection(&m_DbCs);
EnterCriticalSection(&m_LogCs);
try {
SQLite::Statement query(*m_DBMap[begin.tm_year + 1900], sql);
while (query.executeStep()) {
level = query.getColumn(LogBean::LOG_FIELD_LEVEL.c_str()).getString();
date = query.getColumn(LogBean::LOG_FIELD_INSERT_TIME.c_str()).getInt64();
content = query.getColumn(LogBean::LOG_FIELD_CONTENT.c_str()).getString();
sprintf_s(buffer, sizeof(buffer), "%s %s %s", level.c_str(), TimeHelper::Time2Str(date).c_str(), content.c_str());
m_Logs.push_back(string(buffer));
}
}
catch (SQLite::Exception &e)
{
g_log->TraceError(e.getErrorStr());
}
LeaveCriticalSection(&m_LogCs);
LeaveCriticalSection(&m_DbCs);
}
if (begin.tm_year != end.tm_year)
{
if (m_DBMap.find(end.tm_year + 1900) == m_DBMap.end())return;
sprintf_s(sql, sizeof(sql), "SELECT * FROM %s WHERE %s BETWEEN %lld AND %lld",
LogBean::LOG_TABLE_NAME.c_str(), LogBean::LOG_FIELD_INSERT_TIME.c_str(), tbegin, tend);
char buffer[1024];
string level, content;
time_t date;
EnterCriticalSection(&m_DbCs);
EnterCriticalSection(&m_LogCs);
try {
SQLite::Statement query(*m_DBMap[end.tm_year + 1900], sql);
while (query.executeStep()) {
level = query.getColumn(LogBean::LOG_FIELD_LEVEL.c_str()).getString();
date = query.getColumn(LogBean::LOG_FIELD_INSERT_TIME.c_str()).getInt64();
content = query.getColumn(LogBean::LOG_FIELD_CONTENT.c_str()).getString();
sprintf_s(buffer, sizeof(buffer), "%s %s %s", level.c_str(), TimeHelper::Time2Str(date).c_str(), content.c_str());
m_Logs.push_back(string(buffer));
}
}
catch (SQLite::Exception &e)
{
g_log->TraceError(e.getErrorStr());
}
LeaveCriticalSection(&m_LogCs);
LeaveCriticalSection(&m_DbCs);
}
}
void LogDao::AddLog(string prefix, string content)
{
time_t tnow;
time(&tnow);
char sqlbuf[1024];
sprintf_s(sqlbuf, sizeof(sqlbuf), u8"INSERT INTO %s(%s,%s,%s) VALUES(%lld,'%s', '%s')",
LogBean::LOG_TABLE_NAME.c_str(),
LogBean::LOG_FIELD_INSERT_TIME.c_str(),
LogBean::LOG_FIELD_LEVEL.c_str(),
LogBean::LOG_FIELD_CONTENT.c_str(),
tnow,
prefix.c_str(),
content.c_str()
);
EnterCriticalSection(&m_DbCs);
try {
m_pDB->exec(sqlbuf);
}
catch (SQLite::Exception &e)
{
g_log->TraceError(e.getErrorStr());
}
LeaveCriticalSection(&m_DbCs);
}
bool LogDao::GetCheckJob(string uid, JobBean& bean)
{
char sql[1024];
sprintf_s(sql, sizeof(sql), "SELECT * FROM %s WHERE %s IN (SELECT MAX(%s) FROM %s WHERE %s='%s') AND %s=0 AND %s=0",
JobBean::JOB_TABLE_NAME.c_str(), JobBean::JOB_FIELD_INSERT_TIME.c_str(),
JobBean::JOB_FIELD_INSERT_TIME.c_str(), JobBean::JOB_TABLE_NAME.c_str(),JobBean::JOB_FIELD_UID.c_str(),
uid.c_str(), JobBean::JOB_FIELD_IS_INVALID.c_str(), JobBean::JOB_FIELD_IS_FINISH.c_str());
bool rel = false;
EnterCriticalSection(&m_DbCs);
try {
SQLite::Statement query(*m_pDB, sql);
if (query.executeStep()) {
bean.m_Id = query.getColumn(JobBean::JOB_FIELD_ID.c_str()).getInt();
bean.m_InsertTime = query.getColumn(JobBean::JOB_FIELD_INSERT_TIME.c_str()).getInt64();
bean.m_Uid = query.getColumn(JobBean::JOB_FIELD_UID.c_str()).getString();
bean.m_TaskID = query.getColumn(JobBean::JOB_TASK_ID.c_str()).getString();
bean.m_RecordID = query.getColumn(JobBean::JOB_FIELD_RECORD_ID.c_str()).getString();
bean.m_Name = query.getColumn(JobBean::JOB_FIELD_NAME.c_str()).getString();
bean.m_StartTime = query.getColumn(JobBean::JOB_FIELD_START_TIME.c_str()).getInt64();
bean.m_LastPauseTime = query.getColumn(JobBean::JOB_FIELD_LAST_PAUSE_TIME.c_str()).getInt64();
bean.m_StopTime = query.getColumn(JobBean::JOB_FIELD_STOP_TIME.c_str()).getInt64();
bean.m_DeoxygenSecond = query.getColumn(JobBean::JOB_FIELD_DEOXYGEN_SECOND.c_str()).getUInt();
bean.m_SpendSecond = query.getColumn(JobBean::JOB_FIELD_SPEND_SECOND.c_str()).getUInt();
bean.m_PrintSecond = query.getColumn(JobBean::JOB_FIELD_PRINT_SECOND.c_str()).getUInt();
bean.m_FirstStartIndex = query.getColumn(JobBean::JOB_FIELD_FIRST_START_INDEX.c_str()).getUInt();
bean.m_StartMoldPos = query.getColumn(JobBean::JOB_FIELD_START_MOLD_POS.c_str()).getDouble();
bean.m_MoldPos = query.getColumn(JobBean::JOB_FIELD_MOLD_POS.c_str()).getDouble();
bean.m_PrintedLayerIndex = query.getColumn(JobBean::JOB_FIELD_PRINTED_LAYER_INDEX.c_str()).getUInt();
bean.m_IsFinished = (query.getColumn(JobBean::JOB_FIELD_IS_FINISH.c_str()).getInt() > 0 ? true : false);
bean.m_IsContinue = (query.getColumn(JobBean::JOB_FIELD_IS_CONTINUE.c_str()).getInt() > 0 ? true : false);
bean.m_IsInvalid = (query.getColumn(JobBean::JOB_FIELD_IS_INVALID.c_str()).getInt() > 0 ? true : false);
rel = true;
}
else rel = false;
}
catch (SQLite::Exception &e)
{
g_log->TraceError(e.getErrorStr());
rel = false;
}
LeaveCriticalSection(&m_DbCs);
return rel;
}
void LogDao::UpdateJobInvalid(long jid)
{
char buffer[1024];
sprintf_s(buffer, sizeof(buffer), "UPDATE %s SET %s=1 WHERE %s=%d",
JobBean::JOB_TABLE_NAME.c_str(),
JobBean::JOB_FIELD_IS_INVALID.c_str(),
JobBean::JOB_FIELD_ID.c_str(),jid);
EnterCriticalSection(&m_DbCs);
try
{
m_pDB->exec(buffer);
}
catch (SQLite::Exception &e)
{
g_log->TraceError(e.getErrorStr());
}
LeaveCriticalSection(&m_DbCs);
}
void LogDao::LogJobStart(JobBean* job)
{
if (job == NULL)return;
if (job->m_Uid.empty())return;
EnterCriticalSection(&m_ImgDbCs);
if (m_LogImageDB)
{
delete m_LogImageDB;
}
LeaveCriticalSection(&m_ImgDbCs);
char sqlbuf[1024];
EnterCriticalSection(&m_DbCs);
try {
if (!job->m_IsContinue)
{
job->m_RecordID = StringHelper::GenerateUUID();
sprintf_s(sqlbuf, sizeof(sqlbuf), "INSERT INTO %s(%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s) VALUES(%lld,'%s','%s','%s','%s',%lld,%lld,%d,%d,%d,%f,%lf,%d,%d,%d,%d)",
JobBean::JOB_TABLE_NAME.c_str(),
JobBean::JOB_FIELD_INSERT_TIME.c_str(),
JobBean::JOB_TASK_ID.c_str(),
JobBean::JOB_FIELD_UID.c_str(),
JobBean::JOB_FIELD_RECORD_ID.c_str(),
JobBean::JOB_FIELD_NAME.c_str(),
JobBean::JOB_FIELD_START_TIME.c_str(),
JobBean::JOB_FIELD_STOP_TIME.c_str(),
JobBean::JOB_FIELD_DEOXYGEN_SECOND.c_str(),
JobBean::JOB_FIELD_SPEND_SECOND.c_str(),
JobBean::JOB_FIELD_FIRST_START_INDEX.c_str(),
JobBean::JOB_FIELD_START_MOLD_POS.c_str(),
JobBean::JOB_FIELD_MOLD_POS.c_str(),
JobBean::JOB_FIELD_PRINTED_LAYER_INDEX.c_str(),
JobBean::JOB_FIELD_IS_FINISH.c_str(),
JobBean::JOB_FIELD_IS_CONTINUE.c_str(),
JobBean::JOB_FIELD_IS_INVALID.c_str(),
job->m_InsertTime,
job->m_TaskID.c_str(),
job->m_Uid.c_str(),
job->m_RecordID.c_str(),
job->m_Name.c_str(),
job->m_StartTime,
job->m_StopTime,
job->m_DeoxygenSecond,
job->m_SpendSecond,
job->m_FirstStartIndex,
job->m_StartMoldPos,
job->m_MoldPos,
job->m_PrintedLayerIndex,
job->m_IsFinished?1:0,
job->m_IsContinue?1:0,
job->m_IsInvalid?1:0
);
if (m_pDB->exec(sqlbuf))
{
sprintf_s(sqlbuf, sizeof(sqlbuf), "SELECT last_insert_rowid() FROM %s", JobBean::JOB_TABLE_NAME.c_str());
SQLite::Statement query(*m_pDB, string(sqlbuf));
if (query.executeStep()) {
job->m_Id = query.getColumn(0).getInt();
}
}
}
}
catch (SQLite::Exception &e)
{
g_log->TraceError(e.getErrorStr());
}
LeaveCriticalSection(&m_DbCs);
sprintf_s(sqlbuf, sizeof(sqlbuf), "%s%s.img", m_ImagePath.c_str(), job->m_RecordID.c_str());
m_LogImageDB = new SQLite::Database(sqlbuf, SQLite::OPEN_READWRITE | SQLite::OPEN_CREATE);
m_LogImageDB->exec("PRAGMA key = '!hbd_admin'");
LogImage::CreateIfNoExist(m_LogImageDB);
}
void LogDao::UpdateJobPauseTime(JobBean* job) {
int ret = 0;
char sqlbuf[1024];
sprintf_s(sqlbuf, sizeof(sqlbuf), "UPDATE %s SET %s=%lld WHERE %s=%d",
JobBean::JOB_TABLE_NAME.c_str(), JobBean::JOB_FIELD_LAST_PAUSE_TIME.c_str(), job->m_LastPauseTime, JobBean::JOB_FIELD_ID.c_str(), job->m_Id);
EnterCriticalSection(&m_DbCs);
try {
ret = m_pDB->exec(sqlbuf);
}
catch (SQLite::Exception& e)
{
g_log->TraceError(e.getErrorStr());
}
LeaveCriticalSection(&m_DbCs);
}
void LogDao::UpdateJobAfterPrintLayer(JobBean* job)
{
char sqlbuf[1024];
sprintf_s(sqlbuf, sizeof(sqlbuf), "UPDATE %s SET %s=%lld,%s=%d,%s=%d,%s=%lf,%s=%d,%s=%d WHERE %s=%d",
JobBean::JOB_TABLE_NAME.c_str(),
JobBean::JOB_FIELD_STOP_TIME.c_str(), job->m_StopTime,
JobBean::JOB_FIELD_SPEND_SECOND.c_str(), job->m_SpendSecond+(int)job->m_CurrentPrintedTime,
JobBean::JOB_FIELD_PRINT_SECOND.c_str(), job->m_PrintSecond + (int)job->m_EveryPrintedTime,
JobBean::JOB_FIELD_MOLD_POS.c_str(),job->m_MoldPos,
JobBean::JOB_FIELD_PRINTED_LAYER_INDEX.c_str(),job->m_PrintedLayerIndex,
JobBean::JOB_FIELD_IS_FINISH.c_str(),job->m_IsFinished,
JobBean::JOB_FIELD_ID.c_str(), job->m_Id
);
EnterCriticalSection(&m_DbCs);
try {
m_pDB->exec(sqlbuf);
}
catch (SQLite::Exception e)
{
g_log->TraceError(e.getErrorStr());
}
LeaveCriticalSection(&m_DbCs);
}
void LogDao::GetJobsByTaskId(string taskid, vector<JobBean*>& jobs)
{
char buffer[1024];
sprintf_s(buffer, sizeof(buffer), "SELECT * FROM %s WHERE %s='%s' ORDER BY %s",
JobBean::JOB_TABLE_NAME.c_str(), JobBean::JOB_TASK_ID.c_str(),
taskid.c_str(), JobBean::JOB_FIELD_INSERT_TIME.c_str());
EnterCriticalSection(&m_DbCs);
try {
SQLite::Statement query(*m_pDB, buffer);
while (query.executeStep()) {
JobBean* job = new JobBean;
job->m_Id = query.getColumn(JobBean::JOB_FIELD_ID.c_str()).getInt();
job->m_InsertTime = query.getColumn(JobBean::JOB_FIELD_INSERT_TIME.c_str()).getInt64();
job->m_TaskID = query.getColumn(JobBean::JOB_TASK_ID.c_str()).getString();
job->m_Uid = query.getColumn(JobBean::JOB_FIELD_UID.c_str()).getString();
job->m_RecordID = query.getColumn(JobBean::JOB_FIELD_RECORD_ID.c_str()).getString();
job->m_Name = query.getColumn(JobBean::JOB_FIELD_NAME.c_str()).getString();
job->m_StartTime = query.getColumn(JobBean::JOB_FIELD_START_TIME.c_str()).getInt64();
job->m_LastPauseTime = query.getColumn(JobBean::JOB_FIELD_LAST_PAUSE_TIME.c_str()).getInt64();
job->m_StopTime = query.getColumn(JobBean::JOB_FIELD_STOP_TIME.c_str()).getInt64();
job->m_DeoxygenSecond = query.getColumn(JobBean::JOB_FIELD_DEOXYGEN_SECOND.c_str()).getUInt();
job->m_SpendSecond = query.getColumn(JobBean::JOB_FIELD_SPEND_SECOND.c_str()).getUInt();
job->m_PrintSecond = query.getColumn(JobBean::JOB_FIELD_PRINT_SECOND.c_str()).getUInt();
job->m_FirstStartIndex = query.getColumn(JobBean::JOB_FIELD_FIRST_START_INDEX.c_str()).getUInt();
job->m_StartMoldPos = query.getColumn(JobBean::JOB_FIELD_START_MOLD_POS.c_str()).getDouble();
job->m_MoldPos = query.getColumn(JobBean::JOB_FIELD_MOLD_POS.c_str()).getDouble();
job->m_PrintedLayerIndex = query.getColumn(JobBean::JOB_FIELD_PRINTED_LAYER_INDEX.c_str()).getUInt();
job->m_IsFinished = (query.getColumn(JobBean::JOB_FIELD_IS_FINISH.c_str()).getInt() > 0 ? true : false);
job->m_IsContinue = (query.getColumn(JobBean::JOB_FIELD_IS_CONTINUE.c_str()).getInt() > 0 ? true : false);
job->m_IsInvalid = (query.getColumn(JobBean::JOB_FIELD_IS_INVALID.c_str()).getInt() > 0 ? true : false);
jobs.push_back(job);
}
}
catch (SQLite::Exception& e)
{
g_log->TraceInfo(e.getErrorStr());
}
LeaveCriticalSection(&m_DbCs);
}
void LogDao::GetJobsByTime(struct tm& begin, struct tm& end, vector<JobBean*>& jobs)
{
begin.tm_hour = 0;
begin.tm_min = 0;
begin.tm_sec = 0;
end.tm_hour = 23;
end.tm_min = 59;
end.tm_sec = 59;
time_t tbegin = mktime(&begin);
time_t tend = mktime(&end);
char buffer[1024];
if (begin.tm_year == end.tm_year)
{
if (m_DBMap.find(begin.tm_year + 1900) == m_DBMap.end())return;
sprintf_s(buffer, sizeof(buffer), "SELECT * FROM %s WHERE %s BETWEEN %lld AND %lld ORDER BY %s",
JobBean::JOB_TABLE_NAME.c_str(), JobBean::JOB_FIELD_INSERT_TIME.c_str(),
tbegin, tend, JobBean::JOB_FIELD_INSERT_TIME.c_str());
EnterCriticalSection(&m_DbCs);
try {
SQLite::Statement query(*m_DBMap[begin.tm_year + 1900], buffer);
while (query.executeStep()) {
JobBean* job = new JobBean;
job->m_Id = query.getColumn(JobBean::JOB_FIELD_ID.c_str()).getInt();
job->m_InsertTime = query.getColumn(JobBean::JOB_FIELD_INSERT_TIME.c_str()).getInt64();
job->m_TaskID = query.getColumn(JobBean::JOB_TASK_ID.c_str()).getString();
job->m_Uid = query.getColumn(JobBean::JOB_FIELD_UID.c_str()).getString();
job->m_RecordID = query.getColumn(JobBean::JOB_FIELD_RECORD_ID.c_str()).getString();
job->m_Name = query.getColumn(JobBean::JOB_FIELD_NAME.c_str()).getString();
job->m_StartTime = query.getColumn(JobBean::JOB_FIELD_START_TIME.c_str()).getInt64();
job->m_LastPauseTime = query.getColumn(JobBean::JOB_FIELD_LAST_PAUSE_TIME.c_str()).getInt64();
job->m_StopTime = query.getColumn(JobBean::JOB_FIELD_STOP_TIME.c_str()).getInt64();
job->m_DeoxygenSecond = query.getColumn(JobBean::JOB_FIELD_DEOXYGEN_SECOND.c_str()).getUInt();
job->m_SpendSecond = query.getColumn(JobBean::JOB_FIELD_SPEND_SECOND.c_str()).getUInt();
job->m_PrintSecond = query.getColumn(JobBean::JOB_FIELD_PRINT_SECOND.c_str()).getUInt();
job->m_FirstStartIndex = query.getColumn(JobBean::JOB_FIELD_FIRST_START_INDEX.c_str()).getUInt();
job->m_StartMoldPos = query.getColumn(JobBean::JOB_FIELD_START_MOLD_POS.c_str()).getDouble();
job->m_MoldPos = query.getColumn(JobBean::JOB_FIELD_MOLD_POS.c_str()).getDouble();
job->m_PrintedLayerIndex = query.getColumn(JobBean::JOB_FIELD_PRINTED_LAYER_INDEX.c_str()).getUInt();
job->m_IsFinished = (query.getColumn(JobBean::JOB_FIELD_IS_FINISH.c_str()).getInt() > 0 ? true : false);
job->m_IsContinue = (query.getColumn(JobBean::JOB_FIELD_IS_CONTINUE.c_str()).getInt() > 0 ? true : false);
job->m_IsInvalid = (query.getColumn(JobBean::JOB_FIELD_IS_INVALID.c_str()).getInt() > 0 ? true : false);
job->m_YearBelong = begin.tm_year + 1900;
jobs.push_back(job);
}
}
catch (SQLite::Exception& e)
{
g_log->TraceInfo(e.getErrorStr());
}
LeaveCriticalSection(&m_DbCs);
}
else {
if (m_DBMap.find(begin.tm_year + 1900) == m_DBMap.end())return;
sprintf_s(buffer, sizeof(buffer), "SELECT * FROM %s WHERE %s BETWEEN %lld AND %lld ORDER BY %s",
JobBean::JOB_TABLE_NAME.c_str(), JobBean::JOB_FIELD_INSERT_TIME.c_str(),
tbegin, tend, JobBean::JOB_FIELD_INSERT_TIME.c_str());
EnterCriticalSection(&m_DbCs);
try {
SQLite::Statement query(*m_DBMap[begin.tm_year + 1900], buffer);
while (query.executeStep()) {
JobBean* job = new JobBean;
job->m_Id = query.getColumn(JobBean::JOB_FIELD_ID.c_str()).getInt();
job->m_InsertTime = query.getColumn(JobBean::JOB_FIELD_INSERT_TIME.c_str()).getInt64();
job->m_TaskID = query.getColumn(JobBean::JOB_TASK_ID.c_str()).getString();
job->m_Uid = query.getColumn(JobBean::JOB_FIELD_UID.c_str()).getString();
job->m_RecordID = query.getColumn(JobBean::JOB_FIELD_RECORD_ID.c_str()).getString();
job->m_Name = query.getColumn(JobBean::JOB_FIELD_NAME.c_str()).getString();
job->m_StartTime = query.getColumn(JobBean::JOB_FIELD_START_TIME.c_str()).getInt64();
job->m_LastPauseTime = query.getColumn(JobBean::JOB_FIELD_LAST_PAUSE_TIME.c_str()).getInt64();
job->m_StopTime = query.getColumn(JobBean::JOB_FIELD_STOP_TIME.c_str()).getInt64();
job->m_DeoxygenSecond = query.getColumn(JobBean::JOB_FIELD_DEOXYGEN_SECOND.c_str()).getUInt();
job->m_SpendSecond = query.getColumn(JobBean::JOB_FIELD_SPEND_SECOND.c_str()).getUInt();
job->m_PrintSecond = query.getColumn(JobBean::JOB_FIELD_PRINT_SECOND.c_str()).getUInt();
job->m_FirstStartIndex = query.getColumn(JobBean::JOB_FIELD_FIRST_START_INDEX.c_str()).getUInt();
job->m_StartMoldPos = query.getColumn(JobBean::JOB_FIELD_START_MOLD_POS.c_str()).getDouble();
job->m_MoldPos = query.getColumn(JobBean::JOB_FIELD_MOLD_POS.c_str()).getDouble();
job->m_PrintedLayerIndex = query.getColumn(JobBean::JOB_FIELD_PRINTED_LAYER_INDEX.c_str()).getUInt();
job->m_IsFinished = (query.getColumn(JobBean::JOB_FIELD_IS_FINISH.c_str()).getInt() > 0 ? true : false);
job->m_IsContinue = (query.getColumn(JobBean::JOB_FIELD_IS_CONTINUE.c_str()).getInt() > 0 ? true : false);
job->m_IsInvalid = (query.getColumn(JobBean::JOB_FIELD_IS_INVALID.c_str()).getInt() > 0 ? true : false);
job->m_YearBelong = begin.tm_year + 1900;
jobs.push_back(job);
}
}
catch (SQLite::Exception& e)
{
g_log->TraceInfo(e.getErrorStr());
}
LeaveCriticalSection(&m_DbCs);
if (m_DBMap.find(end.tm_year + 1900) == m_DBMap.end())return;
EnterCriticalSection(&m_DbCs);
try {
SQLite::Statement query2(*m_DBMap[end.tm_year + 1900], buffer);
while (query2.executeStep()) {
JobBean* job = new JobBean;
job->m_Id = query2.getColumn(JobBean::JOB_FIELD_ID.c_str()).getInt();
job->m_InsertTime = query2.getColumn(JobBean::JOB_FIELD_INSERT_TIME.c_str()).getInt64();
job->m_TaskID = query2.getColumn(JobBean::JOB_TASK_ID.c_str()).getString();
job->m_Uid = query2.getColumn(JobBean::JOB_FIELD_UID.c_str()).getString();
job->m_RecordID = query2.getColumn(JobBean::JOB_FIELD_RECORD_ID.c_str()).getString();
job->m_Name = query2.getColumn(JobBean::JOB_FIELD_NAME.c_str()).getString();
job->m_StartTime = query2.getColumn(JobBean::JOB_FIELD_START_TIME.c_str()).getInt64();
job->m_LastPauseTime = query2.getColumn(JobBean::JOB_FIELD_LAST_PAUSE_TIME.c_str()).getInt64();
job->m_StopTime = query2.getColumn(JobBean::JOB_FIELD_STOP_TIME.c_str()).getInt64();
job->m_DeoxygenSecond = query2.getColumn(JobBean::JOB_FIELD_DEOXYGEN_SECOND.c_str()).getUInt();
job->m_SpendSecond = query2.getColumn(JobBean::JOB_FIELD_SPEND_SECOND.c_str()).getUInt();
job->m_PrintSecond = query2.getColumn(JobBean::JOB_FIELD_PRINT_SECOND.c_str()).getUInt();
job->m_FirstStartIndex = query2.getColumn(JobBean::JOB_FIELD_FIRST_START_INDEX.c_str()).getUInt();
job->m_StartMoldPos = query2.getColumn(JobBean::JOB_FIELD_START_MOLD_POS.c_str()).getDouble();
job->m_MoldPos = query2.getColumn(JobBean::JOB_FIELD_MOLD_POS.c_str()).getDouble();
job->m_PrintedLayerIndex = query2.getColumn(JobBean::JOB_FIELD_PRINTED_LAYER_INDEX.c_str()).getUInt();
job->m_IsFinished = (query2.getColumn(JobBean::JOB_FIELD_IS_FINISH.c_str()).getInt() > 0 ? true : false);
job->m_IsContinue = (query2.getColumn(JobBean::JOB_FIELD_IS_CONTINUE.c_str()).getInt() > 0 ? true : false);
job->m_IsInvalid = (query2.getColumn(JobBean::JOB_FIELD_IS_INVALID.c_str()).getInt() > 0 ? true : false);
job->m_YearBelong = end.tm_year + 1900;
jobs.push_back(job);
}
}
catch (SQLite::Exception& e)
{
g_log->TraceInfo(e.getErrorStr());
}
LeaveCriticalSection(&m_DbCs);
}
}
void LogDao::GetJobs(struct tm &begin, struct tm &end)
{
begin.tm_hour = 0;
begin.tm_min = 0;
begin.tm_sec = 0;
end.tm_hour = 23;
end.tm_min = 59;
end.tm_sec = 59;
time_t tbegin = mktime(&begin);
time_t tend = mktime(&end);
if (tbegin > tend)
{
g_Toast->AddToast(new ToastBean(_(u8"结束日期要大于开始日期").c_str(), 3000));
return;
}
EnterCriticalSection(&m_JobCs);
for (size_t i = 0; i < m_JobBaens.size(); ++i) {
delete m_JobBaens[i];
m_JobBaens[i] = NULL;
}
m_JobBaens.clear();
LeaveCriticalSection(&m_JobCs);
char buffer[1024];
if (begin.tm_year == end.tm_year)
{
sprintf_s(buffer, sizeof(buffer), "SELECT * FROM %s WHERE %s BETWEEN %lld AND %lld ORDER BY %s",
JobBean::JOB_TABLE_NAME.c_str(), JobBean::JOB_FIELD_INSERT_TIME.c_str(),
tbegin, tend, JobBean::JOB_FIELD_INSERT_TIME.c_str());
string selectStr = string(buffer);
if (begin.tm_mon == 0 && (m_DBMap.find(begin.tm_year + 1900 - 1) != m_DBMap.end())) {
EnterCriticalSection(&m_DbCs);
SQLite::Statement query(*m_DBMap[begin.tm_year + 1900 - 1], selectStr);
while (query.executeStep()) {
JobBean* job = new JobBean;
job->m_Id = query.getColumn(JobBean::JOB_FIELD_ID.c_str()).getInt();
job->m_InsertTime = query.getColumn(JobBean::JOB_FIELD_INSERT_TIME.c_str()).getInt64();
job->m_TaskID = query.getColumn(JobBean::JOB_TASK_ID.c_str()).getString();
job->m_Uid = query.getColumn(JobBean::JOB_FIELD_UID.c_str()).getString();
job->m_RecordID = query.getColumn(JobBean::JOB_FIELD_RECORD_ID.c_str()).getString();
job->m_Name = query.getColumn(JobBean::JOB_FIELD_NAME.c_str()).getString();
job->m_StartTime = query.getColumn(JobBean::JOB_FIELD_START_TIME.c_str()).getInt64();
job->m_LastPauseTime = query.getColumn(JobBean::JOB_FIELD_LAST_PAUSE_TIME.c_str()).getInt64();
job->m_StopTime = query.getColumn(JobBean::JOB_FIELD_STOP_TIME.c_str()).getInt64();
job->m_DeoxygenSecond = query.getColumn(JobBean::JOB_FIELD_DEOXYGEN_SECOND.c_str()).getUInt();
job->m_SpendSecond = query.getColumn(JobBean::JOB_FIELD_SPEND_SECOND.c_str()).getUInt();
job->m_PrintSecond = query.getColumn(JobBean::JOB_FIELD_PRINT_SECOND.c_str()).getUInt();
job->m_FirstStartIndex = query.getColumn(JobBean::JOB_FIELD_FIRST_START_INDEX.c_str()).getUInt();
job->m_StartMoldPos = query.getColumn(JobBean::JOB_FIELD_START_MOLD_POS.c_str()).getDouble();
job->m_MoldPos = query.getColumn(JobBean::JOB_FIELD_MOLD_POS.c_str()).getDouble();
job->m_PrintedLayerIndex = query.getColumn(JobBean::JOB_FIELD_PRINTED_LAYER_INDEX.c_str()).getUInt();
job->m_IsFinished = (query.getColumn(JobBean::JOB_FIELD_IS_FINISH.c_str()).getInt() > 0 ? true : false);
job->m_IsContinue = (query.getColumn(JobBean::JOB_FIELD_IS_CONTINUE.c_str()).getInt() > 0 ? true : false);
job->m_IsInvalid = (query.getColumn(JobBean::JOB_FIELD_IS_INVALID.c_str()).getInt() > 0 ? true : false);
job->m_YearBelong = begin.tm_year + 1900 - 1;
EnterCriticalSection(&m_JobCs);
m_JobBaens.push_back(job);
LeaveCriticalSection(&m_JobCs);
}
LeaveCriticalSection(&m_DbCs);
}
if (m_DBMap.find(begin.tm_year + 1900) == m_DBMap.end())return;
sprintf_s(buffer, sizeof(buffer), "SELECT * FROM %s WHERE %s BETWEEN %lld AND %lld ORDER BY %s",
JobBean::JOB_TABLE_NAME.c_str(), JobBean::JOB_FIELD_INSERT_TIME.c_str(),
tbegin, tend, JobBean::JOB_FIELD_INSERT_TIME.c_str());
EnterCriticalSection(&m_DbCs);
try {
SQLite::Statement query(*m_DBMap[begin.tm_year + 1900], selectStr);
while (query.executeStep()) {
JobBean* job = new JobBean;
job->m_Id = query.getColumn(JobBean::JOB_FIELD_ID.c_str()).getInt();
job->m_InsertTime = query.getColumn(JobBean::JOB_FIELD_INSERT_TIME.c_str()).getInt64();
job->m_TaskID = query.getColumn(JobBean::JOB_TASK_ID.c_str()).getString();
job->m_Uid = query.getColumn(JobBean::JOB_FIELD_UID.c_str()).getString();
job->m_RecordID = query.getColumn(JobBean::JOB_FIELD_RECORD_ID.c_str()).getString();
job->m_Name = query.getColumn(JobBean::JOB_FIELD_NAME.c_str()).getString();
job->m_StartTime = query.getColumn(JobBean::JOB_FIELD_START_TIME.c_str()).getInt64();
job->m_LastPauseTime = query.getColumn(JobBean::JOB_FIELD_LAST_PAUSE_TIME.c_str()).getInt64();
job->m_StopTime = query.getColumn(JobBean::JOB_FIELD_STOP_TIME.c_str()).getInt64();
job->m_DeoxygenSecond = query.getColumn(JobBean::JOB_FIELD_DEOXYGEN_SECOND.c_str()).getUInt();
job->m_SpendSecond = query.getColumn(JobBean::JOB_FIELD_SPEND_SECOND.c_str()).getUInt();
job->m_PrintSecond = query.getColumn(JobBean::JOB_FIELD_PRINT_SECOND.c_str()).getUInt();
job->m_FirstStartIndex = query.getColumn(JobBean::JOB_FIELD_FIRST_START_INDEX.c_str()).getUInt();
job->m_StartMoldPos = query.getColumn(JobBean::JOB_FIELD_START_MOLD_POS.c_str()).getDouble();
job->m_MoldPos = query.getColumn(JobBean::JOB_FIELD_MOLD_POS.c_str()).getDouble();
job->m_PrintedLayerIndex = query.getColumn(JobBean::JOB_FIELD_PRINTED_LAYER_INDEX.c_str()).getUInt();
job->m_IsFinished = (query.getColumn(JobBean::JOB_FIELD_IS_FINISH.c_str()).getInt() > 0 ? true : false);
job->m_IsContinue = (query.getColumn(JobBean::JOB_FIELD_IS_CONTINUE.c_str()).getInt() > 0 ? true : false);
job->m_IsInvalid = (query.getColumn(JobBean::JOB_FIELD_IS_INVALID.c_str()).getInt() > 0 ? true : false);
job->m_YearBelong = begin.tm_year + 1900;
EnterCriticalSection(&m_JobCs);
m_JobBaens.push_back(job);
LeaveCriticalSection(&m_JobCs);;
}
}
catch (SQLite::Exception& e)
{
g_log->TraceInfo(e.getErrorStr());
}
LeaveCriticalSection(&m_DbCs);
}
else {
if (m_DBMap.find(begin.tm_year + 1900) == m_DBMap.end())return;
sprintf_s(buffer, sizeof(buffer), "SELECT * FROM %s WHERE %s BETWEEN %lld AND %lld ORDER BY %s",
JobBean::JOB_TABLE_NAME.c_str(), JobBean::JOB_FIELD_INSERT_TIME.c_str(),
tbegin, tend, JobBean::JOB_FIELD_INSERT_TIME.c_str());
EnterCriticalSection(&m_DbCs);
try {
SQLite::Statement query(*m_DBMap[begin.tm_year + 1900], buffer);
while (query.executeStep()) {
JobBean* job = new JobBean;
job->m_Id = query.getColumn(JobBean::JOB_FIELD_ID.c_str()).getInt();
job->m_InsertTime = query.getColumn(JobBean::JOB_FIELD_INSERT_TIME.c_str()).getInt64();
job->m_TaskID = query.getColumn(JobBean::JOB_TASK_ID.c_str()).getString();
job->m_Uid = query.getColumn(JobBean::JOB_FIELD_UID.c_str()).getString();
job->m_RecordID = query.getColumn(JobBean::JOB_FIELD_RECORD_ID.c_str()).getString();
job->m_Name = query.getColumn(JobBean::JOB_FIELD_NAME.c_str()).getString();
job->m_StartTime = query.getColumn(JobBean::JOB_FIELD_START_TIME.c_str()).getInt64();
job->m_LastPauseTime = query.getColumn(JobBean::JOB_FIELD_LAST_PAUSE_TIME.c_str()).getInt64();
job->m_StopTime = query.getColumn(JobBean::JOB_FIELD_STOP_TIME.c_str()).getInt64();
job->m_DeoxygenSecond = query.getColumn(JobBean::JOB_FIELD_DEOXYGEN_SECOND.c_str()).getUInt();
job->m_SpendSecond = query.getColumn(JobBean::JOB_FIELD_SPEND_SECOND.c_str()).getUInt();
job->m_PrintSecond = query.getColumn(JobBean::JOB_FIELD_PRINT_SECOND.c_str()).getUInt();
job->m_FirstStartIndex = query.getColumn(JobBean::JOB_FIELD_FIRST_START_INDEX.c_str()).getUInt();
job->m_StartMoldPos = query.getColumn(JobBean::JOB_FIELD_START_MOLD_POS.c_str()).getDouble();
job->m_MoldPos = query.getColumn(JobBean::JOB_FIELD_MOLD_POS.c_str()).getDouble();
job->m_PrintedLayerIndex = query.getColumn(JobBean::JOB_FIELD_PRINTED_LAYER_INDEX.c_str()).getUInt();
job->m_IsFinished = (query.getColumn(JobBean::JOB_FIELD_IS_FINISH.c_str()).getInt() > 0 ? true : false);
job->m_IsContinue = (query.getColumn(JobBean::JOB_FIELD_IS_CONTINUE.c_str()).getInt() > 0 ? true : false);
job->m_IsInvalid = (query.getColumn(JobBean::JOB_FIELD_IS_INVALID.c_str()).getInt() > 0 ? true : false);
job->m_YearBelong = begin.tm_year + 1900;
EnterCriticalSection(&m_JobCs);
m_JobBaens.push_back(job);
LeaveCriticalSection(&m_JobCs);
}
}
catch (SQLite::Exception& e)
{
g_log->TraceInfo(e.getErrorStr());
}
LeaveCriticalSection(&m_DbCs);
if (m_DBMap.find(end.tm_year + 1900) == m_DBMap.end())return;
EnterCriticalSection(&m_DbCs);
try {
SQLite::Statement query2(*m_DBMap[end.tm_year + 1900], buffer);
while (query2.executeStep()) {
JobBean* job = new JobBean;
job->m_Id = query2.getColumn(JobBean::JOB_FIELD_ID.c_str()).getInt();
job->m_InsertTime = query2.getColumn(JobBean::JOB_FIELD_INSERT_TIME.c_str()).getInt64();
job->m_TaskID = query2.getColumn(JobBean::JOB_TASK_ID.c_str()).getString();
job->m_Uid = query2.getColumn(JobBean::JOB_FIELD_UID.c_str()).getString();
job->m_Name = query2.getColumn(JobBean::JOB_FIELD_NAME.c_str()).getString();
job->m_RecordID = query2.getColumn(JobBean::JOB_FIELD_RECORD_ID.c_str()).getString();
job->m_StartTime = query2.getColumn(JobBean::JOB_FIELD_START_TIME.c_str()).getInt64();
job->m_LastPauseTime = query2.getColumn(JobBean::JOB_FIELD_LAST_PAUSE_TIME.c_str()).getInt64();
job->m_StopTime = query2.getColumn(JobBean::JOB_FIELD_STOP_TIME.c_str()).getInt64();
job->m_DeoxygenSecond = query2.getColumn(JobBean::JOB_FIELD_DEOXYGEN_SECOND.c_str()).getUInt();
job->m_SpendSecond = query2.getColumn(JobBean::JOB_FIELD_SPEND_SECOND.c_str()).getUInt();
job->m_PrintSecond = query2.getColumn(JobBean::JOB_FIELD_PRINT_SECOND.c_str()).getUInt();
job->m_FirstStartIndex = query2.getColumn(JobBean::JOB_FIELD_FIRST_START_INDEX.c_str()).getUInt();
job->m_StartMoldPos = query2.getColumn(JobBean::JOB_FIELD_START_MOLD_POS.c_str()).getDouble();
job->m_MoldPos = query2.getColumn(JobBean::JOB_FIELD_MOLD_POS.c_str()).getDouble();
job->m_PrintedLayerIndex = query2.getColumn(JobBean::JOB_FIELD_PRINTED_LAYER_INDEX.c_str()).getUInt();
job->m_IsFinished = (query2.getColumn(JobBean::JOB_FIELD_IS_FINISH.c_str()).getInt() > 0 ? true : false);
job->m_IsContinue = (query2.getColumn(JobBean::JOB_FIELD_IS_CONTINUE.c_str()).getInt() > 0 ? true : false);
job->m_IsInvalid = (query2.getColumn(JobBean::JOB_FIELD_IS_INVALID.c_str()).getInt() > 0 ? true : false);
job->m_YearBelong = end.tm_year + 1900;
EnterCriticalSection(&m_JobCs);
m_JobBaens.push_back(job);
LeaveCriticalSection(&m_JobCs);
}
}
catch (SQLite::Exception& e)
{
g_log->TraceInfo(e.getErrorStr());
}
LeaveCriticalSection(&m_DbCs);
}
}
/*
void LogDao::GetJobMaximun(JobBean* jobbean)
{
if (jobbean == NULL)return;
if (m_DBMap.find(jobbean->m_YearBelong) == m_DBMap.end())return;
char sql[2048];
sprintf_s(sql, sizeof(sql), "SELECT min(%s) '%s',max(%s) '%s',min(%s) '%s',max(%s) '%s',min(%s) '%s',max(%s) '%s',\
min(%s) '%s',max(%s) '%s',min(%s) '%s',max(%s) '%s',min(%s) '%s',max(%s) '%s',min(%s) '%s',max(%s) '%s' \
,min(%s) '%s',max(%s) '%s',min(%s) '%s',max(%s) '%s',min(%s) '%s',max(%s) '%s',min(%s) '%s',max(%s) '%s',\
min(%s) '%s',max(%s) '%s',min(%s) '%s',max(%s) '%s',min(%s) '%s',max(%s) '%s' FROM %s WHERE %s = %d",
LayerStatus::STATUS_FIELD_PRINT_OXYGEN1.c_str(), "minOxygen1", LayerStatus::STATUS_FIELD_PRINT_OXYGEN1.c_str(), "maxOxygen1",
LayerStatus::STATUS_FIELD_PRINT_OXYGEN2.c_str(), "minOxygen2", LayerStatus::STATUS_FIELD_PRINT_OXYGEN2.c_str(), "maxOxygen2",
LayerStatus::STATUS_FIELD_OUTSIDE_OXYGEN.c_str(), "minOutOxygen", LayerStatus::STATUS_FIELD_OUTSIDE_OXYGEN.c_str(), "maxOutOxygen",
LayerStatus::STATUS_FIELD_PRINT_TEMP1.c_str(), "minInnerTemp1", LayerStatus::STATUS_FIELD_PRINT_TEMP1.c_str(), "maxInnerTemp1",
LayerStatus::STATUS_FIELD_PRINT_TEMP2.c_str(), "minInnerTemp2", LayerStatus::STATUS_FIELD_PRINT_TEMP2.c_str(), "maxInnerTemp2",
LayerStatus::STATUS_FIELD_PRINT_HUMIDITY1.c_str(), "minHumidity1", LayerStatus::STATUS_FIELD_PRINT_HUMIDITY1.c_str(), "maxHumidity1",
LayerStatus::STATUS_FIELD_PRINT_HUMIDITY2.c_str(), "minHumidity2", LayerStatus::STATUS_FIELD_PRINT_HUMIDITY2.c_str(), "maxHumidity2",
LayerStatus::STATUS_FIELD_PRINT_PRESSURE.c_str(), "minInnerPressure", LayerStatus::STATUS_FIELD_PRINT_PRESSURE.c_str(), "maxInnerPressure",
LayerStatus::STATUS_FIELD_FAN_FREQUENCY.c_str(), "minFanFrequency", LayerStatus::STATUS_FIELD_FAN_FREQUENCY.c_str(), "maxFanFrequency",
LayerStatus::STATUS_FIELD_PLATE_TEMP.c_str(), "minPlateTemp", LayerStatus::STATUS_FIELD_PLATE_TEMP.c_str(), "maxPlateTemp",
LayerStatus::STATUS_FIELD_WIND_RATE.c_str(), "minWindRate", LayerStatus::STATUS_FIELD_WIND_RATE.c_str(), "maxWindRate",
LayerStatus::STATUS_FIELD_LASER_WATER_TEMP.c_str(), "minLaserWaterTemp", LayerStatus::STATUS_FIELD_LASER_WATER_TEMP.c_str(), "maxLaserWaterTemp",
LayerStatus::STATUS_FIELD_SCANNER_WATER_TEMP.c_str(), "minScannerWaterTemp", LayerStatus::STATUS_FIELD_SCANNER_WATER_TEMP.c_str(), "maxScannerWaterTemp",
LayerStatus::STATUS_FIELD_PURIFIER_WATER_TEMP.c_str(), "minPurifierWaterTemp", LayerStatus::STATUS_FIELD_PURIFIER_WATER_TEMP.c_str(), "maxPurifierWaterTemp",
LayerStatus::STATUS_TABLE_NAME.c_str(), LayerStatus::STATUS_FIELD_JOB_ID.c_str(), jobbean->m_Id);
SQLite::Statement query(*m_DBMap[jobbean->m_YearBelong], sql);
if (query.executeStep()) {
jobbean->m_Maximum.m_MinMaxPrintOxygen1[0] = (float)query.getColumn("minOxygen1").getDouble();
jobbean->m_Maximum.m_MinMaxPrintOxygen1[1] = (float)query.getColumn("maxOxygen1").getDouble();
jobbean->m_Maximum.m_MinMaxPrintOxygen2[0] = (float)query.getColumn("minOxygen2").getDouble();
jobbean->m_Maximum.m_MinMaxPrintOxygen2[1] = (float)query.getColumn("maxOxygen2").getDouble();
jobbean->m_Maximum.m_MinMaxOutsideOxygen[0] = (float)query.getColumn("minOutOxygen").getDouble();
jobbean->m_Maximum.m_MinMaxOutsideOxygen[1] = (float)query.getColumn("maxOutOxygen").getDouble();
jobbean->m_Maximum.m_MinMaxPrintTemp1[0] = (float)query.getColumn("minInnerTemp1").getDouble();
jobbean->m_Maximum.m_MinMaxPrintTemp1[1] = (float)query.getColumn("maxInnerTemp1").getDouble();
jobbean->m_Maximum.m_MinMaxPrintTemp2[0] = (float)query.getColumn("minInnerTemp2").getDouble();
jobbean->m_Maximum.m_MinMaxPrintTemp2[1] = (float)query.getColumn("maxInnerTemp2").getDouble();
jobbean->m_Maximum.m_MinMaxPringHumidity1[0] = (float)query.getColumn("minHumidity1").getDouble();
jobbean->m_Maximum.m_MinMaxPringHumidity1[1] = (float)query.getColumn("maxHumidity1").getDouble();
jobbean->m_Maximum.m_MinMaxPringHumidity2[0] = (float)query.getColumn("minHumidity2").getDouble();
jobbean->m_Maximum.m_MinMaxPringHumidity2[1] = (float)query.getColumn("maxHumidity2").getDouble();
jobbean->m_Maximum.m_MinMaxPrintPressure[0] = (float)query.getColumn("minInnerPressure").getDouble();
jobbean->m_Maximum.m_MinMaxPrintPressure[1] = (float)query.getColumn("maxInnerPressure").getDouble();
jobbean->m_Maximum.m_MinMaxFanFrequency[0] = (float)query.getColumn("minFanFrequency").getDouble();
jobbean->m_Maximum.m_MinMaxFanFrequency[1] = (float)query.getColumn("maxFanFrequency").getDouble();
jobbean->m_Maximum.m_MinMaxPlateTemp[0] = (float)query.getColumn("minPlateTemp").getDouble();
jobbean->m_Maximum.m_MinMaxPlateTemp[1] = (float)query.getColumn("maxPlateTemp").getDouble();
jobbean->m_Maximum.m_MinMaxWindRate[0] = (float)query.getColumn("minWindRate").getDouble();
jobbean->m_Maximum.m_MinMaxWindRate[1] = (float)query.getColumn("maxWindRate").getDouble();
jobbean->m_Maximum.m_MinMaxLaserWaterTemp[0] = (float)query.getColumn("minLaserWaterTemp").getDouble();
jobbean->m_Maximum.m_MinMaxLaserWaterTemp[1] = (float)query.getColumn("maxLaserWaterTemp").getDouble();
jobbean->m_Maximum.m_MinMaxScannerWaterTemp[0] = (float)query.getColumn("minScannerWaterTemp").getDouble();
jobbean->m_Maximum.m_MinMaxScannerWaterTemp[1] = (float)query.getColumn("maxScannerWaterTemp").getDouble();
jobbean->m_Maximum.m_MinMaxPurifierWaterTemp[0] = (float)query.getColumn("minPurifierWaterTemp").getDouble();
jobbean->m_Maximum.m_MinMaxPurifierWaterTemp[1] = (float)query.getColumn("maxPurifierWaterTemp").getDouble();
}
}*/
//void LogDao::GetLayerStatusTable(LogAssist& la, bool isRemote)
//{
// if (m_CurrentShowJob == NULL)
// return;
//
// if (m_DBMap.find(m_CurrentShowJob->m_YearBelong) == m_DBMap.end())
// return;
//
// SQLite::Database* db = m_DBMap[m_CurrentShowJob->m_YearBelong];
//
// char sql[1024];
// EnterCriticalSection(&m_StatusCs);
// for (size_t i = 0; i < m_LayerStatus.size(); ++i) {
// delete m_LayerStatus[i];
// m_LayerStatus[i] = NULL;
// }
// m_LayerStatus.clear();
// LeaveCriticalSection(&m_StatusCs);
//
// sprintf_s(sql, sizeof(sql), "SELECT * FROM %s WHERE %s = %d ORDER BY %s",
// LayerStatus::STATUS_TABLE_NAME.c_str(), LayerStatus::STATUS_FIELD_JOB_ID.c_str(), m_CurrentShowJob->m_Id, LayerStatus::STATUS_FIELD_INSERT_TIME.c_str());
//
// EnterCriticalSection(&m_DbCs);
// try {
// SQLite::Statement query(*db, sql);
// while (query.executeStep()) {
// LayerStatus* ls = new LayerStatus();
// ls->m_Id = query.getColumn(LayerStatus::STATUS_FIELD_ID.c_str()).getInt();
// ls->m_InsertTitme = query.getColumn(LayerStatus::STATUS_FIELD_INSERT_TIME.c_str()).getInt64();
// ls->m_JobId = query.getColumn(LayerStatus::STATUS_FIELD_JOB_ID.c_str()).getInt();
// ls->m_LayerIndex = query.getColumn(LayerStatus::STATUS_FIELD_LAYER_INDEX.c_str()).getUInt();
// ls->m_SpendSecond = query.getColumn(LayerStatus::STATUS_FIELD_SPEND_SECOND.c_str()).getUInt();
// ls->m_MoldMainPos = query.getColumn(LayerStatus::STATUS_FIELD_MOLD_MAIN_POS.c_str()).getDouble();
// ls->m_MoldSlavePos = query.getColumn(LayerStatus::STATUS_FIELD_MOLD_SLAVE_POS.c_str()).getDouble();
// ls->m_PrintOxygen1 = (float)query.getColumn(LayerStatus::STATUS_FIELD_PRINT_OXYGEN1.c_str()).getDouble();
// ls->m_PrintOxygen2 = (float)query.getColumn(LayerStatus::STATUS_FIELD_PRINT_OXYGEN2.c_str()).getDouble();
// ls->m_OutsideOxygen = (float)query.getColumn(LayerStatus::STATUS_FIELD_OUTSIDE_OXYGEN.c_str()).getDouble();
// ls->m_PrintTemp1 = (float)query.getColumn(LayerStatus::STATUS_FIELD_PRINT_TEMP1.c_str()).getDouble();
// ls->m_PrintTemp2 = (float)query.getColumn(LayerStatus::STATUS_FIELD_PRINT_TEMP2.c_str()).getDouble();
// ls->m_PrintHumidity1 = (float)query.getColumn(LayerStatus::STATUS_FIELD_PRINT_HUMIDITY1.c_str()).getDouble();
// ls->m_PrintHumidity2 = (float)query.getColumn(LayerStatus::STATUS_FIELD_PRINT_HUMIDITY2.c_str()).getDouble();
// ls->m_PrintPressure = (float)query.getColumn(LayerStatus::STATUS_FIELD_PRINT_PRESSURE.c_str()).getDouble();
// ls->m_FanFrequency = (float)query.getColumn(LayerStatus::STATUS_FIELD_FAN_FREQUENCY.c_str()).getDouble();
// ls->m_PlateTemp = (float)query.getColumn(LayerStatus::STATUS_FIELD_PLATE_TEMP.c_str()).getDouble();
// ls->m_WindRate = (float)query.getColumn(LayerStatus::STATUS_FIELD_WIND_RATE.c_str()).getDouble();
// ls->m_LaserWaterTemp = (float)query.getColumn(LayerStatus::STATUS_FIELD_LASER_WATER_TEMP.c_str()).getDouble();
// ls->m_ScannerWaterTemp = (float)query.getColumn(LayerStatus::STATUS_FIELD_SCANNER_WATER_TEMP.c_str()).getDouble();
// ls->m_PurifierWaterTemp = (float)query.getColumn(LayerStatus::STATUS_FIELD_PURIFIER_WATER_TEMP.c_str()).getDouble();
//
// EnterCriticalSection(&m_StatusCs);
// m_LayerStatus.push_back(ls);
// LeaveCriticalSection(&m_StatusCs);
// }
// }
// catch (SQLite::Exception& e)
// {
// g_log->TraceInfo(e.getErrorStr());
// }
// LeaveCriticalSection(&m_DbCs);
//}
//void LogDao::GetLayerStatusByTime(LogAssist& la, bool isRemote)
//{
// if (m_CurrentShowJob == NULL)
// return;
//
// if (m_DBMap.find(m_CurrentShowJob->m_YearBelong) == m_DBMap.end())
// return;
//
// SQLite::Database* db = m_DBMap[m_CurrentShowJob->m_YearBelong];
//
// char sql[1024];
// EnterCriticalSection(&m_StatusCs);
// for (size_t i = 0; i < m_LayerStatus.size(); ++i) {
// delete m_LayerStatus[i];
// m_LayerStatus[i] = NULL;
// }
// m_LayerStatus.clear();
// LeaveCriticalSection(&m_StatusCs);
// for (int i = 0; i < LogAssist::PARAM_LENGTH; ++i) {
// la.paramValue[i].clear();
// la.paramIndex.clear();
// la.minValue[i] = FLT_MAX;
// la.maxValue[i] = -FLT_MAX;
// }
// unsigned int lastSpendSecond = 0;
//
// sprintf_s(sql, sizeof(sql), "SELECT * FROM %s WHERE %s = %d ORDER BY %s",
// LayerStatus::STATUS_TABLE_NAME.c_str(), LayerStatus::STATUS_FIELD_JOB_ID.c_str(), m_CurrentShowJob->m_Id, LayerStatus::STATUS_FIELD_INSERT_TIME.c_str());
//
// EnterCriticalSection(&m_DbCs);
// try {
// SQLite::Statement query(*db, sql);
// int lastLayerIndex = 0;
// unsigned int lastSpendSecondFlag = 0;
// while (query.executeStep()) {
// LayerStatus* ls = new LayerStatus();
// ls->m_Id = query.getColumn(LayerStatus::STATUS_FIELD_ID.c_str()).getInt();
// ls->m_InsertTitme = query.getColumn(LayerStatus::STATUS_FIELD_INSERT_TIME.c_str()).getInt64();
// ls->m_JobId = query.getColumn(LayerStatus::STATUS_FIELD_JOB_ID.c_str()).getInt();
// ls->m_LayerIndex = query.getColumn(LayerStatus::STATUS_FIELD_LAYER_INDEX.c_str()).getUInt();
// ls->m_SpendSecond = query.getColumn(LayerStatus::STATUS_FIELD_SPEND_SECOND.c_str()).getUInt();
// ls->m_MoldMainPos = query.getColumn(LayerStatus::STATUS_FIELD_MOLD_MAIN_POS.c_str()).getDouble();
// ls->m_MoldSlavePos = query.getColumn(LayerStatus::STATUS_FIELD_MOLD_SLAVE_POS.c_str()).getDouble();
// ls->m_PrintOxygen1 = (float)query.getColumn(LayerStatus::STATUS_FIELD_PRINT_OXYGEN1.c_str()).getDouble();
// ls->m_PrintOxygen2 = (float)query.getColumn(LayerStatus::STATUS_FIELD_PRINT_OXYGEN2.c_str()).getDouble();
// ls->m_OutsideOxygen = (float)query.getColumn(LayerStatus::STATUS_FIELD_OUTSIDE_OXYGEN.c_str()).getDouble();
// ls->m_PrintTemp1 = (float)query.getColumn(LayerStatus::STATUS_FIELD_PRINT_TEMP1.c_str()).getDouble();
// ls->m_PrintTemp2 = (float)query.getColumn(LayerStatus::STATUS_FIELD_PRINT_TEMP2.c_str()).getDouble();
// ls->m_PrintHumidity1 = (float)query.getColumn(LayerStatus::STATUS_FIELD_PRINT_HUMIDITY1.c_str()).getDouble();
// ls->m_PrintHumidity2 = (float)query.getColumn(LayerStatus::STATUS_FIELD_PRINT_HUMIDITY2.c_str()).getDouble();
// ls->m_PrintPressure = (float)query.getColumn(LayerStatus::STATUS_FIELD_PRINT_PRESSURE.c_str()).getDouble();
// ls->m_FanFrequency = (float)query.getColumn(LayerStatus::STATUS_FIELD_FAN_FREQUENCY.c_str()).getDouble();
// ls->m_PlateTemp = (float)query.getColumn(LayerStatus::STATUS_FIELD_PLATE_TEMP.c_str()).getDouble();
// ls->m_WindRate = (float)query.getColumn(LayerStatus::STATUS_FIELD_WIND_RATE.c_str()).getDouble();
// ls->m_LaserWaterTemp = (float)query.getColumn(LayerStatus::STATUS_FIELD_LASER_WATER_TEMP.c_str()).getDouble();
// ls->m_ScannerWaterTemp = (float)query.getColumn(LayerStatus::STATUS_FIELD_SCANNER_WATER_TEMP.c_str()).getDouble();
// ls->m_PurifierWaterTemp = (float)query.getColumn(LayerStatus::STATUS_FIELD_PURIFIER_WATER_TEMP.c_str()).getDouble();
// if (ls->m_LayerIndex < lastLayerIndex) {
// delete ls;
// ls = NULL;
// continue;
// }
// if (ls->m_SpendSecond < lastSpendSecondFlag) {
// delete ls;
// ls = NULL;
// continue;
// }
// else {
// lastSpendSecondFlag = ls->m_SpendSecond;
// }
// lastLayerIndex = ls->m_LayerIndex;
//
// if (ls->m_PrintOxygen1 < la.minValue[0])la.minValue[0] = ls->m_PrintOxygen1;
// if (ls->m_PrintOxygen1 > la.maxValue[0])la.maxValue[0] = ls->m_PrintOxygen1;
// if (ls->m_PrintOxygen2 < la.minValue[1])la.minValue[1] = ls->m_PrintOxygen2;
// if (ls->m_PrintOxygen2 > la.maxValue[1])la.maxValue[1] = ls->m_PrintOxygen2;
// if (ls->m_OutsideOxygen < la.minValue[2])la.minValue[2] = ls->m_OutsideOxygen;
// if (ls->m_OutsideOxygen > la.maxValue[2])la.maxValue[2] = ls->m_OutsideOxygen;
// if (ls->m_PrintTemp1 < la.minValue[3])la.minValue[3] = ls->m_PrintTemp1;
// if (ls->m_PrintTemp1 > la.maxValue[3])la.maxValue[3] = ls->m_PrintTemp1;
// if (ls->m_PrintTemp2 < la.minValue[4])la.minValue[4] = ls->m_PrintTemp2;
// if (ls->m_PrintTemp2 > la.maxValue[4])la.maxValue[4] = ls->m_PrintTemp2;
// if (ls->m_PrintHumidity1 < la.minValue[5])la.minValue[5] = ls->m_PrintHumidity1;
// if (ls->m_PrintHumidity1 > la.maxValue[5])la.maxValue[5] = ls->m_PrintHumidity1;
// if (ls->m_PrintHumidity2 < la.minValue[6])la.minValue[6] = ls->m_PrintHumidity2;
// if (ls->m_PrintHumidity2 > la.maxValue[6])la.maxValue[6] = ls->m_PrintHumidity2;
// if (ls->m_PrintPressure < la.minValue[7])la.minValue[7] = ls->m_PrintPressure;
// if (ls->m_PrintPressure > la.maxValue[7])la.maxValue[7] = ls->m_PrintPressure;
// if (ls->m_FanFrequency < la.minValue[8])la.minValue[8] = ls->m_FanFrequency;
// if (ls->m_FanFrequency > la.maxValue[8])la.maxValue[8] = ls->m_FanFrequency;
// if (ls->m_PlateTemp < la.minValue[9])la.minValue[9] = ls->m_PlateTemp;
// if (ls->m_PlateTemp > la.maxValue[9])la.maxValue[9] = ls->m_PlateTemp;
// if (ls->m_WindRate < la.minValue[10])la.minValue[10] = ls->m_WindRate;
// if (ls->m_WindRate > la.maxValue[10])la.maxValue[10] = ls->m_WindRate;
// if (ls->m_LaserWaterTemp < la.minValue[11])la.minValue[11] = ls->m_LaserWaterTemp;
// if (ls->m_LaserWaterTemp > la.maxValue[11])la.maxValue[11] = ls->m_LaserWaterTemp;
// if (ls->m_ScannerWaterTemp < la.minValue[12])la.minValue[12] = ls->m_ScannerWaterTemp;
// if (ls->m_ScannerWaterTemp > la.maxValue[12])la.maxValue[12] = ls->m_ScannerWaterTemp;
// if (ls->m_PurifierWaterTemp < la.minValue[13])la.minValue[13] = ls->m_PurifierWaterTemp;
// if (ls->m_PurifierWaterTemp > la.maxValue[13])la.maxValue[13] = ls->m_PurifierWaterTemp;
//
// la.paramValue[0].push_back(ls->m_PrintOxygen1);
// la.paramValue[1].push_back(ls->m_PrintOxygen2);
// la.paramValue[2].push_back(ls->m_OutsideOxygen);
// la.paramValue[3].push_back(ls->m_PrintTemp1);
// la.paramValue[4].push_back(ls->m_PrintTemp2);
// la.paramValue[5].push_back(ls->m_PrintHumidity1);
// la.paramValue[6].push_back(ls->m_PrintHumidity2);
// la.paramValue[7].push_back(ls->m_PrintPressure);
// la.paramValue[8].push_back(ls->m_FanFrequency);
// la.paramValue[9].push_back(ls->m_PlateTemp);
// la.paramValue[10].push_back(ls->m_WindRate);
// la.paramValue[11].push_back(ls->m_LaserWaterTemp);
// la.paramValue[12].push_back(ls->m_ScannerWaterTemp);
// la.paramValue[13].push_back(ls->m_PurifierWaterTemp);
// if (ls->m_SpendSecond < lastSpendSecond) {
// ls->m_SpendSecond = lastSpendSecond;
// }
// la.paramIndex.push_back(ls->m_InsertTitme);
// lastSpendSecond = ls->m_SpendSecond;
//
// EnterCriticalSection(&m_StatusCs);
// m_LayerStatus.push_back(ls);
// LeaveCriticalSection(&m_StatusCs);
// }
// }
// catch (SQLite::Exception& e)
// {
// g_log->TraceInfo(e.getErrorStr());
// }
// LeaveCriticalSection(&m_DbCs);
//}
//void LogDao::GetLayerStatusByLayer(LogAssist& la, bool isRemote)
//{
// if (m_CurrentShowJob == NULL)
// return;
// if (m_DBMap.find(m_CurrentShowJob->m_YearBelong) == m_DBMap.end())
// return;
//
// SQLite::Database* db = m_DBMap[m_CurrentShowJob->m_YearBelong];
//
// char sql[1024];
// EnterCriticalSection(&m_StatusCs);
// for (size_t i = 0; i < m_LayerStatus.size(); ++i) {
// delete m_LayerStatus[i];
// m_LayerStatus[i] = NULL;
// }
// m_LayerStatus.clear();
// LeaveCriticalSection(&m_StatusCs);
//
// for (int i = 0; i < LogAssist::PARAM_LENGTH; ++i) {
// la.paramValue[i].clear();
// la.paramIndex.clear();
// la.minValue[i] = FLT_MAX;
// la.maxValue[i] = -FLT_MAX;
// }
//
// sprintf_s(sql, sizeof(sql), "SELECT %s,min(%s) %s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s FROM %s WHERE %s = %d GROUP BY %s ORDER BY %s",
// LayerStatus::STATUS_FIELD_ID.c_str(), LayerStatus::STATUS_FIELD_INSERT_TIME.c_str(), LayerStatus::STATUS_FIELD_INSERT_TIME.c_str(),
// LayerStatus::STATUS_FIELD_JOB_ID.c_str(),
// LayerStatus::STATUS_FIELD_LAYER_INDEX.c_str(),
// LayerStatus::STATUS_FIELD_SPEND_SECOND.c_str(),
// LayerStatus::STATUS_FIELD_MOLD_MAIN_POS.c_str(),
// LayerStatus::STATUS_FIELD_MOLD_SLAVE_POS.c_str(),
// LayerStatus::STATUS_FIELD_PRINT_OXYGEN1.c_str(),
// LayerStatus::STATUS_FIELD_PRINT_OXYGEN2.c_str(),
// LayerStatus::STATUS_FIELD_OUTSIDE_OXYGEN.c_str(),
// LayerStatus::STATUS_FIELD_PRINT_TEMP1.c_str(),
// LayerStatus::STATUS_FIELD_PRINT_TEMP2.c_str(),
// LayerStatus::STATUS_FIELD_PRINT_HUMIDITY1.c_str(),
// LayerStatus::STATUS_FIELD_PRINT_HUMIDITY2.c_str(),
// LayerStatus::STATUS_FIELD_PRINT_PRESSURE.c_str(),
// LayerStatus::STATUS_FIELD_FAN_FREQUENCY.c_str(),
// LayerStatus::STATUS_FIELD_PLATE_TEMP.c_str(),
// LayerStatus::STATUS_FIELD_WIND_RATE.c_str(),
// LayerStatus::STATUS_FIELD_LASER_WATER_TEMP.c_str(),
// LayerStatus::STATUS_FIELD_SCANNER_WATER_TEMP.c_str(),
// LayerStatus::STATUS_FIELD_PURIFIER_WATER_TEMP.c_str(),
// LayerStatus::STATUS_TABLE_NAME.c_str(), LayerStatus::STATUS_FIELD_JOB_ID.c_str(), m_CurrentShowJob->m_Id,
// LayerStatus::STATUS_FIELD_LAYER_INDEX.c_str(), LayerStatus::STATUS_FIELD_INSERT_TIME.c_str());
//
// EnterCriticalSection(&m_DbCs);
// try {
// SQLite::Statement query(*db, sql);
// int lastLayerIndex = 0;
// while (query.executeStep()) {
// LayerStatus* ls = new LayerStatus();
// ls->m_Id = query.getColumn(LayerStatus::STATUS_FIELD_ID.c_str()).getInt();
// ls->m_InsertTitme = query.getColumn(LayerStatus::STATUS_FIELD_INSERT_TIME.c_str()).getInt64();
// ls->m_JobId = query.getColumn(LayerStatus::STATUS_FIELD_JOB_ID.c_str()).getInt();
// ls->m_LayerIndex = query.getColumn(LayerStatus::STATUS_FIELD_LAYER_INDEX.c_str()).getUInt();
// ls->m_SpendSecond = query.getColumn(LayerStatus::STATUS_FIELD_SPEND_SECOND.c_str()).getUInt();
// ls->m_MoldMainPos = query.getColumn(LayerStatus::STATUS_FIELD_MOLD_MAIN_POS.c_str()).getDouble();
// ls->m_MoldSlavePos = query.getColumn(LayerStatus::STATUS_FIELD_MOLD_SLAVE_POS.c_str()).getDouble();
// ls->m_PrintOxygen1 = (float)query.getColumn(LayerStatus::STATUS_FIELD_PRINT_OXYGEN1.c_str()).getDouble();
// ls->m_PrintOxygen2 = (float)query.getColumn(LayerStatus::STATUS_FIELD_PRINT_OXYGEN2.c_str()).getDouble();
// ls->m_OutsideOxygen = (float)query.getColumn(LayerStatus::STATUS_FIELD_OUTSIDE_OXYGEN.c_str()).getDouble();
// ls->m_PrintTemp1 = (float)query.getColumn(LayerStatus::STATUS_FIELD_PRINT_TEMP1.c_str()).getDouble();
// ls->m_PrintTemp2 = (float)query.getColumn(LayerStatus::STATUS_FIELD_PRINT_TEMP2.c_str()).getDouble();
// ls->m_PrintHumidity1 = (float)query.getColumn(LayerStatus::STATUS_FIELD_PRINT_HUMIDITY1.c_str()).getDouble();
// ls->m_PrintHumidity2 = (float)query.getColumn(LayerStatus::STATUS_FIELD_PRINT_HUMIDITY2.c_str()).getDouble();
// ls->m_PrintPressure = (float)query.getColumn(LayerStatus::STATUS_FIELD_PRINT_PRESSURE.c_str()).getDouble();
// ls->m_FanFrequency = (float)query.getColumn(LayerStatus::STATUS_FIELD_FAN_FREQUENCY.c_str()).getDouble();
// ls->m_PlateTemp = (float)query.getColumn(LayerStatus::STATUS_FIELD_PLATE_TEMP.c_str()).getDouble();
// ls->m_WindRate = (float)query.getColumn(LayerStatus::STATUS_FIELD_WIND_RATE.c_str()).getDouble();
// ls->m_LaserWaterTemp = (float)query.getColumn(LayerStatus::STATUS_FIELD_LASER_WATER_TEMP.c_str()).getDouble();
// ls->m_ScannerWaterTemp = (float)query.getColumn(LayerStatus::STATUS_FIELD_SCANNER_WATER_TEMP.c_str()).getDouble();
// ls->m_PurifierWaterTemp = (float)query.getColumn(LayerStatus::STATUS_FIELD_PURIFIER_WATER_TEMP.c_str()).getDouble();
// if (ls->m_LayerIndex < lastLayerIndex) {
// delete ls;
// ls = NULL;
//
// continue;
// }
// lastLayerIndex = ls->m_LayerIndex;
//
// if (ls->m_PrintOxygen1 < la.minValue[0])la.minValue[0] = ls->m_PrintOxygen1;
// if (ls->m_PrintOxygen1 > la.maxValue[0])la.maxValue[0] = ls->m_PrintOxygen1;
// if (ls->m_PrintOxygen2 < la.minValue[1])la.minValue[1] = ls->m_PrintOxygen2;
// if (ls->m_PrintOxygen2 > la.maxValue[1])la.maxValue[1] = ls->m_PrintOxygen2;
// if (ls->m_OutsideOxygen < la.minValue[2])la.minValue[2] = ls->m_OutsideOxygen;
// if (ls->m_OutsideOxygen > la.maxValue[2])la.maxValue[2] = ls->m_OutsideOxygen;
// if (ls->m_PrintTemp1 < la.minValue[3])la.minValue[3] = ls->m_PrintTemp1;
// if (ls->m_PrintTemp1 > la.maxValue[3])la.maxValue[3] = ls->m_PrintTemp1;
// if (ls->m_PrintTemp2 < la.minValue[4])la.minValue[4] = ls->m_PrintTemp2;
// if (ls->m_PrintTemp2 > la.maxValue[4])la.maxValue[4] = ls->m_PrintTemp2;
// if (ls->m_PrintHumidity1 < la.minValue[5])la.minValue[5] = ls->m_PrintHumidity1;
// if (ls->m_PrintHumidity1 > la.maxValue[5])la.maxValue[5] = ls->m_PrintHumidity1;
// if (ls->m_PrintHumidity2 < la.minValue[6])la.minValue[6] = ls->m_PrintHumidity2;
// if (ls->m_PrintHumidity2 > la.maxValue[6])la.maxValue[6] = ls->m_PrintHumidity2;
// if (ls->m_PrintPressure < la.minValue[7])la.minValue[7] = ls->m_PrintPressure;
// if (ls->m_PrintPressure > la.maxValue[7])la.maxValue[7] = ls->m_PrintPressure;
// if (ls->m_FanFrequency < la.minValue[8])la.minValue[8] = ls->m_FanFrequency;
// if (ls->m_FanFrequency > la.maxValue[8])la.maxValue[8] = ls->m_FanFrequency;
// if (ls->m_PlateTemp < la.minValue[9])la.minValue[9] = ls->m_PlateTemp;
// if (ls->m_PlateTemp > la.maxValue[9])la.maxValue[9] = ls->m_PlateTemp;
// if (ls->m_WindRate < la.minValue[10])la.minValue[10] = ls->m_WindRate;
// if (ls->m_WindRate > la.maxValue[10])la.maxValue[10] = ls->m_WindRate;
// if (ls->m_LaserWaterTemp < la.minValue[11])la.minValue[11] = ls->m_LaserWaterTemp;
// if (ls->m_LaserWaterTemp > la.maxValue[11])la.maxValue[11] = ls->m_LaserWaterTemp;
// if (ls->m_ScannerWaterTemp < la.minValue[12])la.minValue[12] = ls->m_ScannerWaterTemp;
// if (ls->m_ScannerWaterTemp > la.maxValue[12])la.maxValue[12] = ls->m_ScannerWaterTemp;
// if (ls->m_PurifierWaterTemp < la.minValue[13])la.minValue[13] = ls->m_PurifierWaterTemp;
// if (ls->m_PurifierWaterTemp > la.maxValue[13])la.maxValue[13] = ls->m_PurifierWaterTemp;
//
// la.paramValue[0].push_back(ls->m_PrintOxygen1);
// la.paramValue[1].push_back(ls->m_PrintOxygen2);
// la.paramValue[2].push_back(ls->m_OutsideOxygen);
// la.paramValue[3].push_back(ls->m_PrintTemp1);
// la.paramValue[4].push_back(ls->m_PrintTemp2);
// la.paramValue[5].push_back(ls->m_PrintHumidity1);
// la.paramValue[6].push_back(ls->m_PrintHumidity2);
// la.paramValue[7].push_back(ls->m_PrintPressure);
// la.paramValue[8].push_back(ls->m_FanFrequency);
// la.paramValue[9].push_back(ls->m_PlateTemp);
// la.paramValue[10].push_back(ls->m_WindRate);
// la.paramValue[11].push_back(ls->m_LaserWaterTemp);
// la.paramValue[12].push_back(ls->m_ScannerWaterTemp);
// la.paramValue[13].push_back(ls->m_PurifierWaterTemp);
// la.paramIndex.push_back((float)(ls->m_LayerIndex + 1));
// EnterCriticalSection(&m_StatusCs);
// m_LayerStatus.push_back(ls);
// LeaveCriticalSection(&m_StatusCs);
// }
// }
// catch (SQLite::Exception& e)
// {
// g_log->TraceInfo(e.getErrorStr());
// }
// LeaveCriticalSection(&m_DbCs);
//}
void LogDao::LogLayerStatus(LayerStatus& status)
{
char sqlbuf[1024];
sprintf_s(sqlbuf, sizeof(sqlbuf), "INSERT INTO %s(%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s) VALUES(%lld,%d,%u,%d,%lf, %.2f, %.2f,%.2f, %.2f, %.2f, %.2f,%.2f,%.2f,%.2f, %.2f, %.2f,%.2f, %.2f,%.2f,%.2f)",
LayerStatus::STATUS_TABLE_NAME.c_str(),
LayerStatus::STATUS_FIELD_INSERT_TIME.c_str(),
LayerStatus::STATUS_FIELD_JOB_ID.c_str(),
LayerStatus::STATUS_FIELD_LAYER_INDEX.c_str(),
LayerStatus::STATUS_FIELD_SPEND_SECOND.c_str(),
LayerStatus::STATUS_FIELD_MOLD_MAIN_POS.c_str(),
LayerStatus::STATUS_FIELD_MOLD_SLAVE_POS.c_str(),
LayerStatus::STATUS_FIELD_PRINT_OXYGEN1.c_str(),
LayerStatus::STATUS_FIELD_PRINT_OXYGEN2.c_str(),
LayerStatus::STATUS_FIELD_OUTSIDE_OXYGEN.c_str(),
LayerStatus::STATUS_FIELD_PRINT_TEMP1.c_str(),
LayerStatus::STATUS_FIELD_PRINT_TEMP2.c_str(),
LayerStatus::STATUS_FIELD_PRINT_HUMIDITY1.c_str(),
LayerStatus::STATUS_FIELD_PRINT_HUMIDITY2.c_str(),
LayerStatus::STATUS_FIELD_PRINT_PRESSURE.c_str(),
LayerStatus::STATUS_FIELD_FAN_FREQUENCY.c_str(),
LayerStatus::STATUS_FIELD_PLATE_TEMP.c_str(),
LayerStatus::STATUS_FIELD_WIND_RATE.c_str(),
LayerStatus::STATUS_FIELD_LASER_WATER_TEMP.c_str(),
LayerStatus::STATUS_FIELD_SCANNER_WATER_TEMP.c_str(),
LayerStatus::STATUS_FIELD_PURIFIER_WATER_TEMP.c_str(),
status.m_InsertTitme,
status.m_JobId,
status.m_LayerIndex,
status.m_SpendSecond,
status.m_MoldMainPos,
status.m_MoldSlavePos,
status.m_PrintOxygen1,
status.m_PrintOxygen2,
status.m_OutsideOxygen,
status.m_PrintTemp1,
status.m_PrintTemp2,
status.m_PrintHumidity1,
status.m_PrintHumidity2,
status.m_PrintPressure,
status.m_FanFrequency,
status.m_PlateTemp,
status.m_WindRate,
status.m_LaserWaterTemp,
status.m_ScannerWaterTemp,
status.m_PurifierWaterTemp
);
EnterCriticalSection(&m_DbCs);
try {
m_pDB->exec(sqlbuf);
}
catch (SQLite::Exception &e)
{
g_log->TraceError(e.getErrorStr());
}
LeaveCriticalSection(&m_DbCs);
}
void LogDao::GetAlarms(struct tm &begin, struct tm &end, bool isRemote)
{
begin.tm_hour = 0;
begin.tm_min = 0;
begin.tm_sec = 0;
end.tm_hour = 23;
end.tm_min = 59;
end.tm_sec = 59;
time_t tbegin = mktime(&begin);
time_t tend = mktime(&end);
if (tend < tbegin) {
g_Toast->AddToast(new ToastBean(_(u8"结束日期要大于开始日期").c_str(), 3000));
return;
}
else if ((tend - tbegin) > 60 * 60 * 24 * 90) {
g_Toast->AddToast(new ToastBean(_(u8"日期范围超过90天").c_str(), 3000));
return;
}
EnterCriticalSection(&m_AlarmCs);
for (size_t i = 0; i < m_Alarms.size(); ++i) {
delete m_Alarms[i];
m_Alarms[i] = NULL;
}
m_Alarms.clear();
LeaveCriticalSection(&m_AlarmCs);
char buffer[1024];
if (begin.tm_year == end.tm_year)
{
if (m_DBMap.find(begin.tm_year + 1900) == m_DBMap.end())return;
sprintf_s(buffer, sizeof(buffer), "SELECT %s,%s,%s,%s FROM %s WHERE %s BETWEEN %lld AND %lld ORDER BY %s",
HistoryAlarm::FIELD_INSERT_TIME.c_str(),
HistoryAlarm::FIELD_JOB_NAME.c_str(),
HistoryAlarm::FIELD_TYPE.c_str(),
HistoryAlarm::FIELD_ALARM_CONTENT.c_str(),
HistoryAlarm::TABLE_NAME.c_str(),
HistoryAlarm::FIELD_INSERT_TIME.c_str(), tbegin, tend, HistoryAlarm::FIELD_INSERT_TIME.c_str());
EnterCriticalSection(&m_DbCs);
try {
SQLite::Statement query(*m_DBMap[begin.tm_year + 1900], buffer);
while (query.executeStep()) {
HistoryAlarm* alarm = new HistoryAlarm();
alarm->m_InsertTime = query.getColumn(HistoryAlarm::FIELD_INSERT_TIME.c_str()).getInt64();
alarm->m_JobName = query.getColumn(HistoryAlarm::FIELD_JOB_NAME.c_str()).getString();
alarm->m_Type = query.getColumn(HistoryAlarm::FIELD_TYPE.c_str()).getInt();
alarm->m_AlarmContent = query.getColumn(HistoryAlarm::FIELD_ALARM_CONTENT.c_str()).getString();
EnterCriticalSection(&m_AlarmCs);
m_Alarms.push_back(alarm);
LeaveCriticalSection(&m_AlarmCs);
}
}
catch (SQLite::Exception &e)
{
g_log->TraceError(e.getErrorStr());
}
LeaveCriticalSection(&m_DbCs);
}
else {
if (m_DBMap.find(begin.tm_year + 1900) == m_DBMap.end())return;
sprintf_s(buffer, sizeof(buffer), "SELECT %s,%s,%s,%s FROM %s WHERE %s BETWEEN %lld AND %lld ORDER BY %s",
HistoryAlarm::FIELD_INSERT_TIME.c_str(),
HistoryAlarm::FIELD_JOB_NAME.c_str(),
HistoryAlarm::FIELD_TYPE.c_str(),
HistoryAlarm::FIELD_ALARM_CONTENT.c_str(),
HistoryAlarm::TABLE_NAME.c_str(),
HistoryAlarm::FIELD_INSERT_TIME.c_str(), tbegin, tend, HistoryAlarm::FIELD_INSERT_TIME.c_str());
EnterCriticalSection(&m_DbCs);
try {
SQLite::Statement query(*m_DBMap[begin.tm_year + 1900], buffer);
while (query.executeStep()) {
HistoryAlarm* alarm = new HistoryAlarm();
alarm->m_InsertTime = query.getColumn(HistoryAlarm::FIELD_INSERT_TIME.c_str()).getInt64();
alarm->m_JobName = query.getColumn(HistoryAlarm::FIELD_JOB_NAME.c_str()).getString();
alarm->m_Type = query.getColumn(HistoryAlarm::FIELD_TYPE.c_str()).getInt();
alarm->m_AlarmContent = query.getColumn(HistoryAlarm::FIELD_ALARM_CONTENT.c_str()).getString();
EnterCriticalSection(&m_AlarmCs);
m_Alarms.push_back(alarm);
LeaveCriticalSection(&m_AlarmCs);
}
}
catch (SQLite::Exception &e)
{
g_log->TraceError(e.getErrorStr());
}
LeaveCriticalSection(&m_DbCs);
if (m_DBMap.find(end.tm_year + 1900) == m_DBMap.end())return;
EnterCriticalSection(&m_DbCs);
try {
SQLite::Statement query2(*m_DBMap[end.tm_year + 1900], buffer);
while (query2.executeStep()) {
HistoryAlarm* alarm = new HistoryAlarm();
alarm->m_InsertTime = query2.getColumn(HistoryAlarm::FIELD_INSERT_TIME.c_str()).getInt64();
alarm->m_JobName = query2.getColumn(HistoryAlarm::FIELD_JOB_NAME.c_str()).getString();
alarm->m_Type = query2.getColumn(HistoryAlarm::FIELD_TYPE.c_str()).getInt();
alarm->m_AlarmContent = query2.getColumn(HistoryAlarm::FIELD_ALARM_CONTENT.c_str()).getString();
EnterCriticalSection(&m_AlarmCs);
m_Alarms.push_back(alarm);
LeaveCriticalSection(&m_AlarmCs);
}
}
catch (SQLite::Exception &e)
{
g_log->TraceError(e.getErrorStr());
}
LeaveCriticalSection(&m_DbCs);
}
}
void LogDao::AddHistoryAlarm(string jobname, int type, string code)
{
time_t tnow;
time(&tnow);
char buffer[1024];
sprintf_s(buffer, sizeof(buffer), "INSERT INTO %s(%s,%s,%s,%s) VALUES(%lld,'%s',%d,'%s')",
HistoryAlarm::TABLE_NAME.c_str(), HistoryAlarm::FIELD_INSERT_TIME.c_str(),
HistoryAlarm::FIELD_JOB_NAME.c_str(),
HistoryAlarm::FIELD_TYPE.c_str(), HistoryAlarm::FIELD_ALARM_CONTENT.c_str(),
tnow, jobname.c_str(), type, code.c_str());
EnterCriticalSection(&m_DbCs);
try {
m_pDB->exec(buffer);
}
catch (SQLite::Exception &e)
{
g_log->TraceError(e.getErrorStr());
}
LeaveCriticalSection(&m_DbCs);
}
void LogDao::AddImage(LogImage& image)
{
if (!m_LogImageDB || image.m_Image == NULL || image.m_ImageLength == 0)return;
char buffer[1024];
sprintf_s(buffer, sizeof(buffer), "INSERT INTO %s(%s,%s,%s,%s,%s) VALUES(%lld,%d,%d,%u,?)",
LogImage::IMAGE_TABLE_NAME.c_str(),
LogImage::IMAGE_FIELD_INSERT_TIME.c_str(),
LogImage::IMAGE_FIELD_JOB_ID.c_str(),
LogImage::IMAGE_FIELD_IMAGE_TYPE.c_str(),
LogImage::IMAGE_FIELD_LAYER_INDEX.c_str(),
LogImage::IMAGE_FIELD_IMAGE.c_str(),
image.m_InsertTime, image.m_JobId, image.m_Type, image.m_LayerIndex);
EnterCriticalSection(&m_ImgDbCs);
try
{
SQLite::Statement query(*m_LogImageDB, buffer);
query.bind(1, image.m_Image, image.m_ImageLength);
query.exec();
}
catch (SQLite::Exception &e)
{
g_log->TraceError(e.getErrorStr());
}
LeaveCriticalSection(&m_ImgDbCs);
}
void LogDao::FindImageInfo(bool isRemote)
{
if (m_CurrentShowJob == NULL)return;
if (!m_ShowImageDB)return;
EnterCriticalSection(&m_LogImageCs);
for (size_t i = 0; i < m_LogImages.size(); i++)
{
delete m_LogImages[i];
m_LogImages[i] = NULL;
}
m_LogImages.clear();
LeaveCriticalSection(&m_LogImageCs);
char buffer[1024];
sprintf_s(buffer, sizeof(buffer), "SELECT %s,%s,%s,%s,%s FROM %s WHERE %s=%d ",
LogImage::IMAGE_FIELD_ID.c_str(),
LogImage::IMAGE_FIELD_INSERT_TIME.c_str(),
LogImage::IMAGE_FIELD_JOB_ID.c_str(),
LogImage::IMAGE_FIELD_IMAGE_TYPE.c_str(),
LogImage::IMAGE_FIELD_LAYER_INDEX.c_str(),
LogImage::IMAGE_TABLE_NAME.c_str(),
LogImage::IMAGE_FIELD_JOB_ID.c_str(), m_CurrentShowJob->m_Id);
EnterCriticalSection(&m_ImgDbCs);
try
{
SQLite::Statement query(*m_ShowImageDB, buffer);
while (query.executeStep()) {
LogImage* image = new LogImage();
image->m_Id = query.getColumn(LogImage::IMAGE_FIELD_ID.c_str()).getInt();
image->m_InsertTime = query.getColumn(LogImage::IMAGE_FIELD_INSERT_TIME.c_str()).getInt64();
image->m_JobId = query.getColumn(LogImage::IMAGE_FIELD_JOB_ID.c_str()).getInt();
image->m_Type = LogImage::ImageType(query.getColumn(LogImage::IMAGE_FIELD_IMAGE_TYPE.c_str()).getInt());
image->m_LayerIndex = query.getColumn(LogImage::IMAGE_FIELD_LAYER_INDEX.c_str()).getUInt();
EnterCriticalSection(&m_LogImageCs);
m_LogImages.push_back(image);
LeaveCriticalSection(&m_LogImageCs);
}
}
catch (SQLite::Exception &e)
{
g_log->TraceError(e.getErrorStr());
}
LeaveCriticalSection(&m_ImgDbCs);
}
bool LogDao::FindImage(unsigned int id, unsigned char** image, unsigned long* imagesize, bool isRemote)
{
if (m_CurrentShowJob == NULL)return false;
if (!m_ShowImageDB)return false;
bool rel = false;
char buffer[1024];
sprintf_s(buffer, sizeof(buffer), "SELECT %s FROM %s WHERE %s=%d",
LogImage::IMAGE_FIELD_IMAGE.c_str(),
LogImage::IMAGE_TABLE_NAME.c_str(),
LogImage::IMAGE_FIELD_ID.c_str(), id);
EnterCriticalSection(&m_ImgDbCs);
try
{
SQLite::Statement query(*m_ShowImageDB, buffer);
if (query.executeStep()) {
SQLite::Column colBlob = query.getColumn(LogImage::IMAGE_FIELD_IMAGE.c_str());
int blobsize = colBlob.getBytes();
if (blobsize > 0) {
unsigned char* pdata = (unsigned char*)colBlob.getBlob();
*image = new unsigned char[blobsize];
memcpy_s(*image, blobsize, pdata, blobsize);
*imagesize = blobsize;
rel = true;
}
}
}
catch (SQLite::Exception &e)
{
g_log->TraceError(e.getErrorStr());
}
LeaveCriticalSection(&m_ImgDbCs);
return rel;
}
bool LogDao::DelJobImage(string str)
{
if (str.empty())return true;
if (m_ShowImageDB)
{
delete m_ShowImageDB;
m_ShowImageDB = NULL;
}
char buffer[512];
sprintf_s(buffer, sizeof(buffer), "%s%s.img", m_ImagePath.c_str(), str.c_str());
if (std::remove(buffer) == 0)
{
return true;
}
else return false;
}
void LogDao::ResetImageDB()
{
if (m_LogImageDB)
{
delete m_LogImageDB;
m_LogImageDB = NULL;
}
}
void LogDao::AddPartAddition(PartAddition& pa)
{
char buffer[1024];
sprintf_s(buffer, sizeof(buffer), "INSERT INTO %s(%s,%s,%s,%s,%s,%s) VALUES('%s',%d,%d,%.2f,%.2f,%.2f)",
PartAddition::PART_TABLE_NAME.c_str(),
PartAddition::FIELD_JOB_ID.c_str(),
PartAddition::FIELD_SOURCE_PART.c_str(),
PartAddition::FIELD_NEW_PART.c_str(),
PartAddition::FIELD_X_OFFSET.c_str(),
PartAddition::FIELD_Y_OFFSET.c_str(),
PartAddition::FIELD_ROTATE.c_str(),
pa.m_JobId.c_str(), pa.m_SourcePart, pa.m_NewPart, pa.m_XOffset, pa.m_YOffset, pa.m_Rotate);
EnterCriticalSection(&m_DbCs);
try {
m_pDB->exec(buffer);
}
catch (SQLite::Exception& e)
{
g_log->TraceError(e.getErrorStr());
}
LeaveCriticalSection(&m_DbCs);
}
void LogDao::DeletePartAddition(string jid, int partid) {
char buffer[1024];
sprintf_s(buffer, sizeof(buffer), "DELETE FROM %s WHERE %s='%s' AND %s=%d",
PartAddition::PART_TABLE_NAME.c_str(),
PartAddition::FIELD_JOB_ID.c_str(), jid.c_str(),
PartAddition::FIELD_NEW_PART.c_str(), partid);
EnterCriticalSection(&m_DbCs);
try {
m_pDB->exec(buffer);
}
catch (SQLite::Exception& e)
{
g_log->TraceError(e.getErrorStr());
}
LeaveCriticalSection(&m_DbCs);
}
void LogDao::UpdatePartAdditionOffset(string jid, int partid, float x, float y, float rotate)
{
char buffer[1024];
sprintf_s(buffer, sizeof(buffer), "UPDATE %s SET %s=%.2f,%s=%.2f,%s=%.2f WHERE %s='%s' AND %s=%d",
PartAddition::PART_TABLE_NAME.c_str(),
PartAddition::FIELD_X_OFFSET.c_str(), x,
PartAddition::FIELD_Y_OFFSET.c_str(), y,
PartAddition::FIELD_ROTATE.c_str(), rotate,
PartAddition::FIELD_JOB_ID.c_str(), jid.c_str(),
PartAddition::FIELD_NEW_PART.c_str(), partid);
EnterCriticalSection(&m_DbCs);
try {
m_pDB->exec(buffer);
}
catch (SQLite::Exception& e)
{
g_log->TraceError(e.getErrorStr());
}
LeaveCriticalSection(&m_DbCs);
}
void LogDao::FindPartAddition(string jid, vector<PartAddition*>& vec)
{
char buffer[1024];
sprintf_s(buffer, sizeof(buffer), "SELECT * FROM %s WHERE %s='%s'",
PartAddition::PART_TABLE_NAME.c_str(),
PartAddition::FIELD_JOB_ID.c_str(), jid.c_str());
EnterCriticalSection(&m_DbCs);
try
{
SQLite::Statement query(*m_pDB, buffer);
while (query.executeStep()) {
PartAddition* pa = new PartAddition();
pa->m_Id = query.getColumn(PartAddition::FIELD_ID.c_str()).getInt();
pa->m_JobId = query.getColumn(PartAddition::FIELD_JOB_ID.c_str()).getString();
pa->m_SourcePart = query.getColumn(PartAddition::FIELD_SOURCE_PART.c_str()).getInt();
pa->m_NewPart = query.getColumn(PartAddition::FIELD_NEW_PART.c_str()).getInt();
pa->m_XOffset = (float)(query.getColumn(PartAddition::FIELD_X_OFFSET.c_str()).getDouble());
pa->m_YOffset = (float)(query.getColumn(PartAddition::FIELD_Y_OFFSET.c_str()).getDouble());
pa->m_Rotate = (float)(query.getColumn(PartAddition::FIELD_ROTATE.c_str()).getDouble());
vec.push_back(pa);
}
}
catch (SQLite::Exception &e)
{
g_log->TraceError(e.getErrorStr());
}
LeaveCriticalSection(&m_DbCs);
}
void LogDao::AddAxisLog(AxisLog* axisLog)
{
if (!axisLog)return;
// if (axisLog->m_MoldDataCount == 0 && axisLog->m_PowderDataCount == 0 && axisLog->m_ArmDataCount == 0 && axisLog->m_SupplyDataCount == 0)return;
char buffer[1024];
sprintf_s(buffer, sizeof(buffer), "INSERT INTO %s(%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s) VALUES(%lld,%u,%d,%f,%f,%f,%f,%f,%f,%f,%f,%f,%f,%u,%u,%u,%u,?,?,?,?)",
AxisLog::AL_TABLE_NAME.c_str(),
AxisLog::AL_FIELD_JOB_ID.c_str(),
AxisLog::AL_FIELD_LAYER_INDEX.c_str(),
AxisLog::AL_FIELD_COVER_TYPE.c_str(),
AxisLog::AL_FIELD_PRE_MOLD_POS.c_str(),
AxisLog::AL_FIELD_PRE_LINEAR_ENCODER_POS.c_str(),
AxisLog::AL_FIELD_PRE_LOAD_POS.c_str(),
AxisLog::AL_FIELD_PRE_ARM_POS.c_str(),
AxisLog::AL_FIELD_PRE_SUPPLY_POS.c_str(),
AxisLog::AL_FIELD_AFT_MOLD_POS.c_str(),
AxisLog::AL_FIELD_AFT_LINEAR_ENCODER_POS.c_str(),
AxisLog::AL_FIELD_AFT_LOAD_POS.c_str(),
AxisLog::AL_FIELD_AFT_ARM_POS.c_str(),
AxisLog::AL_FIELD_AFT_SUPPLY_POS.c_str(),
AxisLog::AL_FIELD_MOLD_DATA_COUNT.c_str(),
AxisLog::AL_FIELD_LOAD_DATA_COUNT.c_str(),
AxisLog::AL_FIELD_ARM_DATA_COUNT.c_str(),
AxisLog::AL_FIELD_SUPPLY_DATA_COUNT.c_str(),
AxisLog::AL_FIELD_MOLD_DATA.c_str(),
AxisLog::AL_FIELD_LOAD_DATA.c_str(),
AxisLog::AL_FIELD_ARM_DATA.c_str(),
AxisLog::AL_FIELD_SUPPLY_DATA.c_str(),
axisLog->m_JobId, axisLog->m_LayerIndex, axisLog->m_CoverType,
axisLog->m_PreMoldPos, axisLog->m_PreLinearEncoderPos,axisLog->m_PreLoadPos, axisLog->m_PreArmPos, axisLog->m_PreSupplyPos,
axisLog->m_AftMoldPos, axisLog->m_AftLinearEncoderPos, axisLog->m_AftLoadPos, axisLog->m_AftArmPos, axisLog->m_AftSupplyPos,
axisLog->m_MoldDataCount, axisLog->m_LoadDataCount, axisLog->m_ArmDataCount, axisLog->m_SupplyDataCount);
EnterCriticalSection(&m_DbCs);
try
{
SQLite::Statement query(*m_pDB, buffer);
if (axisLog->m_MoldDataCount > 0)query.bind(1, axisLog->m_MoldData, axisLog->m_MoldDataCount * sizeof(float));
else query.bind(1);
if (axisLog->m_LoadDataCount > 0)query.bind(2, axisLog->m_LoadData, axisLog->m_LoadDataCount * sizeof(float));
else query.bind(2);
if (axisLog->m_ArmDataCount > 0) query.bind(3, axisLog->m_ArmData, axisLog->m_ArmDataCount * sizeof(float));
else query.bind(3);
if (axisLog->m_SupplyDataCount > 0) query.bind(4, axisLog->m_SupplyData, axisLog->m_SupplyDataCount * sizeof(float));
else query.bind(4);
query.exec();
}
catch (SQLite::Exception &e)
{
g_log->TraceError(e.getErrorStr());
}
LeaveCriticalSection(&m_DbCs);
}
void LogDao::FindAxisLogInfo(bool isRemote)
{
if (m_CurrentShowJob == NULL)return;
if (m_DBMap.find(m_CurrentShowJob->m_YearBelong) == m_DBMap.end())return;
SQLite::Database* db = m_DBMap[m_CurrentShowJob->m_YearBelong];
EnterCriticalSection(&m_AxisLogCs);
for (size_t i = 0; i < m_AxisLogs.size(); i++)
{
delete m_AxisLogs[i];
m_AxisLogs[i] = NULL;
}
m_AxisLogs.clear();
LeaveCriticalSection(&m_AxisLogCs);
char buffer[1024];
sprintf_s(buffer, sizeof(buffer), "SELECT %s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s FROM %s WHERE %s=%d ",
AxisLog::AL_FIELD_ID.c_str(),
AxisLog::AL_FIELD_JOB_ID.c_str(),
AxisLog::AL_FIELD_LAYER_INDEX.c_str(),
AxisLog::AL_FIELD_COVER_TYPE.c_str(),
AxisLog::AL_FIELD_PRE_MOLD_POS.c_str(),
AxisLog::AL_FIELD_PRE_LINEAR_ENCODER_POS.c_str(),
AxisLog::AL_FIELD_PRE_LOAD_POS.c_str(),
AxisLog::AL_FIELD_PRE_ARM_POS.c_str(),
AxisLog::AL_FIELD_PRE_SUPPLY_POS.c_str(),
AxisLog::AL_FIELD_AFT_MOLD_POS.c_str(),
AxisLog::AL_FIELD_AFT_LINEAR_ENCODER_POS.c_str(),
AxisLog::AL_FIELD_AFT_LOAD_POS.c_str(),
AxisLog::AL_FIELD_AFT_ARM_POS.c_str(),
AxisLog::AL_FIELD_AFT_SUPPLY_POS.c_str(),
AxisLog::AL_FIELD_MOLD_DATA_COUNT.c_str(),
AxisLog::AL_FIELD_LOAD_DATA_COUNT.c_str(),
AxisLog::AL_FIELD_ARM_DATA_COUNT.c_str(),
AxisLog::AL_FIELD_SUPPLY_DATA_COUNT.c_str(),
AxisLog::AL_TABLE_NAME.c_str(),
AxisLog::AL_FIELD_JOB_ID.c_str(), m_CurrentShowJob->m_Id);
EnterCriticalSection(&m_DbCs);
try
{
SQLite::Statement query(*db, buffer);
while (query.executeStep()) {
AxisLog* lc = new AxisLog();
lc->m_Id = query.getColumn(AxisLog::AL_FIELD_ID.c_str()).getInt64();
lc->m_JobId = query.getColumn(AxisLog::AL_FIELD_JOB_ID.c_str()).getInt64();
lc->m_LayerIndex = query.getColumn(AxisLog::AL_FIELD_LAYER_INDEX.c_str()).getUInt();
lc->m_CoverType = query.getColumn(AxisLog::AL_FIELD_COVER_TYPE.c_str()).getInt();
lc->m_PreMoldPos = query.getColumn(AxisLog::AL_FIELD_PRE_MOLD_POS.c_str()).getDouble();
lc->m_PreLinearEncoderPos = query.getColumn(AxisLog::AL_FIELD_PRE_LINEAR_ENCODER_POS.c_str()).getDouble();
lc->m_PreLoadPos = query.getColumn(AxisLog::AL_FIELD_PRE_LOAD_POS.c_str()).getDouble();
lc->m_PreArmPos = query.getColumn(AxisLog::AL_FIELD_PRE_ARM_POS.c_str()).getDouble();
lc->m_PreSupplyPos = query.getColumn(AxisLog::AL_FIELD_PRE_SUPPLY_POS.c_str()).getDouble();
lc->m_AftMoldPos = query.getColumn(AxisLog::AL_FIELD_AFT_MOLD_POS.c_str()).getDouble();
lc->m_AftLinearEncoderPos = query.getColumn(AxisLog::AL_FIELD_AFT_LINEAR_ENCODER_POS.c_str()).getDouble();
lc->m_AftLoadPos = query.getColumn(AxisLog::AL_FIELD_AFT_LOAD_POS.c_str()).getDouble();
lc->m_AftArmPos = query.getColumn(AxisLog::AL_FIELD_AFT_ARM_POS.c_str()).getDouble();
lc->m_AftSupplyPos = query.getColumn(AxisLog::AL_FIELD_AFT_SUPPLY_POS.c_str()).getDouble();
lc->m_MoldDataCount = query.getColumn(AxisLog::AL_FIELD_MOLD_DATA_COUNT.c_str()).getUInt();
lc->m_LoadDataCount = query.getColumn(AxisLog::AL_FIELD_LOAD_DATA_COUNT.c_str()).getUInt();
lc->m_ArmDataCount = query.getColumn(AxisLog::AL_FIELD_ARM_DATA_COUNT.c_str()).getUInt();
lc->m_SupplyDataCount = query.getColumn(AxisLog::AL_FIELD_SUPPLY_DATA_COUNT.c_str()).getUInt();
EnterCriticalSection(&m_AxisLogCs);
m_AxisLogs.push_back(lc);
LeaveCriticalSection(&m_AxisLogCs);
}
}
catch (SQLite::Exception &e)
{
g_log->TraceError(e.getErrorStr());
}
LeaveCriticalSection(&m_DbCs);
}
void LogDao::FindAxisLogData(AxisLog* axisLog, bool isRemote)
{
if (!axisLog)return;
if (m_CurrentShowJob == NULL)return;
if (m_DBMap.find(m_CurrentShowJob->m_YearBelong) == m_DBMap.end())return;
SQLite::Database* db = m_DBMap[m_CurrentShowJob->m_YearBelong];
char buffer[1024];
sprintf_s(buffer, sizeof(buffer), "SELECT %s,%s,%s,%s FROM %s WHERE %s=%lld ",
AxisLog::AL_FIELD_MOLD_DATA.c_str(),
AxisLog::AL_FIELD_LOAD_DATA.c_str(),
AxisLog::AL_FIELD_ARM_DATA.c_str(),
AxisLog::AL_FIELD_SUPPLY_DATA.c_str(),
AxisLog::AL_TABLE_NAME.c_str(),
AxisLog::AL_FIELD_ID.c_str(), axisLog->m_Id);
EnterCriticalSection(&m_DbCs);
try {
SQLite::Statement query(*db, buffer);
if (query.executeStep()) {
int moldBytes = query.getColumn(AxisLog::AL_FIELD_MOLD_DATA.c_str()).getBytes();
int loadBytes = query.getColumn(AxisLog::AL_FIELD_LOAD_DATA.c_str()).getBytes();
int armBytes = query.getColumn(AxisLog::AL_FIELD_ARM_DATA.c_str()).getBytes();
int supplyBytes = query.getColumn(AxisLog::AL_FIELD_SUPPLY_DATA.c_str()).getBytes();
if (moldBytes >= sizeof(float)) {
float* pdata = (float*)query.getColumn(AxisLog::AL_FIELD_MOLD_DATA.c_str()).getBlob();
int datasize = moldBytes / 4;
axisLog->m_MoldDataCount = datasize;
if (axisLog->m_MoldData) {
delete[] axisLog->m_MoldData;
axisLog->m_MoldData = NULL;
}
axisLog->m_MoldData = new float[datasize];
for (int j = 0; j < datasize; j++) {
axisLog->m_MoldData[j] = pdata[j];
}
}
else {
if (axisLog->m_MoldData) {
delete[]axisLog->m_MoldData;
axisLog->m_MoldData = NULL;
}
axisLog->m_MoldDataCount = 0;
}
if (loadBytes >= sizeof(float)) {
float* pdata = (float*)query.getColumn(AxisLog::AL_FIELD_LOAD_DATA.c_str()).getBlob();
int datasize = loadBytes / 4;
axisLog->m_LoadDataCount = datasize;
if (axisLog->m_LoadData) {
delete[] axisLog->m_LoadData;
axisLog->m_LoadData = NULL;
}
axisLog->m_LoadData = new float[datasize];
for (int j = 0; j < datasize; j++) {
axisLog->m_LoadData[j] = pdata[j];
}
}
else {
if (axisLog->m_LoadData) {
delete[]axisLog->m_LoadData;
axisLog->m_LoadData = NULL;
}
axisLog->m_LoadDataCount = 0;
}
if (armBytes >= sizeof(float)) {
float* pdata = (float*)query.getColumn(AxisLog::AL_FIELD_ARM_DATA.c_str()).getBlob();
int datasize = armBytes / 4;
axisLog->m_ArmDataCount = datasize;
if (axisLog->m_ArmData) {
delete[] axisLog->m_ArmData;
axisLog->m_ArmData = NULL;
}
axisLog->m_ArmData = new float[datasize];
for (int j = 0; j < datasize; j++) {
axisLog->m_ArmData[j] = pdata[j];
}
}
else {
if (axisLog->m_ArmData) {
delete[]axisLog->m_ArmData;
axisLog->m_ArmData = NULL;
}
axisLog->m_ArmDataCount = 0;
}
if (supplyBytes >= sizeof(float)) {
float* pdata = (float*)query.getColumn(AxisLog::AL_FIELD_SUPPLY_DATA.c_str()).getBlob();
int datasize = supplyBytes / 4;
axisLog->m_SupplyDataCount = datasize;
if (axisLog->m_SupplyData) {
delete[] axisLog->m_SupplyData;
axisLog->m_SupplyData = NULL;
}
axisLog->m_SupplyData = new float[datasize];
for (int j = 0; j < datasize; j++) {
axisLog->m_SupplyData[j] = pdata[j];
}
}
else {
if (axisLog->m_SupplyData) {
delete[]axisLog->m_SupplyData;
axisLog->m_SupplyData = NULL;
}
axisLog->m_SupplyDataCount = 0;
}
}
}
catch (SQLite::Exception &e)
{
g_log->TraceError(e.getErrorStr());
}
LeaveCriticalSection(&m_DbCs);
}
//void LogDao::StartExport(string path, LogAssist& assist)
//{
// if (m_ExportThread != INVALID_HANDLE_VALUE)return;
// m_ExportPath = path;
// m_ExportFlag = true;
// m_IsExportData = assist.isExportData;
// m_IsExportAxisData = assist.isExportAxisData;
// m_IsExportImage = assist.isExportImage;
// m_IsExportScanData = assist.isExportScanData;
// m_ExportThread = AtlCreateThread(ExportProc, this);
//}
void LogDao::StopExport()
{
m_ExportFlag = false;
if (m_ExportThread != INVALID_HANDLE_VALUE) {
if (WaitForSingleObject(m_ExportThread, 1000) == WAIT_TIMEOUT) {
TerminateThread(m_ExportThread, 1);
}
CloseHandle(m_ExportThread);
m_ExportThread = INVALID_HANDLE_VALUE;
}
}
bool LogDao::IsExportFinished()
{
return !m_ExportFlag;
}
DWORD WINAPI LogDao::ExportProc(LogDao* _this)
{
if (_this) {
//_this->ExportRun();
_this->m_ExportFlag = false;
CloseHandle(_this->m_ExportThread);
_this->m_ExportThread = INVALID_HANDLE_VALUE;
}
return 0;
}
//void LogDao::ExportRun()
//{
// m_ExportInfo = _(u8"正在生成目录").c_str();
// if (0 != _access(m_ExportPath.c_str(), 0)) {
// _mkdir(m_ExportPath.c_str());
// }
// string imagePath = m_ExportPath + "/images";
// _mkdir(imagePath.c_str());
// char buffer[2048];
// if (m_IsExportData) {
// m_ExportProgress = 0;
// m_ExportInfo = _(u8"正在导出数据").c_str();
// string file = m_ExportPath + "/envdata.csv";
// ofstream ofs(file, ios::trunc);
// if (ofs.is_open()) {
//
// sprintf_s(buffer, sizeof(buffer),"%s\n", _(u8"日期时间,耗时(s),层位置,氧含量1(PPM),氧含量2(PPM),环境氧含量(PPM),舱内温度1(℃),舱内温度1(℃),湿度1(%%),湿度2(%%),舱内压力(kPa),风机频率(Hz),基板温度(℃),风速,激光水温(℃),净化水温(℃)").c_str());
// ofs << StringHelper::Utf8ToAscii(buffer);
// EnterCriticalSection(&m_StatusCs);
// for (size_t i = 0; i < m_LayerStatus.size(); ++i) {
// if (!m_ExportFlag)break;
// LayerStatus* ls = m_LayerStatus[i];
// sprintf_s(buffer, sizeof(buffer), "%s,%u,%d,%.3f,%.2f,%.2f,%.2f,%.2f,%.2f,%.2f,%.2f,%.2f,%.2f,%.2f,%.2f,%.2f,%.2f\n",
// TimeHelper::Time2Str(ls->m_InsertTitme).c_str(),
// ls->m_SpendSecond,
// ls->m_LayerIndex + 1, ls->m_PrintOxygen1, ls->m_PrintOxygen2, ls->m_OutsideOxygen,ls->m_PrintTemp1,ls->m_PrintTemp2,
// ls->m_PrintHumidity1,ls->m_PrintHumidity2,ls->m_PrintPressure,ls->m_FanFrequency,ls->m_PlateTemp,ls->m_WindRate,ls->m_LaserWaterTemp,ls->m_ScannerWaterTemp,
// ls->m_PurifierWaterTemp);
// ofs << buffer;
// m_ExportProgress = (float)(i + 1) / m_LayerStatus.size();
// }
// LeaveCriticalSection(&m_StatusCs);
// ofs.flush();
// }
// ofs.close();
// }
// if (m_IsExportAxisData) {
// m_ExportProgress = 0;
// m_ExportInfo = _(u8"正在导出数据").c_str();
// string file = m_ExportPath + "/axisdata.csv";
// ofstream ofs(file, ios::trunc);
// if (ofs.is_open()) {
//
// sprintf_s(buffer,sizeof(buffer),"%s\n",_(u8"层位置,铺粉方式,铺前成型缸位置mm,铺后成型缸位置mm,铺前层光栅位置mm,铺后层光栅位置mm,铺前铺粉臂位置mm,铺后铺粉臂位置mm, 铺前供粉位置mm,铺后供粉位置mm ").c_str());
// //sprintf_s(buffer, sizeof(buffer), g_LngManager->SLog_ExportAxisDataContentHeader->ShowText());
// ofs << StringHelper::Utf8ToAscii(buffer);
// EnterCriticalSection(&m_AxisLogCs);
// for (size_t i = 0; i < m_AxisLogs.size(); ++i) {
// if (!m_ExportFlag)break;
// AxisLog* ls = m_AxisLogs[i];
// string coverTypetemp = _(u8"未知");
// if (ls->m_CoverType == CoverCfg::TWO_WAY1) {
// coverTypetemp = _("双向铺粉1");
// }
// else if (ls->m_CoverType == CoverCfg::ONE_WAY) {
// coverTypetemp = _("单向铺粉");
// }
// else if (ls->m_CoverType == CoverCfg::NO_COVER) {
// coverTypetemp = _("不铺粉");
// }
// else if (ls->m_CoverType == CoverCfg::TWO_WAY2) {
// coverTypetemp = _("双向铺粉2");
// }
// else if (ls->m_CoverType == CoverCfg::ONE_WAY2) {
// coverTypetemp = _("单向铺粉2");
// }
// string coverType = StringHelper::Utf8ToAscii(coverTypetemp);
// sprintf_s(buffer, sizeof(buffer), "%u,%s,%.3f,%.3f,%.3f,%.3f,%.3f,%.3f,%.3f,%.3f\n",
// ls->m_LayerIndex + 1, coverType.c_str(), ls->m_PreMoldPos, ls->m_AftMoldPos,
// ls->m_PreLinearEncoderPos,ls->m_AftLinearEncoderPos, ls->m_PreArmPos, ls->m_AftArmPos, ls->m_PreSupplyPos, ls->m_AftSupplyPos);
// ofs << buffer;
// m_ExportProgress = (float)(i + 1) / m_AxisLogs.size();
// }
// LeaveCriticalSection(&m_AxisLogCs);
// ofs.flush();
// }
// ofs.close();
// }
// if (m_IsExportScanData) {
// m_ExportProgress = 0;
// m_ExportInfo = _(u8"正在导出数据").c_str();
// string file = m_ExportPath + "/scannerdata.csv";
// ofstream ofs(file, ios::trunc);
// if (ofs.is_open()) {
// sprintf_s(buffer, sizeof(buffer),"%s\n", _(u8"日期时间,层位置,振镜号,振镜X温度,振镜Y温度,板卡X温度,板卡Y温度,X轴真实位置,X轴设值位置,X轴位置误差,Y轴真实位置,Y轴设值位置,Y轴位置误差,X轴位置误差正常,Y轴位置误差正常,X轴发生严重错误,Y轴发生严重错误,X轴扫描系统超温,Y轴扫描系统超温,X轴振镜到达临界边缘位置,Y轴振镜到达临界边缘位置,X轴伺服板卡操作温度正常,Y轴伺服板卡操作温度正常,X轴振镜操作温度正常,Y轴振镜操作温度正常").c_str());
// ofs << StringHelper::Utf8ToAscii(buffer);
// EnterCriticalSection(&m_ScannerStatusCS);
// for (size_t i = 0; i < m_ScannerStatus.size(); ++i) {
// if (!m_ExportFlag)break;
// ScannerStatus* ls = m_ScannerStatus[i];
// bool IsPositionErrorNormalRangeX = (ls->m_LowStateX & 0x10000) ? true : false;
// bool IsPositionErrorNormalRangeY = (ls->m_LowStateY & 0x10000) ? true : false;
// bool IsCriticalErrorX = (ls->m_LowStateX & 0x2000) ? false : true;
// bool IsCriticalErrorY = (ls->m_LowStateY & 0x2000) ? false : true;
// bool IsScanSystemTempOverLimitX = (ls->m_LowStateX & 0x800) ? false : true;
// bool IsScanSystemTempOverLimitY = (ls->m_LowStateY & 0x800) ? false : true;
// bool IsScannerReachedCriticalEdgePosX = (ls->m_LowStateX & 0x200) ? false : true;
// bool IsScannerReachedCriticalEdgePosY = (ls->m_LowStateY & 0x200) ? false : true;
// bool IsServoBoradOperationTempNormalX = (ls->m_HighStateX & 0x4000) ? true : false;
// bool IsServoBoradOperationTempNormalY = (ls->m_HighStateY & 0x4000) ? true : false;
// bool IsGalvanometerScannerOperationTempNormalX = (ls->m_HighStateX & 0x2000) ? true : false;
// bool IsGalvanometerScannerOperationTempNormalY = (ls->m_HighStateY & 0x2000) ? true : false;
// sprintf_s(buffer, sizeof(buffer), "%s,%d,%d,%.3f,%.3f,%.3f,%.3f,%.2f,%.2f,%.2f,%.2f,%.2f,%.2f,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s\n",
// TimeHelper::Time2Str(ls->m_InsertTime).c_str(), ls->m_LayerIndex + 1, ls->m_ScanId, ls->m_ScanTempX, ls->m_ScanTempY, ls->m_ScanServoTempX, ls->m_ScanServoTempY,
// ls->m_ActualPositionX, ls->m_SetPositionX, ls->m_PositionErrorX, ls->m_ActualPositionY, ls->m_SetPositionY, ls->m_PositionErrorY, IsPositionErrorNormalRangeX ? _(u8"是").c_str() : _(u8"否").c_str(),
// IsPositionErrorNormalRangeY ? _(u8"是").c_str() : _(u8"否").c_str(), IsCriticalErrorX ? _(u8"是").c_str() : _(u8"否").c_str(), IsCriticalErrorY ? _(u8"是").c_str() : _(u8"否").c_str(), IsScanSystemTempOverLimitX ? _(u8"是").c_str() : _(u8"否").c_str(),
// IsScanSystemTempOverLimitY ? _(u8"是").c_str() : _(u8"否").c_str(), IsScannerReachedCriticalEdgePosX ? _(u8"是").c_str() : _(u8"否").c_str(), IsScannerReachedCriticalEdgePosY ? _(u8"是").c_str() : _(u8"否").c_str(), IsServoBoradOperationTempNormalX ? _(u8"是").c_str() : _(u8"否").c_str(),
// IsServoBoradOperationTempNormalY ? _(u8"是").c_str() : _(u8"否").c_str(), IsGalvanometerScannerOperationTempNormalX ? _(u8"是").c_str() : _(u8"否").c_str(), IsGalvanometerScannerOperationTempNormalY ? _(u8"是").c_str() : _(u8"否").c_str());
// ofs << StringHelper::Utf8ToAscii(buffer);
// m_ExportProgress = (float)(i + 1) / m_ScannerStatus.size();
// }
// LeaveCriticalSection(&m_ScannerStatusCS);
// ofs.flush();
// }
// ofs.close();
// }
//
// if (m_IsExportImage) {
// m_ExportProgress = 0;
// m_ExportInfo = _(u8"正在导出图像").c_str();
// tjhandle tjinstance = tjInitTransform();
// //Gdiplus::GdiplusStartupInput gdiplusStartupInput;
// //ULONG_PTR pGdiToken;
// //Gdiplus::GdiplusStartup(&pGdiToken, &gdiplusStartupInput, NULL);
// EnterCriticalSection(&m_LogImageCs);
// for (size_t i = 0; i < m_LogImages.size(); ++i) {
// if (!m_ExportFlag)break;
// LogImage* logImage = m_LogImages[i];
// unsigned char *image = NULL;
// unsigned long image_size = 0;
// //int width, height;
// if (g_log->m_LogDao->FindImage(logImage->m_Id, &image, &image_size)) {
//
// unsigned long change_size = 0;
// unsigned char *changeImage = NULL;
// tjtransform transform;
// memset(&transform, 0, sizeof(tjtransform));
// transform.op = TJXOP_VFLIP;
// transform.options |= TJXOPT_TRIM;
//
// int rel = tjTransform(tjinstance, image, image_size, 1, &changeImage, &change_size, &transform, 0);
// if (rel == 0) {
// sprintf_s(buffer, sizeof(buffer), "%s/%d_%d.jpeg", imagePath.c_str(), logImage->m_LayerIndex + 1, logImage->m_Type);
// FILE* jpegFile = fopen(buffer, "wb");
// if (jpegFile != NULL) {
// fwrite(changeImage, change_size, 1, jpegFile);
// }
// fclose(jpegFile);
// }
// tjFree(changeImage);
// m_ExportProgress = (float)(i + 1) / m_LogImages.size();
// }
// if (image != NULL)delete[] image;
// }
// LeaveCriticalSection(&m_LogImageCs);
// }
//
//}
void LogDao::LogScannerStatus(vector<ScannerStatus*>& scannerStatus)
{
char buffer[1024];
EnterCriticalSection(&m_DbCs);
try {
SQLite::Transaction transaction(*m_pDB);
for (size_t i = 0; i < scannerStatus.size(); i++) {
ScannerStatus* ss = scannerStatus[i];
sprintf_s(buffer, sizeof(buffer), "INSERT INTO %s(%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s) VALUES(%d,%lld,%d,%u,%.2f,%.2f,%.2f,%.2f,%.2f,%.2f,%.2f,%.2f,%.2f,%.2f,%d,%d,%d,%d);",
ScannerStatus::SCAN_TABLE_NAME.c_str(),
ScannerStatus::SCAN_FIELD_SCAN_ID.c_str(),
ScannerStatus::SCAN_FIELD_INSERT_TIME.c_str(),
ScannerStatus::SCAN_FIELD_JOB_ID.c_str(),
ScannerStatus::SCAN_FIELD_LAYER_INDEX.c_str(),
ScannerStatus::SCAN_FIELD_SCAN_TEMP_X.c_str(),
ScannerStatus::SCAN_FIELD_SCAN_TEMP_Y.c_str(),
ScannerStatus::SCAN_FIELD_SERVO_TEMP_X.c_str(),
ScannerStatus::SCAN_FIELD_SERVO_TEMP_Y.c_str(),
ScannerStatus::SCAN_FIELD_ACTUAL_POSITION_X.c_str(),
ScannerStatus::SCAN_FIELD_SET_POSITION_X.c_str(),
ScannerStatus::SCAN_FIELD_POSITION_ERROR_X.c_str(),
ScannerStatus::SCAN_FIELD_ACTUAL_POSITION_Y.c_str(),
ScannerStatus::SCAN_FIELD_SET_POSITION_Y.c_str(),
ScannerStatus::SCAN_FIELD_POSITION_ERROR_Y.c_str(),
ScannerStatus::SCAN_FIELD_LOW_STATE_X.c_str(),
ScannerStatus::SCAN_FIELD_LOW_STATE_Y.c_str(),
ScannerStatus::SCAN_FIELD_HIGH_STATE_X.c_str(),
ScannerStatus::SCAN_FIELD_HIGH_STATE_Y.c_str(),
ss->m_ScanId, ss->m_InsertTime, ss->m_JobId, ss->m_LayerIndex, ss->m_ScanTempX, ss->m_ScanTempY, ss->m_ScanServoTempX, ss->m_ScanServoTempY,
ss->m_ActualPositionX, ss->m_SetPositionX, ss->m_PositionErrorX, ss->m_ActualPositionY, ss->m_SetPositionY, ss->m_PositionErrorY,
ss->m_LowStateX, ss->m_LowStateY, ss->m_HighStateX, ss->m_HighStateY);
m_pDB->exec(buffer);
//OutputDebugString(buffer);
//OutputDebugString("\n");
}
transaction.commit();
}
catch (SQLite::Exception &e)
{
g_log->TraceError(e.getErrorStr());
}
LeaveCriticalSection(&m_DbCs);
}
void LogDao::FindScanState()
{
if (m_CurrentShowJob == NULL)
return;
if (m_DBMap.find(m_CurrentShowJob->m_YearBelong) == m_DBMap.end())
return;
SQLite::Database* db = m_DBMap[m_CurrentShowJob->m_YearBelong];
// char sql[1024];
EnterCriticalSection(&m_ScannerStatusCS);
for (size_t i = 0; i < m_ScannerStatus.size(); ++i) {
delete m_ScannerStatus[i];
m_ScannerStatus[i] = NULL;
}
m_ScannerStatus.clear();
LeaveCriticalSection(&m_ScannerStatusCS);
char buffer[1024];
sprintf_s(buffer, sizeof(buffer), "SELECT * FROM %s WHERE %s=%d ",
ScannerStatus::SCAN_TABLE_NAME.c_str(),
ScannerStatus::SCAN_FIELD_JOB_ID.c_str(), m_CurrentShowJob->m_Id);
EnterCriticalSection(&m_DbCs);
try {
SQLite::Statement query(*db, buffer);
while (query.executeStep()) {
ScannerStatus* ss = new ScannerStatus();
ss->m_ScanId = query.getColumn(ScannerStatus::SCAN_FIELD_SCAN_ID.c_str()).getInt();
ss->m_InsertTime = query.getColumn(ScannerStatus::SCAN_FIELD_INSERT_TIME.c_str()).getInt64();
ss->m_JobId = query.getColumn(ScannerStatus::SCAN_FIELD_JOB_ID.c_str()).getInt();
ss->m_LayerIndex = query.getColumn(ScannerStatus::SCAN_FIELD_LAYER_INDEX.c_str()).getUInt();
ss->m_ScanTempX = query.getColumn(ScannerStatus::SCAN_FIELD_SCAN_TEMP_X.c_str()).getDouble();
ss->m_ScanTempY = query.getColumn(ScannerStatus::SCAN_FIELD_SCAN_TEMP_Y.c_str()).getDouble();
ss->m_ScanServoTempX = query.getColumn(ScannerStatus::SCAN_FIELD_SERVO_TEMP_X.c_str()).getDouble();
ss->m_ScanServoTempY = query.getColumn(ScannerStatus::SCAN_FIELD_SERVO_TEMP_Y.c_str()).getDouble();
ss->m_ActualPositionX = query.getColumn(ScannerStatus::SCAN_FIELD_ACTUAL_POSITION_X.c_str()).getDouble();
ss->m_SetPositionX = query.getColumn(ScannerStatus::SCAN_FIELD_SET_POSITION_X.c_str()).getDouble();
ss->m_PositionErrorX = query.getColumn(ScannerStatus::SCAN_FIELD_POSITION_ERROR_X.c_str()).getDouble();
ss->m_ActualPositionY = query.getColumn(ScannerStatus::SCAN_FIELD_ACTUAL_POSITION_Y.c_str()).getDouble();
ss->m_SetPositionY = query.getColumn(ScannerStatus::SCAN_FIELD_SET_POSITION_Y.c_str()).getDouble();
ss->m_PositionErrorY = query.getColumn(ScannerStatus::SCAN_FIELD_POSITION_ERROR_Y.c_str()).getDouble();
ss->m_LowStateX = query.getColumn(ScannerStatus::SCAN_FIELD_LOW_STATE_X.c_str()).getInt();
ss->m_LowStateY = query.getColumn(ScannerStatus::SCAN_FIELD_LOW_STATE_Y.c_str()).getInt();
ss->m_HighStateX = query.getColumn(ScannerStatus::SCAN_FIELD_HIGH_STATE_X.c_str()).getInt();
ss->m_HighStateY = query.getColumn(ScannerStatus::SCAN_FIELD_HIGH_STATE_Y.c_str()).getInt();
EnterCriticalSection(&m_ScannerStatusCS);
m_ScannerStatus.push_back(ss);
LeaveCriticalSection(&m_ScannerStatusCS);
}
}
catch (SQLite::Exception &e)
{
g_log->TraceError(e.getErrorStr());
}
LeaveCriticalSection(&m_DbCs);
}
void LogDao::LogFocusStatus(vector<FocusStatus*>& focusStatus)
{
if (focusStatus.empty())return;
char buffer[2048];
EnterCriticalSection(&m_DbCs);
try {
SQLite::Transaction transaction(*m_pDB);
for (size_t i = 0; i < focusStatus.size(); i++) {
FocusStatus* ss = focusStatus[i];
sprintf_s(buffer, sizeof(buffer), "INSERT INTO %s(%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s) VALUES(%d,%lld,%d,%u,%.2f,%.2f,%.2f,%.2f,%.2f,%.2f,%.2f,%d,%d,%d);",
FocusStatus::TABLE_NAME.c_str(),
FocusStatus::FIELD_SCAN_ID.c_str(),
FocusStatus::FIELD_INSERT_TIME.c_str(),
FocusStatus::FIELD_JOB_ID.c_str(),
FocusStatus::FIELD_LAYER_INDEX.c_str(),
FocusStatus::FIELD_SCAN_SERVO_TEMP.c_str(),
FocusStatus::FIELD_PD_SUPPLY_VOLTAGE.c_str(),
FocusStatus::FIELD_DSP_CORE_SUPPLY_VOLTAGE.c_str(),
FocusStatus::FIELD_DSP_IO_VOLTAGE.c_str(),
FocusStatus::FIELD_ANALOG_SECTION_VOLTAGE.c_str(),
FocusStatus::FIELD_AD_CONVERTER_SUPPLY_VOLTAGE.c_str(),
FocusStatus::FIELD_PD_SUPPLY_CURRENT.c_str(),
FocusStatus::FIELD_LOW_STATE.c_str(),
FocusStatus::FIELD_HIGH_STATE.c_str(),
FocusStatus::FIELD_STOP_ENEN.c_str(),
ss->m_ScanId, ss->m_InsertTime, ss->m_JobId, ss->m_LayerIndex, ss->m_ScanServoTemp, ss->m_PDSupplyVoltage,
ss->m_DSPCoreSupplyVoltage, ss->m_DSPIOVoltage, ss->m_AnalogSectionVoltage, ss->m_ADConverterSupplyVoltage,
ss->m_PDSupplyCurrent, ss->m_LowState, ss->m_HighState, ss->m_StopEven);
m_pDB->exec(buffer);
}
transaction.commit();
}
catch (SQLite::Exception &e)
{
g_log->TraceError(e.getErrorStr());
}
LeaveCriticalSection(&m_DbCs);
}
void LogDao::FindFocusState()
{
if (m_CurrentShowJob == NULL)
return;
if (m_DBMap.find(m_CurrentShowJob->m_YearBelong) == m_DBMap.end())
return;
SQLite::Database* db = m_DBMap[m_CurrentShowJob->m_YearBelong];
// char sql[1024];
EnterCriticalSection(&m_FocusStatusCS);
for (size_t i = 0; i < m_FocusStatus.size(); ++i) {
delete m_FocusStatus[i];
m_FocusStatus[i] = NULL;
}
m_FocusStatus.clear();
LeaveCriticalSection(&m_FocusStatusCS);
char buffer[1024];
sprintf_s(buffer, sizeof(buffer), "SELECT * FROM %s WHERE %s=%d ",
FocusStatus::TABLE_NAME.c_str(),
FocusStatus::FIELD_JOB_ID.c_str(), m_CurrentShowJob->m_Id);
EnterCriticalSection(&m_DbCs);
try {
SQLite::Statement query(*db, buffer);
while (query.executeStep()) {
FocusStatus* ss = new FocusStatus();
ss->m_ScanId = query.getColumn(FocusStatus::FIELD_SCAN_ID.c_str()).getInt();
ss->m_InsertTime = query.getColumn(FocusStatus::FIELD_INSERT_TIME.c_str()).getInt64();
ss->m_JobId = query.getColumn(FocusStatus::FIELD_JOB_ID.c_str()).getInt();
ss->m_LayerIndex = query.getColumn(FocusStatus::FIELD_LAYER_INDEX.c_str()).getUInt();
ss->m_ScanServoTemp = query.getColumn(FocusStatus::FIELD_SCAN_SERVO_TEMP.c_str()).getDouble();
ss->m_PDSupplyVoltage = query.getColumn(FocusStatus::FIELD_PD_SUPPLY_VOLTAGE.c_str()).getDouble();
ss->m_DSPCoreSupplyVoltage = query.getColumn(FocusStatus::FIELD_DSP_CORE_SUPPLY_VOLTAGE.c_str()).getDouble();
ss->m_DSPIOVoltage = query.getColumn(FocusStatus::FIELD_DSP_IO_VOLTAGE.c_str()).getDouble();
ss->m_AnalogSectionVoltage = query.getColumn(FocusStatus::FIELD_ANALOG_SECTION_VOLTAGE.c_str()).getDouble();
ss->m_ADConverterSupplyVoltage = query.getColumn(FocusStatus::FIELD_AD_CONVERTER_SUPPLY_VOLTAGE.c_str()).getDouble();
ss->m_PDSupplyCurrent = query.getColumn(FocusStatus::FIELD_PD_SUPPLY_CURRENT.c_str()).getDouble();
ss->m_LowState = query.getColumn(FocusStatus::FIELD_LOW_STATE.c_str()).getInt();
ss->m_HighState = query.getColumn(FocusStatus::FIELD_HIGH_STATE.c_str()).getInt();
ss->m_StopEven = query.getColumn(FocusStatus::FIELD_STOP_ENEN.c_str()).getInt();
EnterCriticalSection(&m_FocusStatusCS);
m_FocusStatus.push_back(ss);
LeaveCriticalSection(&m_FocusStatusCS);
}
}
catch (SQLite::Exception &e)
{
g_log->TraceError(e.getErrorStr());
}
LeaveCriticalSection(&m_DbCs);
}
void LogDao::SaveScannerPower(ScannerPowerLog* log)
{
if (!log)return;
if (log->m_CurrentDatas.empty() || log->m_VoltageDatas.empty())return;
char buffer[512];
string strsql = "INSERT INTO %s(%s,%s,%s,%s,%s) VALUES(%lld,%d,%d,?,?)";
sprintf_s(buffer, sizeof(buffer), strsql.c_str(), ScannerPowerLog::TABLE_NAME.c_str(), ScannerPowerLog::FIELD_INSERT_TIME.c_str(),
ScannerPowerLog::FIELD_JOB_ID.c_str(), ScannerPowerLog::FIELD_SNO.c_str(),
ScannerPowerLog::FIELD_VOLTAGE_DATA.c_str(), ScannerPowerLog::FIELD_CURRENT_DATA.c_str(), log->m_InsertTime, log->m_JobId, log->m_Sno);
float* vdata = NULL;
float* cdata = NULL;
EnterCriticalSection(&m_DbCs);
try {
SQLite::Statement query(*m_pDB, buffer);
int vsize = log->m_VoltageDatas.size();
int csize = log->m_CurrentDatas.size();
vdata = new float[vsize];
cdata = new float[csize];
for (int i = 0; i < vsize; i++) {
vdata[i] = log->m_VoltageDatas[i];
}
for (int i = 0; i < csize; i++) {
cdata[i] = log->m_CurrentDatas[i];
}
query.bind(1, vdata, vsize * sizeof(float));
query.bind(2, cdata, csize * sizeof(float));
query.exec();
}
catch (SQLite::Exception &e)
{
g_log->TraceError(e.getErrorStr());
}
LeaveCriticalSection(&m_DbCs);
if (vdata) {
delete[]vdata;
vdata = NULL;
}
if (cdata) {
delete[]cdata;
cdata = NULL;
}
}
void LogDao::FindScannerPowerInfo()
{
if (!m_CurrentShowJob)return;
for (size_t i = 0; i < m_ScannerPower.size(); ++i) {
delete m_ScannerPower[i];
m_ScannerPower[i] = NULL;
}
m_ScannerPower.clear();
if (m_DBMap.find(m_CurrentShowJob->m_YearBelong) == m_DBMap.end()) {
return;
}
SQLite::Database* db = m_DBMap[m_CurrentShowJob->m_YearBelong];
char buffer[1024];
sprintf_s(buffer, sizeof(buffer), "SELECT %s,%s,%s,%s FROM %s WHERE %s=%d ",
ScannerPowerLog::FIELD_ID.c_str(),
ScannerPowerLog::FIELD_INSERT_TIME.c_str(),
ScannerPowerLog::FIELD_JOB_ID.c_str(),
ScannerPowerLog::FIELD_SNO.c_str(),
ScannerPowerLog::TABLE_NAME.c_str(),
ScannerPowerLog::FIELD_JOB_ID.c_str(),
m_CurrentShowJob->m_Id);
EnterCriticalSection(&m_DbCs);
try {
SQLite::Statement query(*db, buffer);
while (query.executeStep()) {
ScannerPowerLog* log = new ScannerPowerLog();
log->m_Id = query.getColumn(ScannerPowerLog::FIELD_ID.c_str()).getInt();
log->m_InsertTime = query.getColumn(ScannerPowerLog::FIELD_INSERT_TIME.c_str()).getInt64();
log->m_JobId = query.getColumn(ScannerPowerLog::FIELD_JOB_ID.c_str()).getInt();
log->m_Sno = query.getColumn(ScannerPowerLog::FIELD_SNO.c_str()).getInt();
m_ScannerPower.push_back(log);
}
}
catch (SQLite::Exception &e)
{
g_log->TraceError(e.getErrorStr());
}
LeaveCriticalSection(&m_DbCs);
}
void LogDao::FindScannerPowerData(ScannerPowerLog* spl)
{
if (!spl)return;
if (!m_CurrentShowJob)return;
if (m_DBMap.find(m_CurrentShowJob->m_YearBelong) == m_DBMap.end()) {
return;
}
SQLite::Database* db = m_DBMap[m_CurrentShowJob->m_YearBelong];
spl->m_VoltageDatas.clear();
spl->m_CurrentDatas.clear();
char buffer[1024];
sprintf_s(buffer, sizeof(buffer), "SELECT %s,%s FROM %s WHERE %s=%d ",
ScannerPowerLog::FIELD_VOLTAGE_DATA.c_str(),
ScannerPowerLog::FIELD_CURRENT_DATA.c_str(),
ScannerPowerLog::TABLE_NAME.c_str(),
ScannerPowerLog::FIELD_ID.c_str(), spl->m_Id);
EnterCriticalSection(&m_DbCs);
try {
SQLite::Statement query(*db, buffer);
if (query.executeStep()) {
int vdsize = query.getColumn(ScannerPowerLog::FIELD_VOLTAGE_DATA.c_str()).getBytes() / 4;
float* vdata = (float*)query.getColumn(ScannerPowerLog::FIELD_VOLTAGE_DATA.c_str()).getBlob();
for (int i = 0; i < vdsize; i++) {
spl->m_VoltageDatas.push_back(vdata[i]);
}
int cdsize = query.getColumn(ScannerPowerLog::FIELD_CURRENT_DATA.c_str()).getBytes() / 4;
float* cdata = (float*)query.getColumn(ScannerPowerLog::FIELD_CURRENT_DATA.c_str()).getBlob();
for (int i = 0; i < cdsize; i++) {
spl->m_CurrentDatas.push_back(cdata[i]);
}
}
}
catch (SQLite::Exception &e)
{
g_log->TraceError(e.getErrorStr());
}
LeaveCriticalSection(&m_DbCs);
}
void LogDao::AddPartPos(string jid, vector<int>& pids)
{
char buffer[1024];
sprintf_s(buffer, sizeof(buffer), "SELECT %s FROM %s WHERE %s='%s'",
PartPosBean::FIELD_PART_ID.c_str(),
PartPosBean::CONFIG_NAME.c_str(),
PartPosBean::FIELD_JOB_ID.c_str(), jid.c_str());
string selsql(buffer);
vector<int> hasPart;
EnterCriticalSection(&m_DbCs);
try
{
SQLite::Statement query(*m_pDB, selsql);
while (query.executeStep()) {
int pid = query.getColumn(PartPosBean::FIELD_PART_ID.c_str()).getInt();
hasPart.push_back(pid);
}
}
catch (SQLite::Exception &e)
{
g_log->TraceError(e.getErrorStr());
}
map<int, bool> pidmap;
for (size_t i = 0; i < hasPart.size(); i++) {
pidmap[hasPart[i]] = true;
}
vector<string> ins;
for (size_t i = 0; i < pids.size(); i++) {
if (pidmap.find(pids[i]) == pidmap.end())
{
sprintf_s(buffer, sizeof(buffer), "INSERT INTO %s(%s,%s,%s,%s,%s) VALUES('%s',%d,%.6f,%.6f,%.6f) ",
PartPosBean::CONFIG_NAME.c_str(),
PartPosBean::FIELD_JOB_ID.c_str(),
PartPosBean::FIELD_PART_ID.c_str(),
PartPosBean::FIELD_X_OFFSET.c_str(),
PartPosBean::FIELD_Y_OFFSET.c_str(),
PartPosBean::FIELD_ROTATE_ANGLE.c_str(),
jid.c_str(), pids[i], 0.0f, 0.0f, 0.0f);
ins.push_back(buffer);
}
}
if (!ins.empty())
{
try {
SQLite::Transaction transaction(*m_pDB);
for (size_t i = 0; i < ins.size(); ++i) {
m_pDB->exec(ins[i]);
}
transaction.commit();
}
catch (SQLite::Exception &e)
{
g_log->TraceError(e.getErrorStr());
}
}
LeaveCriticalSection(&m_DbCs);
}
void LogDao::FindPartPos(string jid, vector<PartPosBean*>& partPos)
{
char buffer[1024];
sprintf_s(buffer, sizeof(buffer), "SELECT * FROM %s WHERE %s='%s'",
PartPosBean::CONFIG_NAME.c_str(),
PartPosBean::FIELD_JOB_ID.c_str(), jid.c_str());
EnterCriticalSection(&m_DbCs);
try
{
SQLite::Statement query(*m_pDB, buffer);
while (query.executeStep()) {
PartPosBean* pa = new PartPosBean();
pa->m_JobId = query.getColumn(PartPosBean::FIELD_JOB_ID.c_str()).getString();
pa->m_PartId = query.getColumn(PartPosBean::FIELD_PART_ID.c_str()).getInt();
pa->m_XOffset = (float)(query.getColumn(PartPosBean::FIELD_X_OFFSET.c_str()).getDouble());
pa->m_YOffset = (float)(query.getColumn(PartPosBean::FIELD_Y_OFFSET.c_str()).getDouble());
pa->m_RotateAngle = (float)(query.getColumn(PartPosBean::FIELD_ROTATE_ANGLE.c_str()).getDouble());
partPos.push_back(pa);
}
}
catch (SQLite::Exception &e)
{
g_log->TraceError(e.getErrorStr());
}
LeaveCriticalSection(&m_DbCs);
}
void LogDao::UpdatePartPos(string jid, int partid, float x, float y, float rotate)
{
char buffer[1024];
sprintf_s(buffer, sizeof(buffer), "UPDATE %s SET %s=%.6f,%s=%.6f,%s=%.6f WHERE %s='%s' AND %s=%d",
PartPosBean::CONFIG_NAME.c_str(),
PartPosBean::FIELD_X_OFFSET.c_str(), x,
PartPosBean::FIELD_Y_OFFSET.c_str(), y,
PartPosBean::FIELD_ROTATE_ANGLE.c_str(), rotate,
PartPosBean::FIELD_JOB_ID.c_str(), jid.c_str(),
PartPosBean::FIELD_PART_ID.c_str(), partid);
EnterCriticalSection(&m_DbCs);
try {
m_pDB->exec(buffer);
}
catch (SQLite::Exception& e)
{
g_log->TraceError(e.getErrorStr());
}
LeaveCriticalSection(&m_DbCs);
}
void LogDao::FindRecordByJob()
{
if (IsFindingRecord())return;
SetIsFindingRecord(true);
HANDLE thread = AtlCreateThread(FindRecordProc, this);
}
DWORD WINAPI LogDao::FindRecordProc(LogDao* _this)
{
if (_this)
{
_this->FindRecordRun();
_this->SetIsFindingRecord(false);
}
return 0;
}
void LogDao::FindRecordRun()
{
//EnterCriticalSection(&m_ImgDbCs);
//if (m_ShowImageDB)
//{
// delete m_ShowImageDB;
// m_ShowImageDB = NULL;
//}
//LeaveCriticalSection(&m_ImgDbCs);
//char buffer[512];
//sprintf_s(buffer, sizeof(buffer), "%s%s.img", m_ImagePath.c_str(), m_CurrentShowJob->m_RecordID.c_str());
//EnterCriticalSection(&m_ImgDbCs);
//try {
// m_ShowImageDB = new SQLite::Database(buffer, SQLite::OPEN_READONLY);
// m_ShowImageDB->exec("PRAGMA key = '!hbd_admin'");
//}
//catch (SQLite::Exception& e)
//{
// g_log->TraceError(e.getErrorStr());
// if (m_ShowImageDB) {
// delete m_ShowImageDB;
// m_ShowImageDB = NULL;
// }
//}
//LeaveCriticalSection(&m_ImgDbCs);
//FindImageInfo();
//FindAxisLogInfo();
//FindScanState();
//FindScannerPowerInfo();
//FindFocusState();
//m_LogAssist.yTitle = "PPM";
//if (m_LogAssist.layer_selected_style == 1) {
// GetLayerStatusTable(m_LogAssist);
//}
//else {
// if (m_LogAssist.layer_selected_base == 0) {
// GetLayerStatusByTime(m_LogAssist);
// }
// else {
// GetLayerStatusByLayer(m_LogAssist);
// }
//}
//m_LogAssist.selected_servo_row = -1;
//m_ShowAxisLog = NULL;
//m_LogAssist.selected_sp_id = -1;
//m_ShowScannerPower = NULL;
}
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