IAttributeHistory * CreateDiskAttributeHistory(const boost::filesystem::path & path, const IAttribute * attribute, int version)
{
static CacheT<std::_tstring, CDiskAttributeHistory> AttributeHistoryCache;
CDiskAttributeHistory * attr = AttributeHistoryCache.Get(new CDiskAttributeHistory(path, const_cast<IAttribute *>(attribute), version));
ATLASSERT(attr);
attr->Update();
return attr;
}
CModule * CreateModuleRaw(const IRepository *rep, const std::_tstring & label, bool placeholder)
{
CModuleHelper modHelper(label);
StdStringVector tokens;
modHelper.GetQualifiedLabel(tokens);
CModule * retVal = NULL;
std::_tstring qualifiedLabel;
for (StdStringVector::iterator itr = tokens.begin(); itr != tokens.end(); ++itr)
{
if (!qualifiedLabel.empty())
qualifiedLabel += CModuleHelper::DELIMTER;
qualifiedLabel += *itr;
retVal = ModuleCache.Get(new CModule(rep, retVal, qualifiedLabel.c_str(), *itr, placeholder));
}
return retVal;
}
void DeleteModule(CModule * module)
{
ModuleCache.Clear(module->GetCacheID());
}
CCluster * CreateClusterRaw(const CString & url, const CString & wuid, const std::_tstring & queue = _T(""))
{
return ClusterCache.Get(new CCluster(static_cast<const TCHAR *>(url), static_cast<const TCHAR *>(wuid), queue));
}
CResult * CreateResultRaw(const CString & url, const CString & wuid, int sequence)
{
return ResultCache.Get(new CResult(url, wuid, sequence));
}
void ClearModuleCache()
{
ATLTRACE(_T("Module cache before clearing(size=%u)\r\n"), ModuleCache.Size());
ModuleCache.Clear();
}
namespace Dali
{
typedef std::map<std::_tstring, std::_tstring> StringStringMap;
class CResult : public IResult, public clib::CLockableUnknown, public boost::noncopyable
{
protected:
CString m_id;
CString m_url;
CString m_wuid;
CString m_name;
int m_sequence;
CString m_value;
CString m_link;
CString m_fileName;
bool IsSupplied;
__int64 m_total;
StringStringMap m_schemaMap;
public:
IMPLEMENT_CLOCKABLEUNKNOWN;
CResult()
{
ATLASSERT(false);
}
CResult(const CString & url, const CString & wuid, int sequence) : m_url(url), m_wuid(wuid), m_sequence(sequence)
{
m_id = m_url + _T("/") + m_wuid + _T("/") + boost::lexical_cast<std::_tstring>(sequence).c_str();
m_total = 0;
}
virtual ~CResult()
{
}
const TCHAR *GetID() const
{
clib::recursive_mutex::scoped_lock proc(m_mutex);
return m_id;
}
const TCHAR * GetCacheID() const
{
clib::recursive_mutex::scoped_lock proc(m_mutex);
return m_id;
}
const TCHAR *GetName() const
{
clib::recursive_mutex::scoped_lock proc(m_mutex);
return m_name;
}
int GetSequence() const
{
clib::recursive_mutex::scoped_lock proc(m_mutex);
return m_sequence;
}
const TCHAR *GetValue() const
{
clib::recursive_mutex::scoped_lock proc(m_mutex);
return m_value;
}
const TCHAR *GetLink() const
{
clib::recursive_mutex::scoped_lock proc(m_mutex);
return m_link;
}
const TCHAR *GetFileName() const
{
clib::recursive_mutex::scoped_lock proc(m_mutex);
return m_fileName;
}
__int64 GetTotal() const
{
clib::recursive_mutex::scoped_lock proc(m_mutex);
return m_total;
}
const TCHAR *GetECLType(const std::_tstring & colID) const
{
clib::recursive_mutex::scoped_lock proc(m_mutex);
StringStringMap::const_iterator found = m_schemaMap.find(colID);
if (found != m_schemaMap.end())
{
return found->second.c_str();
}
return NULL;
}
unsigned GetResultData(__int64 start, int count, ITable * result) const
{
clib::recursive_mutex::scoped_lock proc(m_mutex);
__int64 total;
unsigned retVal = GetResultData(start, count, result, total);
if (m_total && m_total < total)
total = m_total;
return retVal;
}
unsigned GetResultData(__int64 start, int count, ITable * result, __int64 & total) const
{
clib::recursive_mutex::scoped_lock proc(m_mutex);
StlLinked<IDali> dali;
dali = AttachDali((const TCHAR *)m_url, _T("Dali"));
unsigned retVal = dali->GetResultData(m_wuid, m_sequence, start, count, result, total);
if (m_total && m_total < total)
total = m_total;
return retVal;
}
#if _COMMS_VER < 68200
void Update(const ECLResult * c)
{
clib::recursive_mutex::scoped_lock proc(m_mutex);
#if _COMMS_VER < 700000
m_name = CW2T(c->Name, CP_UTF8);
m_sequence = c->Sequence;
m_value = CW2T(c->Value, CP_UTF8);
m_link = CW2T(c->Link, CP_UTF8);
IsSupplied = c->IsSupplied;
m_total = c->Total;
#else
m_name = CW2T(c->ResultName, CP_UTF8);
m_sequence = c->SequenceNumber;
//m_value = CW2T(c->Value, CP_UTF8);
//m_link = CW2T(c->Link, CP_UTF8);
m_total = c->TotalRowCount;
#endif
m_fileName = CW2T(c->FileName, CP_UTF8);
}
#else
void Update(const ns6__ECLResult * c)
{
clib::recursive_mutex::scoped_lock proc(m_mutex);
SAFE_ASSIGN2CSTRING(m_name, c->Name);
SAFE_ASSIGN(m_sequence, c->Sequence);
SAFE_ASSIGN2CSTRING(m_value, c->Value);
SAFE_ASSIGN2CSTRING(m_link, c->Link);
SAFE_ASSIGN(IsSupplied, c->IsSupplied);
SAFE_ASSIGN(m_total, c->Total);
SAFE_ASSIGN2CSTRING(m_fileName, c->FileName);
if (c->ECLSchemas)
{
m_schemaMap.clear();
for(std::size_t i = 0; i < c->ECLSchemas->ECLSchemaItem.size(); ++i)
{
if (c->ECLSchemas->ECLSchemaItem[i]->ColumnName && c->ECLSchemas->ECLSchemaItem[i]->ColumnType)
{
m_schemaMap[*c->ECLSchemas->ECLSchemaItem[i]->ColumnName] = *c->ECLSchemas->ECLSchemaItem[i]->ColumnType;
}
}
}
}
#endif
};
static CacheT<std::_tstring, CResult> ResultCache;
void ClearResultCache()
{
ATLTRACE(_T("Result cache before clearing(size=%u)\r\n"), ResultCache.Size());
ResultCache.Clear();
}
CResult * CreateResultRaw(const CString & url, const CString & wuid, int sequence)
{
return ResultCache.Get(new CResult(url, wuid, sequence));
}
IResult * CreateResult(const CString & url, const CString & wuid, int sequence)
{
return CreateResultRaw(url, wuid, sequence);
}
#if _COMMS_VER < 68200
IResult * CreateResult(const CString & url, const CString & wuid, const ECLResult * result)
{
#if _COMMS_VER < 700000
CComPtr<CResult> attr = CreateResultRaw(url, wuid, result->Sequence);
#else
CComPtr<CResult> attr = CreateResultRaw(url, wuid, result->SequenceNumber);
#endif
ATLASSERT(attr);
attr->Update(result);
return attr;
}
#else
IResult * CreateResult(const CString & url, const CString & wuid, const ns6__ECLResult * result)
{
CComPtr<CResult> attr = CreateResultRaw(url, wuid, *result->Sequence);
ATLASSERT(attr);
attr->Update(result);
return attr;
}
#endif
} //namespace Dali
void ClearResultCache()
{
ATLTRACE(_T("Result cache before clearing(size=%u)\r\n"), ResultCache.Size());
ResultCache.Clear();
}
CLocalFile * CreateLocalFileRaw(const CString & url, const CString & wuid, const CString & source)
{
return LocalFileCache.Get(new CLocalFile(url, wuid, source));
}
void ClearClusterSingletons()
{
ClusterCache.clear();
}
void ClearClusterCache()
{
ClusterCache.Clear();
}
bool GetActive(IClusterVector * clusters)
{
CComInitialize com;
ServerT server;
CString url = GetIConfig(QUERYBUILDER_CFG)->Get(GLOBAL_SERVER_SMC);
server.SetUrl(url);
CStructArrayOut<ActiveWorkunit> running;
#if _COMMS_VER < 499
bool thorQueueManagement;
if (server.Index(exceptions.GetArrayAddress(), exceptions.GetCountAddress(), &build, thorClusters.GetArrayAddress(), thorClusters.GetCountAddress(), holeClusters.GetArrayAddress() , holeClusters.GetCountAddress(), dfuJobs.GetArrayAddress(), dfuJobs.GetCountAddress(), &thorQueueManagement) == S_OK)
#elif _COMMS_VER < 505
bool thorQueueManagement;
CStructArrayOut<ActiveWorkunit> running;
if (server.Index(exceptions.GetArrayAddress(), exceptions.GetCountAddress(), &build, thorClusters.GetArrayAddress(), thorClusters.GetCountAddress(), holeClusters.GetArrayAddress() , holeClusters.GetCountAddress(), dfuJobs.GetArrayAddress(), dfuJobs.GetCountAddress(), running.GetArrayAddress(), running.GetCountAddress(), &thorQueueManagement) == S_OK)
#elif _COMMS_VER < 50509
CStructArrayOut<ActiveWorkunit> running;
if (server.Index(exceptions.GetArrayAddress(), exceptions.GetCountAddress(), &build, thorClusters.GetArrayAddress(), thorClusters.GetCountAddress(), holeClusters.GetArrayAddress() , holeClusters.GetCountAddress(), dfuJobs.GetArrayAddress(), dfuJobs.GetCountAddress(), running.GetArrayAddress(), running.GetCountAddress()) == S_OK)
#elif _COMMS_VER < 51100
CStructArrayOut<ActiveWorkunit> running;
if (server.Activity(false, exceptions.GetArrayAddress(), exceptions.GetCountAddress(), &build, thorClusters.GetArrayAddress(), thorClusters.GetCountAddress(), holeClusters.GetArrayAddress() , holeClusters.GetCountAddress(), dfuJobs.GetArrayAddress(), dfuJobs.GetCountAddress(), running.GetArrayAddress(), running.GetCountAddress()) == S_OK)
#elif _COMMS_VER < 67205
CComBSTR build;
CStructArrayOut<ThorCluster> thorClusters;
CStructArrayOut<HoleCluster> holeClusters;
CStructArrayOut<DFUJob> dfuJobs;
ESP_EXCEPTION_LOG(EspException);
if (server.Activity(exceptions.GetArrayAddress(), exceptions.GetCountAddress(), &build, thorClusters.GetArrayAddress(), thorClusters.GetCountAddress(), holeClusters.GetArrayAddress() , holeClusters.GetCountAddress(), dfuJobs.GetArrayAddress(), dfuJobs.GetCountAddress(), running.GetArrayAddress(), running.GetCountAddress()) == S_OK)
{
if (build)
m_version = CreateVersion(url, CString(build));
// Multi thor support - there could be some jobs running on a multi thor!
for(int i = 0; i < running.GetCount(); ++i)
{
CComBSTR thorClusterName = running.GetItem(i)->Instance;
#elif _COMMS_VER < 700000
CComBSTR build;
CStructArrayOut<ThorCluster> thorClusters;
CStructArrayOut<HoleCluster> holeClusters;
CStructArrayOut<DFUJob> dfuJobs;
ESP_EXCEPTION_LOG2(EspException);
if (server.Activity(exceptions, &build, thorClusters.GetArrayAddress(), thorClusters.GetCountAddress(), holeClusters.GetArrayAddress() , holeClusters.GetCountAddress(), dfuJobs.GetArrayAddress(), dfuJobs.GetCountAddress(), running.GetArrayAddress(), running.GetCountAddress()) == S_OK)
{
if (build)
m_version = CreateVersion(url, CString(build));
// Multi thor support - there could be some jobs running on a multi thor!
for(int i = 0; i < running.GetCount(); ++i)
{
CComBSTR thorClusterName = running.GetItem(i)->Instance;
#else
ESP_STATUS_LOG;
if (server.ListActiveOrQueuedWorkunits(running.GetArrayAddress(), running.GetCountAddress(), &status.m_statusCode, &status.m_statusMessage) == S_OK)
{
// Multi thor support - there could be some jobs running on a multi thor!
for(int i = 0; i < running.GetCount(); ++i)
{
CComBSTR thorClusterName = running.GetItem(i)->ServerInstance;
#endif
CComBSTR thorClusterStatus = running.GetItem(i)->State;
ThorCluster thorCluster;
thorCluster.ClusterName = thorClusterName;
thorCluster.QueueStatus = thorClusterStatus;
StlLinked<ICluster> cluster = CreateCluster(m_url, &thorCluster, running);
if (std::find(clusters->begin(), clusters->end(), cluster) == clusters->end())
{
clusters->push_back(cluster.get());
}
}
return true;
}
else
_DBGLOG(m_url, LEVEL_WARNING, server.GetClientError());
return false;
}
IVersion * GetBuild()
{
if (m_version)
return m_version;
IClusterVector results;
if (GetActive(&results))
return m_version;
return m_unknown;
}
bool SetPriority(const std::_tstring &cluster, const std::_tstring &wuid, PRIORITY priority)
{
CComInitialize com;
ServerT server;
server.SetUrl(CString(GetIConfig(QUERYBUILDER_CFG)->Get(GLOBAL_SERVER_SMC)));
CComBSTR inCluster = CT2W(cluster.c_str(), CP_UTF8);
CComBSTR inWuid = CT2W(wuid.c_str(), CP_UTF8);
HRESULT result;
#if _COMMS_VER < 67205
ESP_EXCEPTION_LOG(EspException);
#elif _COMMS_VER < 700000
ESP_EXCEPTION_LOG2(EspException);
#else
ESP_STATUS_LOG;
#endif
switch (priority)
{
case PRIORITY_UP:
{
#if _COMMS_VER < 51100
result = server.MoveJobUp(inCluster, inWuid);
#elif _COMMS_VER < 67205
result = server.MoveJobUp(inCluster, inWuid, exceptions.GetArrayAddress(), exceptions.GetCountAddress());
#elif _COMMS_VER < 700000
result = server.MoveJobUp(inCluster, inWuid, exceptions);
#else
CComBSTR position = _T("up");
result = server.SetWorkunitPositionInSamePriority(inCluster, inWuid, position, &status.m_statusCode, &status.m_statusMessage);
#endif
}
break;
case PRIORITY_DOWN:
{
#if _COMMS_VER < 51100
result = server.MoveJobDown(inCluster, inWuid);
#elif _COMMS_VER < 67205
result = server.MoveJobDown(inCluster, inWuid, exceptions.GetArrayAddress(), exceptions.GetCountAddress());
#elif _COMMS_VER < 700000
result = server.MoveJobDown(inCluster, inWuid, exceptions);
#else
CComBSTR position = _T("down");
result = server.SetWorkunitPositionInSamePriority(inCluster, inWuid, position, &status.m_statusCode, &status.m_statusMessage);
#endif
}
break;
case PRIORITY_TOP:
{
#if _COMMS_VER < 51100
result = server.MoveJobFront(inCluster, inWuid);
#elif _COMMS_VER < 67205
result = server.MoveJobFront(inCluster, inWuid, exceptions.GetArrayAddress(), exceptions.GetCountAddress());
#elif _COMMS_VER < 700000
result = server.MoveJobFront(inCluster, inWuid, exceptions);
#else
CComBSTR position = _T("front");
result = server.SetWorkunitPositionInSamePriority(inCluster, inWuid, position, &status.m_statusCode, &status.m_statusMessage);
#endif
}
break;
case PRIORITY_BOTTOM:
{
#if _COMMS_VER < 51100
result = server.MoveJobBack(inCluster, inWuid);
#elif _COMMS_VER < 67205
result = server.MoveJobBack(inCluster, inWuid, exceptions.GetArrayAddress(), exceptions.GetCountAddress());
#elif _COMMS_VER < 700000
result = server.MoveJobBack(inCluster, inWuid, exceptions);
#else
CComBSTR position = _T("end");
result = server.SetWorkunitPositionInSamePriority(inCluster, inWuid, position, &status.m_statusCode, &status.m_statusMessage);
#endif
}
break;
default:
_DBGLOG(m_url, LEVEL_WARNING, server.GetClientError());
return false;
}
if(result == S_OK)
{
return true;
}
else
_DBGLOG(m_url, LEVEL_WARNING, server.GetClientError());
return false;
}
bool SetPriority(Dali::IWorkunitVector *workunits, PRIORITY priority)
{
switch (priority)
{
case PRIORITY_UP:
case PRIORITY_TOP:
{
for(Dali::IWorkunitVector::iterator itr = workunits->begin(); itr != workunits->end(); ++itr)
{
Dali::IWorkunitAdapt& workunit = *itr;
SetPriority(workunit->GetCluster(), workunit->GetWuid(), priority);
}
}
break;
case PRIORITY_DOWN:
case PRIORITY_BOTTOM:
{
for (Dali::IWorkunitVector::reverse_iterator itr = workunits->rbegin(); itr != workunits->rend(); ++itr)
{
Dali::IWorkunitAdapt& workunit = *itr;
SetPriority(workunit->GetCluster(), workunit->GetWuid(), priority);
}
}
break;
}
return true;
}
};
#endif
CacheT<std::_tstring, CSMC> SMCCache;
ISMC * AttachSMC(const std::_tstring & url, const std::_tstring & label)
{
return SMCCache.Get(new CSMC(url.c_str(), label.c_str()));
}
COMMS_API ISMC * AttachSMC(const _variant_t & url, const std::_tstring & label)
{
return SMCCache.Get(new CSMC(url, label.c_str()));
}
void ClearSingletons()
{
ClearVersionCache();
ClearClusterCache();
SMCCache.clear();
}
}
namespace Topology
{
class CDropZone : public IDropZone, public CUnknown
{
protected:
std::_tstring m_Url;
std::_tstring m_Name;
std::_tstring m_Path;
std::_tstring m_Build;
std::_tstring m_Description;
StlLinked<CMachine> m_machine; //only 1 per drop zone I think
public:
IMPLEMENT_CUNKNOWNQI(IDropZone);
CDropZone(const TCHAR* url, const TCHAR* name, const TCHAR* path)
: m_Url(url), m_Name(name), m_Path(path)
{
}
virtual ~CDropZone()
{
}
public: //IDropZone
const TCHAR *GetID() const
{
return m_Name.c_str();
}
const TCHAR * GetCacheID() const
{
return m_Name.c_str();
}
const TCHAR *GetName(std::_tstring &name) const
{
name = m_Name;
return name.c_str();
}
const TCHAR *GetDescription(std::_tstring &desc) const
{
desc = m_Description;
return desc.c_str();
}
const TCHAR *GetPath(std::_tstring &path) const
{
path = m_Path;
return path.c_str();
}
const TCHAR *GetBuild(std::_tstring &build) const
{
build = m_Build;
return build.c_str();
}
IMachine *GetMachine() const
{
return m_machine.get();
}
#if _COMMS_VER < 68200
void Update(const TpDropZone * c)
{
m_Name = CW2T(c->Name, CP_UTF8);
m_Description = CW2T(c->Description, CP_UTF8);
m_Path = CW2T(c->Path, CP_UTF8);
m_Build = CW2T( c->Build, CP_UTF8);
m_machine = new CMachine();
#if _COMMS_VER < 60000
m_machine->Update(c->TpMachines);
#else
m_machine->Update(c->TpMachines._TpMachine);
#endif
Refresh();
}
#elif _COMMS_VER < 700000
void Update(const ns5__TpDropZone * c)
{
SAFE_ASSIGN(m_Name, c->Name);
SAFE_ASSIGN(m_Description, c->Description);
SAFE_ASSIGN(m_Path, c->Path);
SAFE_ASSIGN(m_Build, c->Build);
m_machine = new CMachine();
m_machine->Update(c->TpMachines->TpMachine[0]);
Refresh();
}
#else
void Update(const ServiceDetail * c)
{
m_Name = CW2T(c->Name, CP_UTF8);
m_Description = CW2T(c->Description, CP_UTF8);
//m_Path = CW2T(c->Path, CP_UTF8);
m_Build = CW2T( c->Build, CP_UTF8);
m_machine = new CMachine();
m_machine->Update(c->Machines._Machine);
Refresh();
}
#endif
void Refresh()
{
}
};
CacheT<std::_tstring, CDropZone> DropZoneCache;
CDropZone * CreateDropZoneRaw(const TCHAR *url, const TCHAR *name, const TCHAR *path)
{
return DropZoneCache.Get(new CDropZone(url, name, path));
}
IDropZone * CreateDropZone(const TCHAR *url, const TCHAR *name, const TCHAR *path)
{
return CreateDropZoneRaw(url, name, path);
}
#if _COMMS_VER < 68200
IDropZone * CreateDropZone(const CString & url, const TpDropZone * data)
{
CDropZone * zone = CreateDropZoneRaw(url, CW2T(data->Name, CP_UTF8), CW2T(data->Path, CP_UTF8));
ATLASSERT(zone);
zone->Update(data);
return zone;
}
#elif _COMMS_VER < 700000
IDropZone * CreateDropZone(const CString & url, const ns5__TpDropZone * data)
{
CDropZone * zone = CreateDropZoneRaw(url, data->Name->c_str(), data->Path->c_str());
ATLASSERT(zone);
zone->Update(data);
return zone;
}
#else
IDropZone * CreateDropZone(const CString & url, const ServiceDetail * data)
{
CDropZone * zone = CreateDropZoneRaw(url, CW2T(data->Name, CP_UTF8), CW2T(_T(""), CP_UTF8));
ATLASSERT(zone);
zone->Update(data);
return zone;
}
#endif
void ClearDropZoneSingletons()
{
DropZoneCache.clear();
}
}
void ClearDropZoneSingletons()
{
DropZoneCache.clear();
}
CDropZone * CreateDropZoneRaw(const TCHAR *url, const TCHAR *name, const TCHAR *path)
{
return DropZoneCache.Get(new CDropZone(url, name, path));
}
namespace Dali
{
class CLocalResult : public IResult, public clib::CLockableUnknown, public boost::noncopyable
{
protected:
CString m_id;
CString m_url;
CString m_wuid;
CString m_name;
int m_sequence;
CString m_value;
CString m_link;
CString m_fileName;
bool IsSupplied;
__int64 m_total;
StlLinked<ITable> m_result;
public:
IMPLEMENT_CLOCKABLEUNKNOWN;
CLocalResult()
{
ATLASSERT(false);
}
CLocalResult(const CString & url, const CString & wuid, int sequence) : m_url(url), m_wuid(wuid), m_sequence(sequence)
{
m_id = m_url + _T("/") + m_wuid + _T("/") + boost::lexical_cast<std::_tstring>(sequence).c_str();
m_total = 0;
m_result = CreateISparseTable();
//m_result->AddColumn(_T("Row"));
}
virtual ~CLocalResult()
{
}
const TCHAR *GetID() const
{
clib::recursive_mutex::scoped_lock proc(m_mutex);
return m_id;
}
const TCHAR * GetCacheID() const
{
clib::recursive_mutex::scoped_lock proc(m_mutex);
return m_id;
}
const TCHAR *GetName() const
{
clib::recursive_mutex::scoped_lock proc(m_mutex);
return m_name;
}
int GetSequence() const
{
clib::recursive_mutex::scoped_lock proc(m_mutex);
return m_sequence;
}
const TCHAR *GetValue() const
{
clib::recursive_mutex::scoped_lock proc(m_mutex);
return m_value;
}
const TCHAR *GetLink() const
{
clib::recursive_mutex::scoped_lock proc(m_mutex);
return m_link;
}
const TCHAR *GetFileName() const
{
clib::recursive_mutex::scoped_lock proc(m_mutex);
return m_fileName;
}
__int64 GetTotal() const
{
clib::recursive_mutex::scoped_lock proc(m_mutex);
return m_total;
}
const TCHAR *GetECLType(const std::_tstring & colID) const
{
return NULL;
}
unsigned GetResultData(__int64 start, int count, ITable * result) const
{
clib::recursive_mutex::scoped_lock proc(m_mutex);
__int64 total;
unsigned retVal = GetResultData(start, count, result, total);
if (m_total && m_total < total)
total = m_total;
return retVal;
}
unsigned GetResultData(__int64 start, int count, ITable * result, __int64 & total) const
{
clib::recursive_mutex::scoped_lock proc(m_mutex);
if (m_result->GetRowCount() - start < count)
count = m_result->GetRowCount() - start;
for(__int64 i = start; i < start + count; ++i)
{
for (unsigned int j = 0; j < m_result->GetColumnCount(); ++j)
{
int newCol = result->FindColumn(m_result->GetColumn(j), true, m_result->GetColumnType(j));
if (newCol >= 0)
result->SetCell(i, newCol, m_result->GetCell(i, j));
else
result->SetCell(i, j, m_result->GetCell(i, j));
}
}
return count;
}
void Update(const std::_tstring & name, ITable * result)
{
clib::recursive_mutex::scoped_lock proc(m_mutex);
m_name = name.c_str();
m_result->LoadFrom(result);
m_total = result->GetRowCount();
}
};
static CacheT<std::_tstring, CLocalResult> LocalResultCache;
void ClearLocalResultCache()
{
ATLTRACE(_T("Result cache before clearing(size=%u)\r\n"), LocalResultCache.Size());
LocalResultCache.Clear();
}
CLocalResult * CreateLocalResultRaw(const CString & url, const CString & wuid, int sequence)
{
return LocalResultCache.Get(new CLocalResult(url, wuid, sequence));
}
IResult * CreateLocalResult(const CString & url, const CString & wuid, int sequence)
{
return CreateLocalResultRaw(url, wuid, sequence);
}
#if _COMMS_VER < 68200
#else
IResult * CreateLocalResult(const CString & url, const CString & wuid, const std::_tstring & label, int sequence, ITable * result)
{
CComPtr<CLocalResult> attr = CreateLocalResultRaw(url, wuid, sequence);
ATLASSERT(attr);
attr->Update(label, result);
return attr;
}
#endif
} //namespace Dali
namespace Dali
{
#if _COMMS_VER < 60600
#else
class CLocalFile : public ILocalFile, public clib::CLockableUnknown, public boost::noncopyable
{
protected:
CString m_id;
CString m_url;
CString m_wuid;
int m_type;
CString m_source;
CString m_destination;
localfile_signal_type on_refresh;
public:
IMPLEMENT_CLOCKABLEUNKNOWN;
CLocalFile()
{
ATLASSERT(false);
}
CLocalFile(const CString & url, const CString & wuid, const CString & source) : m_url(url), m_wuid(wuid), m_source(source)
{
m_id = m_url + _T("/") + m_wuid + _T("/") + m_source;
m_type = 0;
}
virtual ~CLocalFile()
{
}
const TCHAR *GetID() const
{
clib::recursive_mutex::scoped_lock proc(m_mutex);
return m_id;
}
const TCHAR * GetCacheID() const
{
clib::recursive_mutex::scoped_lock proc(m_mutex);
return m_id;
}
int GetType() const
{
clib::recursive_mutex::scoped_lock proc(m_mutex);
return m_type;
}
const TCHAR *GetSource() const
{
clib::recursive_mutex::scoped_lock proc(m_mutex);
return m_source;
}
const TCHAR *GetDestination() const
{
clib::recursive_mutex::scoped_lock proc(m_mutex);
return m_destination;
}
#if _COMMS_VER < 68200
void Update(const LogicalFileUpload * c)
{
clib::recursive_mutex::scoped_lock proc(m_mutex);
bool changed = false;
if (m_source.Compare(CW2T(c->Source, CP_UTF8)) != 0 ||
m_destination.Compare(CW2T(c->Destination, CP_UTF8)) != 0 ||
m_type != c->Type)
{
changed = true;
}
m_type = c->Type;
m_source = CW2T(c->Source, CP_UTF8);
m_destination = CW2T(c->Destination, CP_UTF8);
if (changed)
{
proc.unlock();
Refresh();
}
}
#else
void Update(const ns6__LogicalFileUpload * c)
{
clib::recursive_mutex::scoped_lock proc(m_mutex);
CString prev_source = m_source;
CString prev_destinition = m_destination;
int prev_type = m_type;
SAFE_ASSIGN2CSTRING(m_source, c->Source);
SAFE_ASSIGN2CSTRING(m_destination, c->Destination);
SAFE_ASSIGN(m_type, c->Type);
if (m_source.Compare(prev_source) != 0 ||
m_destination.Compare(prev_destinition) != 0 ||
m_type != prev_type)
{
proc.unlock();
Refresh();
}
}
#endif
void Refresh()
{
on_refresh(this);
}
boost::signals::connection on_refresh_connect(const localfile_slot_type& s)
{
clib::recursive_mutex::scoped_lock proc(m_mutex);
return on_refresh.connect(s);
}
};
static CacheT<std::_tstring, CLocalFile> LocalFileCache;
void ClearLocalFileCache()
{
ATLTRACE(_T("LocalFile cache before clearing(size=%u)\r\n"), LocalFileCache.Size());
LocalFileCache.Clear();
}
CLocalFile * CreateLocalFileRaw(const CString & url, const CString & wuid, const CString & source)
{
return LocalFileCache.Get(new CLocalFile(url, wuid, source));
}
ILocalFile * CreateLocalFile(const CString & url, const CString & wuid, const CString & source)
{
return CreateLocalFileRaw(url, wuid, source);
}
#if _COMMS_VER < 68200
ILocalFile * CreateLocalFile(const CString & url, const CString & wuid, const LogicalFileUpload * localfile)
{
CComPtr<CLocalFile> lf = CreateLocalFileRaw(url, wuid, localfile->Source);
ATLASSERT(lf);
lf->Update(localfile);
return lf;
}
#else
ILocalFile * CreateLocalFile(const CString & url, const CString & wuid, const ns6__LogicalFileUpload * localfile)
{
CComPtr<CLocalFile> lf = CreateLocalFileRaw(url, wuid, localfile->Source->c_str());
ATLASSERT(lf);
lf->Update(localfile);
return lf;
}
#endif
#endif
} //namespace Dali
namespace Topology
{
class CCluster : public ICluster, public CUnknown
{
protected:
std::_tstring m_Name;
std::_tstring m_Queue;
std::_tstring m_Url;
std::_tstring m_Type;
std::_tstring m_Directory;
std::_tstring m_Desc;
std::_tstring m_Prefix;
std::_tstring m_Path;
std::_tstring m_DataModel;
public:
IMPLEMENT_CUNKNOWN;
CCluster(const std::_tstring & url, const std::_tstring & name, const std::_tstring & queue = _T("")) : m_Url(url), m_Name(name), m_Queue(queue)
{
}
virtual ~CCluster()
{
}
const TCHAR *GetID() const
{
return m_Name.c_str();
}
const TCHAR * GetCacheID() const
{
return m_Name.c_str();
}
const TCHAR *GetName() const
{
return m_Name.c_str();
}
const TCHAR *GetQueue() const
{
return m_Queue.c_str();
}
const TCHAR *GetType() const
{
return m_Type.c_str();
}
const TCHAR *GetDirectory() const
{
return m_Directory.c_str();
}
const TCHAR *GetDesc() const
{
return m_Desc.c_str();
}
const TCHAR *GetPrefix() const
{
return m_Prefix.c_str();
}
const TCHAR *GetPath() const
{
return m_Path.c_str();
}
const TCHAR *GetDataModel() const
{
return m_DataModel.c_str();
}
#if _COMMS_VER < 68200
void Update(const TpLogicalCluster * c)
{
m_Name = CW2T(c->Name, CP_UTF8);
#if _COMMS_VER < 55100
#else
if(c->Queue)
{
m_Queue = CW2T(c->Queue, CP_UTF8);
}
#endif
Refresh();
}
void Update(const TpCluster * c)
{
m_Name = CW2T(c->Name, CP_UTF8);
m_Type = CW2T(c->Type, CP_UTF8);
m_Directory = CW2T(c->Directory, CP_UTF8);
m_Desc = CW2T(c->Desc, CP_UTF8);
m_Prefix = CW2T(c->Prefix, CP_UTF8);
m_Path = CW2T(c->Path, CP_UTF8);
m_DataModel = CW2T(c->DataModel, CP_UTF8);
Refresh();
}
#elif _COMMS_VER < 700000
void Update(const ns5__TpLogicalCluster * c)
{
SAFE_ASSIGN(m_Name, c->Name);
SAFE_ASSIGN(m_Queue, c->Queue);
Refresh();
}
#else
void Update(const LogicalCluster * c)
{
m_Name = CW2T(c->Name, CP_UTF8);
if(c->Queue)
{
m_Queue = CW2T(c->Queue, CP_UTF8);
}
Refresh();
}
#endif
void Refresh()
{
}
};
CacheT<std::_tstring, CCluster> ClusterCache;
void ClearClusterCache()
{
ClusterCache.Clear();
}
CCluster * CreateClusterRaw(const CString & url, const CString & wuid, const std::_tstring & queue = _T(""))
{
return ClusterCache.Get(new CCluster(static_cast<const TCHAR *>(url), static_cast<const TCHAR *>(wuid), queue));
}
ICluster * CreateCluster(const CString & url, const CString & wuid, const std::_tstring & queue)
{
return CreateClusterRaw(url, wuid, queue);
}
#if _COMMS_VER < 68200
ICluster * CreateCluster(const CString & url, const TpLogicalCluster * data)
{
CCluster * attr = CreateClusterRaw(url, data->Name);
ATLASSERT(attr);
attr->Update(data);
return attr;
}
ICluster * CreateCluster(const CString & url, const TpCluster * data)
{
ATLASSERT(!"This is not used any more - please tell Gordon");
//CCluster * attr = CreateClusterRaw(url, data->Name);
//ATLASSERT(attr);
//attr->Update(data);
return NULL;//attr;
}
#elif _COMMS_VER < 700000
ICluster * CreateCluster(const CString & url, const ns5__TpLogicalCluster * data)
{
CCluster * attr = CreateClusterRaw(url, data->Name->c_str());
ATLASSERT(attr);
attr->Update(data);
return attr;
}
ICluster * CreateCluster(const CString & url, const ns5__TpCluster * data)
{
ATLASSERT(!"This is not used any more - please tell Gordon");
//CCluster * attr = CreateClusterRaw(url, data->Name);
//ATLASSERT(attr);
//attr->Update(data);
return NULL;//attr;
}
#else
ICluster * CreateCluster(const CString & url, const LogicalCluster * data)
{
CCluster * attr = CreateClusterRaw(url, data->Name);
ATLASSERT(attr);
attr->Update(data);
return attr;
}
ICluster * CreateCluster(const CString & url, const Cluster * data)
{
ATLASSERT(!"This is not used any more - please tell Gordon");
//CCluster * attr = CreateClusterRaw(url, data->Name);
//ATLASSERT(attr);
//attr->Update(data);
return NULL;//attr;
}
#endif
void ClearClusterSingletons()
{
ClusterCache.clear();
}
}
void ClearLocalFileCache()
{
ATLTRACE(_T("LocalFile cache before clearing(size=%u)\r\n"), LocalFileCache.Size());
LocalFileCache.Clear();
}
