//------------------------------------------------------------------------------------------------------------------------------------
// Helper for ErrorMessenger.
//------------------------------------------------------------------------------------------------------------------------------------
LogMgr::ErrorDialogResult LogMgr::Error(const std::string& errorMessage, bool isFatal, const char* funcName, const char* sourceFile, unsigned int lineNum)
{
string tag = ((isFatal) ? ("FATAL") : ("ERROR"));
// buffer for our final output string
string buffer;
GetOutputBuffer(buffer, tag, errorMessage, funcName, sourceFile, lineNum);
// write the final buffer to all the various logs
m_tagCriticalSection.Lock();
Tags::iterator findIt = m_tags.find(tag);
if (findIt != m_tags.end())
OutputFinalBufferToLogs(buffer, findIt->second);
m_tagCriticalSection.Unlock();
// show the dialog box
int result = ::MessageBoxA(NULL, buffer.c_str(), tag.c_str(), MB_ABORTRETRYIGNORE|MB_ICONERROR|MB_DEFBUTTON3);
// act upon the choice
switch (result)
{
case IDIGNORE : return LogMgr::LOGMGR_ERROR_IGNORE;
case IDABORT : __debugbreak(); return LogMgr::LOGMGR_ERROR_RETRY; // assembly language instruction to break into the debugger
case IDRETRY : return LogMgr::LOGMGR_ERROR_RETRY;
default : return LogMgr::LOGMGR_ERROR_RETRY;
}
}
void LogManager::Log(const std::string& tag, const std::string& msg, const char* funcName, const char* fileName, unsigned int lineNum)
{
m_CritSection.Lock();
Tags::iterator findIt = m_Tags.find(tag);
if (findIt != m_Tags.end())
{
std::string buffer;
GetOutputBuffer(buffer, tag, msg, funcName, fileName, lineNum);
OutputBufferToLogs(buffer, findIt->second);
}
m_CritSection.Unlock();
}
QSet<QString> TagComparator::_toSet(const Tags& t, const QString& k)
{
Tags::const_iterator it = t.find(k);
if (OsmSchema::getInstance().isList(k, *it))
{
return QSet<QString>::fromList(t.getList(k));
}
else
{
QSet<QString> result;
result.insert(*it);
return result;
}
}
/* topological (depth-first) sorting of operations */
static void sort_operations_recursive(NodeOperationBuilder::Operations &sorted, Tags &visited, NodeOperation *op)
{
if (visited.find(op) != visited.end())
return;
visited.insert(op);
for (int i = 0; i < op->getNumberOfInputSockets(); ++i) {
NodeOperationInput *input = op->getInputSocket(i);
if (input->isConnected())
sort_operations_recursive(sorted, visited, &input->getLink()->getOperation());
}
sorted.push_back(op);
}
void LogManager::SetDisplayFlags(const std::string& tag, unsigned char flag)
{
m_CritSection.Lock();
if (flag != 0)
{
Tags::iterator findIt = m_Tags.find(tag);
if (findIt == m_Tags.end())
m_Tags.insert(std::make_pair(tag, flag));
else
findIt->second = flag;
}
else
m_Tags.erase(tag);
m_CritSection.Unlock();
}
static void add_group_operations_recursive(Tags &visited, NodeOperation *op, ExecutionGroup *group)
{
if (visited.find(op) != visited.end())
return;
visited.insert(op);
if (!group->addOperation(op))
return;
/* add all eligible input ops to the group */
for (int i = 0; i < op->getNumberOfInputSockets(); ++i) {
NodeOperationInput *input = op->getInputSocket(i);
if (input->isConnected())
add_group_operations_recursive(visited, &input->getLink()->getOperation(), group);
}
}
void LogMgr::log(const std::string& tag, const std::string& message, const char* funcName, const char* sourceFile, unsigned int lineNum)
{
m_TagCriticalSection.lock();
Tags::iterator findIt = m_Tags.find(tag);
if (findIt != m_Tags.end())
{
m_TagCriticalSection.unlock();
std::string buffer;
getOutputBuffer(buffer, tag, message, funcName, sourceFile, lineNum);
outputFinalBufferToLogs(buffer, tag, findIt->second);
}
else
{
m_TagCriticalSection.unlock();
}
}
///////////////////////////////////////////////////////////////////////////////////////////////////////
// this function builds up the log string and outputs it to various places based on display flags
///////////////////////////////////////////////////////////////////////////////////////////////////////
void LogMgr::Log(const string& tag, const string& message, const char* func, const char* source, unsigned int line)
{
_tag_critical_section.Lock();
Tags::iterator it = _tags.find(tag);
if(it != _tags.end())
{
_tag_critical_section.Unlock();
string buffer;
GetOutputBuffer(buffer, tag, message, func, source, line);
OutputFinalBufferToLogs(buffer, it->second);
}
else
{
//critical section is exited in the if above, so need to do it here if above wasnt executed
_tag_critical_section.Unlock();
}
}
void LogMgr::setDisplayFLags(const std::string& tag, unsigned char flags)
{
m_TagCriticalSection.lock();
if (flags != 0)
{
Tags::iterator findIt = m_Tags.find(tag);
if (findIt == m_Tags.end())
m_Tags.insert(std::make_pair(tag, flags));
else
findIt->second = flags;
}
else
{
m_Tags.erase(tag);
}
m_TagCriticalSection.unlock();
}
///////////////////////////////////////////////////////////////////////////////////////
// sets one or more display flags
///////////////////////////////////////////////////////////////////////////////////////
void LogMgr::SetDisplayFlags(const std::string& tag, unsigned char flags)
{
_tag_critical_section.Lock();
if(flags != 0)
{
Tags::iterator it = _tags.find(tag);
if(it == _tags.end())
_tags.insert(std::make_pair(tag, flags));
else
it->second = flags;
}
else
{
_tags.erase(tag);
}
_tag_critical_section.Unlock();
}
static void find_reachable_operations_recursive(Tags &reachable, NodeOperation *op)
{
if (reachable.find(op) != reachable.end())
return;
reachable.insert(op);
for (int i = 0; i < op->getNumberOfInputSockets(); ++i) {
NodeOperationInput *input = op->getInputSocket(i);
if (input->isConnected())
find_reachable_operations_recursive(reachable, &input->getLink()->getOperation());
}
/* associated write-buffer operations are executed as well */
if (op->isReadBufferOperation()) {
ReadBufferOperation *read_op = (ReadBufferOperation *)op;
MemoryProxy *memproxy = read_op->getMemoryProxy();
find_reachable_operations_recursive(reachable, memproxy->getWriteBufferOperation());
}
}
//------------------------------------------------------------------------------------------------------------------------------------
// This function builds up the log string and outputs it to various places based on the display flags (m_displayFlags).
//------------------------------------------------------------------------------------------------------------------------------------
void LogMgr::Log(const string& tag, const string& message, const char* funcName, const char* sourceFile, unsigned int lineNum)
{
m_tagCriticalSection.Lock();
Tags::iterator findIt = m_tags.find(tag);
if (findIt != m_tags.end())
{
m_tagCriticalSection.Unlock();
string buffer;
GetOutputBuffer(buffer, tag, message, funcName, sourceFile, lineNum);
OutputFinalBufferToLogs(buffer, findIt->second);
}
else
{
// Critical section is exited in the if statement above, so we need to exit it here if that didn't
// get executed.
m_tagCriticalSection.Unlock();
}
} // end LogMgr::Log()
LogMgr::ErrorDialogResult LogMgr::error(const std::string & errorMessage, bool isFatal, const char* funcName, const char* sourceFile, unsigned int lineNum)
{
std::string tag = ((isFatal) ? ("FATAL") : ("ERROR"));
std::string buffer;
getOutputBuffer(buffer, tag, errorMessage, funcName, sourceFile, lineNum);
m_TagCriticalSection.lock();
Tags::iterator findIt = m_Tags.find(tag);
if (findIt != m_Tags.end())
outputFinalBufferToLogs(buffer, tag, findIt->second);
m_TagCriticalSection.unlock();
int result = ::MessageBoxA(NULL, buffer.c_str(), tag.c_str(), MB_ABORTRETRYIGNORE | MB_ICONERROR | MB_DEFBUTTON3);
switch (result)
{
case IDIGNORE: return LogMgr::LOGMGR_ERROR_IGNORE;
case IDABORT: __debugbreak(); return LogMgr::LOGMGR_ERROR_RETRY;
case IDRETRY: return LogMgr::LOGMGR_ERROR_RETRY;
default: return LogMgr::LOGMGR_ERROR_RETRY;
}
}
//////////////////////////////////////////////////////////////////////////////////////////////
//helper for ErrorMessenger
/////////////////////////////////////////////////////////////////////////////////////////////
LogMgr::ErrorDialogResult LogMgr::Error(const std::string& error_message, bool is_fatal, const char* func, const char* source, unsigned int line)
{
string tag = ((is_fatal) ? ("FATAL") : ("ERROR"));
//buffer for final output string
string buffer;
GetOutputBuffer(buffer, tag, error_message, func, source, line);
//write final buffer to various logs
_tag_critical_section.Lock();
Tags::iterator it = _tags.find(tag);
if(it != _tags.end())
OutputFinalBufferToLogs(buffer, it->second);
_tag_critical_section.Unlock();
//show the dialog box
int result = ::MessageBoxA(NULL, buffer.c_str(), tag.c_str(), MB_ABORTRETRYIGNORE|MB_ICONERROR|MB_DEFBUTTON3);
switch(result)
{
case IDIGNORE: return LogMgr::LOGMGR_ERROR_IGNORE;
case IDABORT: __debugbreak(); return LogMgr::LOGMGR_ERROR_ABORT;
case IDRETRY: return LogMgr::LOGMGR_ERROR_RETRY;
default: return LogMgr::LOGMGR_ERROR_RETRY;
}
}
void NodeOperationBuilder::prune_operations()
{
Tags reachable;
for (Operations::const_iterator it = m_operations.begin(); it != m_operations.end(); ++it) {
NodeOperation *op = *it;
/* output operations are primary executed operations */
if (op->isOutputOperation(m_context->isRendering()))
find_reachable_operations_recursive(reachable, op);
}
/* delete unreachable operations */
Operations reachable_ops;
for (Operations::const_iterator it = m_operations.begin(); it != m_operations.end(); ++it) {
NodeOperation *op = *it;
if (reachable.find(op) != reachable.end())
reachable_ops.push_back(op);
else
delete op;
}
/* finally replace the operations list with the pruned list */
m_operations = reachable_ops;
}
LogManager::ErrorDialogResult LogManager::Error(const std::string& msg, bool isFatal, const char* funcName, const char* fileName, unsigned int lineNum)
{
std::string tag = ((isFatal) ? "FATAL" : "ERROR");
std::string buffer;
GetOutputBuffer(buffer, tag, msg, funcName, fileName, lineNum);
m_CritSection.Lock();
Tags::iterator findIt = m_Tags.find(tag);
if (findIt != m_Tags.end())
OutputBufferToLogs(buffer, findIt->second);
m_CritSection.Unlock();
int result;
// show dialog box
if (isFatal)
result = MessageBox(nullptr, buffer.c_str(), tag.c_str(), MB_OK | MB_ICONERROR | MB_DEFBUTTON1);
else
result = MessageBox(nullptr, buffer.c_str(), tag.c_str(), MB_ABORTRETRYIGNORE | MB_ICONERROR | MB_DEFBUTTON3);
switch (result)
{
case IDOK:
exit(EXIT_FAILURE);
case IDIGNORE:
return LogManager::ERROR_DIALOG_IGNORE;
case IDABORT:
__debugbreak(); // Assembly instruction to open VS debugger.
return LogManager::ERROR_DIALOG_ABORT;
case IDRETRY:
return LogManager::ERROR_DIALOG_RETRY;
default:
return LogManager::ERROR_DIALOG_RETRY;
}
}
void TagComparator::_mergeExactMatches(Tags& t1, Tags& t2, Tags& result)
{
OsmSchema& schema = OsmSchema::getInstance();
Tags t1Copy = t1;
for (Tags::ConstIterator it1 = t1Copy.begin(); it1 != t1Copy.end(); ++it1)
{
bool keepIt = false;
Tags::const_iterator it2 = t2.find(it1.key());
if (it2 != t2.end())
{
if (schema.isList(it1.key(), it1.value()))
{
// treat the inputs as unordered lists
QSet<QString> values1 = QSet<QString>::fromList(t1.getList(it1.key()));
QSet<QString> values2 = QSet<QString>::fromList(t2.getList(it2.key()));
values1.intersect(values2);
if (values1.size() == values2.size())
{
keepIt = true;
}
}
else if (it2.value() == it1.value())
{
keepIt = true;
}
if (keepIt)
{
result[it1.key()] = it1.value();
t1.remove(it1.key());
t2.remove(it1.key());
}
}
}
}
