void CLanguageResource::OnPostInstall(bool update, bool modal)
{
if (!g_SkinInfo)
return;
if (IsInUse() ||
(!update && !modal &&
(HELPERS::ShowYesNoDialogText(CVariant{Name()}, CVariant{24132}) == DialogResponse::YES)))
{
if (IsInUse())
g_langInfo.SetLanguage(ID());
else
CServiceBroker::GetSettings().SetString(CSettings::SETTING_LOCALE_LANGUAGE, ID());
}
}
void Turret::Activate( HOBJECT hSender )
{
if( IsInUse( ) || m_Damage.IsDead( ))
return;
if( m_swtDestroyedDeactivationDelay.IsStarted( ))
{
g_pLTServer->CPrint( "Activated with deactivation delay" );
}
// Activating turret...
m_hOperatingObject = hSender;
CreateSpecialFX( true );
if( IsPlayer( m_hOperatingObject ))
{
// Change the players weapon to the turret weapon...
CPlayerObj *pPlayer = dynamic_cast<CPlayerObj*>(g_pLTServer->HandleToObject( m_hOperatingObject ));
pPlayer->SetOperatingTurret( *this, true );
}
// Process any activation command we may have...
if( !m_sActivateCommand.empty( ))
{
g_pCmdMgr->QueueCommand( m_sActivateCommand.c_str( ), hSender, m_hObject );
}
SetNextUpdate( UPDATE_NEXT_FRAME );
}
void Turret::HandleDeactivateMsg( HOBJECT hSender, const CParsedMsg &crParsedMsg )
{
if( IsInUse( ))
{
Deactivate( );
}
}
void FixedAlloc::Destroy()
{
// Free all of the blocks
while (m_firstBlock) {
#ifdef MMGC_MEMORY_PROFILER
if(m_firstBlock->numAlloc > 0 && m_heap->GetStatus() != kMemAbort) {
union {
char* mem_c;
uint32_t* mem;
};
mem_c = m_firstBlock->items;
unsigned int itemNum = 0;
while(itemNum++ < m_itemsPerBlock) {
if(IsInUse(m_firstBlock, mem)) {
GCLog("Leaked %d byte item. Addr: 0x%p\n", GetItemSize(), GetUserPointer(mem));
PrintAllocStackTrace(GetUserPointer(mem));
}
mem_c += m_itemSize;
}
}
#ifdef MMGC_MEMORY_INFO
//check for writes on deleted memory
VerifyFreeBlockIntegrity(m_firstBlock->firstFree, m_firstBlock->size);
#endif
#endif
FreeChunk(m_firstBlock);
}
m_firstBlock = NULL;
}
bool Game_Vehicle::IsMovable() {
if (!IsInUse())
return false;
if (type == Airship && (IsAscending() || IsDescending()))
return false;
return !IsMoving();
}
void EQStreamProxy::ReleaseFromUse() {
m_stream->ReleaseFromUse();
//this is so ugly, but I cant think of a better way to deal with
//it right now...
if(!IsInUse()) {
delete this;
}
}
void CLanguageResource::OnPostInstall(bool update, bool modal)
{
if (IsInUse() ||
(!update && !modal && CGUIDialogYesNo::ShowAndGetInput(Name(), 24132)))
{
CGUIDialogKaiToast *toast = (CGUIDialogKaiToast *)g_windowManager.GetWindow(WINDOW_DIALOG_KAI_TOAST);
if (toast)
{
toast->ResetTimer();
toast->Close(true);
}
if (IsInUse())
g_langInfo.SetLanguage(ID());
else
CSettings::Get().SetString(LANGUAGE_SETTING, ID());
}
}
void CLanguageResource::OnPostInstall(bool update, bool modal)
{
if (IsInUse() ||
(!update && !modal &&
(HELPERS::ShowYesNoDialogText(CVariant{Name()}, CVariant{24132}) == DialogResponse::YES)))
{
CGUIDialogKaiToast *toast = (CGUIDialogKaiToast *)g_windowManager.GetWindow(WINDOW_DIALOG_KAI_TOAST);
if (toast)
{
toast->ResetTimer();
toast->Close(true);
}
if (IsInUse())
g_langInfo.SetLanguage(ID());
else
CServiceBroker::GetSettings().SetString(CSettings::SETTING_LOCALE_LANGUAGE, ID());
}
}
int CreateKey(pthread_key_t* result, void (*key_destructor)(void*)) {
// Take the first unallocated key.
for (int key = 0; key < BIONIC_TLS_SLOTS; ++key) {
if (!IsInUse(key)) {
SetInUse(key, key_destructor);
*result = key;
return 0;
}
}
// We hit PTHREAD_KEYS_MAX. POSIX says EAGAIN for this case.
return EAGAIN;
}
/*
* UseListGetObjects: Return a newly allocated list, which contains pointers
* into given list inv. This new list contains those elements of inv that
* are being used.
*/
list_type UseListGetObjects(list_type inv)
{
list_type l, new_list = NULL;
object_node *obj;
for (l = inv; l != NULL; l = l->next)
{
obj = (object_node *) l->data;
if (IsInUse(obj->id))
new_list = list_add_item(new_list, l->data);
}
return new_list;
}
void Turret::HandleActivateMsg( HOBJECT hSender, const CParsedMsg &crParsedMsg )
{
if( IsInUse( ) )
{
if( m_hOperatingObject == hSender )
{
Deactivate( );
}
else
{
// Can't activate an occupied turret...
return;
}
}
else
{
Activate( hSender );
}
}
void Game_Vehicle::Refresh() {
if (IsInUse()) {
SetMapId(Game_Map::GetMapId());
} else if (IsInCurrentMap()) {
SetProcessed(true); // RPG_RT compatibility
MoveTo(GetX(), GetY());
}
switch (type) {
case None:
break;
case Boat:
case Ship:
SetMoveSpeed(RPG::EventPage::MoveSpeed_normal);
break;
case Airship:
SetMoveSpeed(RPG::EventPage::MoveSpeed_double);
break;
}
}
void FixedAlloc::Destroy()
{
// Free all of the blocks
while (m_firstBlock) {
#ifdef MMGC_MEMORY_PROFILER
if(m_firstBlock->numAlloc > 0 && m_heap->GetStatus() != kMemAbort) {
union {
char* mem_c;
uint32_t* mem;
};
mem_c = m_firstBlock->items;
unsigned int itemNum = 0;
while(itemNum++ < m_itemsPerBlock) {
if(IsInUse(m_firstBlock, mem)) {
// supress output in release build UNLESS the profiler is on
#ifndef GCDEBUG
if(m_heap->GetProfiler() != NULL)
#endif
{
GCLog("Leaked %d byte item. Addr: 0x%p\n", GetItemSize(), GetUserPointer(mem));
PrintAllocStackTrace(GetUserPointer(mem));
}
}
mem_c += m_itemSize;
}
}
#ifdef MMGC_MEMORY_INFO
//check for writes on deleted memory
VerifyFreeBlockIntegrity(m_firstBlock->firstFree, m_firstBlock->size);
#endif
#endif
// Note, don't cache any state across this call; FreeChunk may temporarily
// release locks held if the true type of this allocator is FixedAllocSafe.
FreeChunk(m_firstBlock);
}
m_firstBlock = NULL;
}
// Called from pthread_exit() to remove all TLS key data
// from this thread's TLS area. This must call the destructor of all keys
// that have a non-NULL data value and a non-NULL destructor.
void CleanAll() {
void** tls = __get_tls();
// Because destructors can do funky things like deleting/creating other
// keys, we need to implement this in a loop.
for (int rounds = PTHREAD_DESTRUCTOR_ITERATIONS; rounds > 0; --rounds) {
size_t called_destructor_count = 0;
for (int key = 0; key < BIONIC_TLS_SLOTS; ++key) {
if (IsInUse(key)) {
void* data = tls[key];
void (*key_destructor)(void*) = s_tls_map_.key_destructors[key];
if (data != NULL && key_destructor != NULL) {
// we need to clear the key data now, this will prevent the
// destructor (or a later one) from seeing the old value if
// it calls pthread_getspecific() for some odd reason
// we do not do this if 'key_destructor == NULL' just in case another
// destructor function might be responsible for manually
// releasing the corresponding data.
tls[key] = NULL;
// because the destructor is free to call pthread_key_create
// and/or pthread_key_delete, we need to temporarily unlock
// the TLS map
Unlock();
(*key_destructor)(data);
Lock();
++called_destructor_count;
}
}
}
// If we didn't call any destructors, there is no need to check the TLS data again.
if (called_destructor_count == 0) {
break;
}
}
}
void Turret::Deactivate( )
{
if( !IsInUse( ))
{
DebugCPrint(1, "Deactivation failed!");
return;
}
CAutoMessage cMsg;
cMsg.Writeuint8( MID_SFX_MESSAGE );
cMsg.Writeuint8( SFX_TURRET_ID );
cMsg.WriteObject( m_hObject );
cMsg.Writeuint8( kTurretFXMsg_Deactivate );
g_pLTServer->SendToClient( cMsg.Read( ), NULL, MESSAGE_GUARANTEED );
if( IsPlayer( m_hOperatingObject ))
{
// Change the players weapon to the turret weapon...
CPlayerObj *pPlayer = dynamic_cast<CPlayerObj*>(g_pLTServer->HandleToObject( m_hOperatingObject ));
pPlayer->SetOperatingTurret( *this, false );
}
// Process any deactivation command we may have...
if( !m_sDeactivateCommand.empty( ))
{
g_pCmdMgr->QueueCommand( m_sDeactivateCommand.c_str( ), m_hOperatingObject, m_hObject );
}
m_hOperatingObject = NULL;
CreateSpecialFX( false );
// [RP] NOTE: We still need to continually update to manually keep accurate positions.
// Using attachments was causing issues of not being able to activate. Need to look
// further into this. Once this issue is resolved we should not need to update if
// the turret is deactivates.
SetNextUpdate( /*UPDATE_NEVER*/ UPDATE_NEXT_FRAME );
}
//------------------------------------------------------------------------------
int CPosumStream::_fclose_nolock()
{
int result = EOF;
if( this == 0 )
{
errno = EINVAL;
return EOF;
}
if( IsInUse() )
{
// Stream is in use:
//(1) flush stream
//(2) free the buffer
//(3) close the file
//(4) delete the file if temporary
result = _flush();
_freebuf();
if( _close( _fileno() ) < 0 )
{
result = EOF;
}
else if( _tmpfname != NULL )
{
//temporary file (i.e., one created by tmpfile() call).
//delete, if necessary (don't have to on Windows NT because it was done by the system when the handle was closed). also, free up the heap block holding the pathname.
free( _tmpfname );
_tmpfname = NULL;
}
}
_flag = 0;
return result;
}
void Program::setUniformMatrix3(const GLchar* name, const GLfloat* v, GLsizei count, GLboolean transpose) {
assert(IsInUse());
glUniformMatrix3fv(uniform(name), count, transpose, v);
}
void backlash::Program::Stop() const {
assert(IsInUse());
glUseProgram(0);
}
void backlash::Program::SetUniform(const GLchar* name, const glm::mat4& m, GLboolean transpose) {
assert(IsInUse());
glUniformMatrix4fv(Uniform(name), 1, transpose, glm::value_ptr(m));
}
void backlash::Program::SetUniformMatrix4(const GLchar*name, const GLfloat* v, GLsizei count, GLboolean transpose) {
assert(IsInUse());
glUniformMatrix4fv(Uniform(name), count, transpose, v);
}
bool Game_Vehicle::IsAboard() const {
return IsInUse() && Main_Data::game_player->IsAboard();
}
void Program::StopUsing() const
{
assert(IsInUse());
glUseProgram(0);
}
void CUISoundsResource::OnPostInstall(bool update, bool modal)
{
if (IsInUse())
g_audioManager.Load();
}
void Program::setUniform(const GLchar* name, const glm::mat3& m, GLboolean transpose) {
assert(IsInUse());
glUniformMatrix3fv(uniform(name), 1, transpose, glm::value_ptr(m));
}
