void DeleteSlotTest() { ///// { ConstraintModel model {id_type<ConstraintModel>{0}, id_type<AbstractConstraintViewModel>{0}, this}; auto content_id = getStrongId(model.rackes()); model.createRack(content_id); auto rack = model.rack(content_id); auto slot_id = getStrongId(rack->getSlots()); rack->addSlot(new SlotModel { slot_id, rack }); rack->removeSlot(slot_id); model.removeRack(content_id); } ////// { ConstraintModel model {id_type<ConstraintModel>{0}, id_type<AbstractConstraintViewModel>{0}, this }; auto content_id = getStrongId(model.rackes()); model.createRack(content_id); auto rack = model.rack(content_id); rack->addSlot(new SlotModel { getStrongId(rack->getSlots()), rack }); rack->addSlot(new SlotModel { getStrongId(rack->getSlots()), rack }); rack->addSlot(new SlotModel { getStrongId(rack->getSlots()), rack }); model.removeRack(content_id); } }
StateChunk *ChunkMaterial::find(const FieldContainerType &type, Int32 slot) const { UInt32 index = 0; for(UInt32 i = 0; i < _mfChunks.size(); ++i) { StateChunk *p = _mfChunks[i]; Int32 s = State::AutoSlotReplace; if(i < getMFSlots()->size()) s = getSlots(i); if(s == State::AutoSlotReplace) s = index; if(p->getType() == type) { if(slot == State::AutoSlotReplace || slot == s) return (p); ++index; } } return NULL; }
block_id StorageManager::createBlock(const CatalogRelation &relation, const StorageBlockLayout *layout) { if (layout == NULL) { layout = &(relation.getDefaultStorageBlockLayout()); } size_t num_slots = layout->getDescription().num_slots(); DEBUG_ASSERT(num_slots > 0); size_t slot_index = getSlots(num_slots); void *new_block_mem = getSlotAddress(slot_index); ++block_index_; BlockHandle new_block_handle; new_block_handle.slot_index_low = slot_index; new_block_handle.slot_index_high = slot_index + num_slots; new_block_handle.block = new StorageBlock(relation, block_index_, *layout, true, new_block_mem, kSlotSizeBytes * num_slots); blocks_[block_index_] = new_block_handle; return block_index_; }
int Inventory::getFreeSlot() { for (int i = 0; i < getSlots(); i++) { if(storedItems[i] == nullptr) return i; } return -1; }
void QSAEditor::completeQMetaObject( const QMetaObject *meta, const QString &, QVector<CompletionEntry> &res, int flags, QSObject &obj ) { QMap<QString, bool> propMap; bool includeSuperClass = (flags & IncludeSuperClass) == IncludeSuperClass; // properties const QMetaObject *m = meta; int num = m->propertyCount(); for ( int j = 0; j < num; ++j ) { const QMetaProperty mp = m->property( j ); if ( propMap.find( QString::fromLatin1(mp.name()) ) != propMap.end() ) continue; CompletionEntry c; propMap[QLatin1String(mp.name())] = false; c.type = QLatin1String("property"); c.text = mp.name(); c.prefix = QString(); c.postfix2 = mp.typeName(); QuickInterpreter::cleanType( c.postfix2 ); if ( !c.postfix2.isEmpty() ) c.postfix2.prepend( QLatin1String(" : ") ); res.append( c ); } if ( includeSuperClass && obj.isValid() && !obj.isUndefined() ) { QStringList vars = interpreter()->variablesOf( obj, true ); QStringList::iterator it; for ( it = vars.begin(); it != vars.end(); ++it ) { CompletionEntry c; c.type = QLatin1String("variable"); c.text = *it; c.prefix = QString(); c.postfix2 = QString(); res << c; } } // functions QList<Property> lst; QList<Property>::Iterator pit; getSlots( meta, lst, includeSuperClass, false, false ); for ( pit = lst.begin(); pit != lst.end(); ++pit ) { CompletionEntry c; c.type = QLatin1String("function"); c.text = (*pit).name; c.postfix = QLatin1String("()"); c.postfix2 = (*pit).type; if ( !c.postfix2.isEmpty() ) c.postfix2.prepend( QString::fromLatin1(" : ") ); res << c; } if ( includeSuperClass && obj.isValid() && !obj.isUndefined() ) { QStringList funcs = interpreter()->functionsOf( obj, true, true, true ); QStringList::Iterator it; for ( it = funcs.begin(); it != funcs.end(); ++it ) { CompletionEntry c; c.type = QLatin1String("function"); c.text = *it; c.prefix = QString(); c.postfix2 = QString(); res << c; } } // enum values m = meta; for (int k=0; k<m->enumeratorCount(); ++k) { QMetaEnum me = m->enumerator(k); for (int l=0; l<me.keyCount(); ++l) { CompletionEntry c; c.type = QLatin1String("enum"); c.text = QLatin1String(me.key(l)); c.prefix = QString(); c.postfix2 = QLatin1String(me.name()); if (!c.postfix2.isEmpty()) c.postfix2.prepend( QString::fromLatin1(" : ") ); res << c; } } if ( includeSuperClass && obj.isValid() && !obj.isUndefined() ) { QStringList classes = interpreter()->classesOf( obj ); QStringList::Iterator it; for ( it = classes.begin(); it != classes.end(); ++it ) { CompletionEntry c; c.type = QLatin1String("class"); c.text = *it; c.prefix = QString(); c.postfix2 = QString(); res << c; } } }
string SearchResult::getSlotString() const { return Util::toString(getFreeSlots()) + '/' + Util::toString(getSlots()); }
string SearchResultInfo::getSlotStr() const noexcept { int free = 0, total = 0; getSlots(free, total); return Util::toString(free) + '/' + Util::toString(total); }