void GlobalObject::_LoadTradeConditions(vt_script::ReadScriptDescriptor &script) { if(!script.DoesTableExist("trade_conditions")) return; std::vector<uint32> temp; script.ReadTableKeys("trade_conditions", temp); if(temp.empty()) return; script.OpenTable("trade_conditions"); for(uint32 i = 0; i < temp.size(); ++i) { uint32 key = temp[i]; uint32 quantity = script.ReadInt(key); // Set the trade price if (key == 0) _trade_price = quantity; else // Or the conditions. _trade_conditions.push_back(std::pair<uint32, uint32>(key, quantity)); } script.CloseTable(); // trade_conditions return; }
void GlobalObject::_LoadStatusEffects(vt_script::ReadScriptDescriptor &script) { if(!script.DoesTableExist("status_effects")) return; std::vector<int32> status_effects; script.ReadTableKeys("status_effects", status_effects); if(status_effects.empty()) return; script.OpenTable("status_effects"); for(uint32 i = 0; i < status_effects.size(); ++i) { int32 key = status_effects[i]; if(key <= GLOBAL_STATUS_INVALID || key >= GLOBAL_STATUS_TOTAL) continue; int32 intensity = script.ReadInt(key); // Note: The intensity of a status effect can only be positive if(intensity <= GLOBAL_INTENSITY_INVALID || intensity >= GLOBAL_INTENSITY_TOTAL) continue; _status_effects.push_back(std::pair<GLOBAL_STATUS, GLOBAL_INTENSITY>((GLOBAL_STATUS)key, (GLOBAL_INTENSITY)intensity)); } // Make the effects be always presented in the same order. std::sort(_status_effects.begin(), _status_effects.end(), CompareStatusEffects); script.CloseTable(); // status_effects }
void GlobalObject::_LoadElementalEffects(vt_script::ReadScriptDescriptor &script) { if(!script.DoesTableExist("elemental_effects")) return; std::vector<int32> elemental_effects; script.ReadTableKeys("elemental_effects", elemental_effects); if(elemental_effects.empty()) return; script.OpenTable("elemental_effects"); for(uint32 i = 0; i < elemental_effects.size(); ++i) { int32 key = elemental_effects[i]; if(key <= GLOBAL_ELEMENTAL_INVALID || key >= GLOBAL_ELEMENTAL_TOTAL) continue; int32 intensity = script.ReadInt(key); if(intensity <= GLOBAL_INTENSITY_INVALID || intensity >= GLOBAL_INTENSITY_TOTAL) continue; _elemental_effects.push_back(std::pair<GLOBAL_ELEMENTAL, GLOBAL_INTENSITY>((GLOBAL_ELEMENTAL)key, (GLOBAL_INTENSITY)intensity)); } script.CloseTable(); // elemental_effects }
void GlobalObject::_LoadStatusEffects(vt_script::ReadScriptDescriptor &script) { if(!script.DoesTableExist("status_effects")) return; std::vector<int32> status_effects; script.ReadTableKeys("status_effects", status_effects); if(status_effects.empty()) return; script.OpenTable("status_effects"); for(uint32 i = 0; i < status_effects.size(); ++i) { int32 key = status_effects[i]; if(key <= GLOBAL_STATUS_INVALID || key >= GLOBAL_STATUS_TOTAL) continue; int32 intensity = script.ReadInt(key); // Note: The intensity of a status effect can only be positive if(intensity < GLOBAL_INTENSITY_NEUTRAL || intensity >= GLOBAL_INTENSITY_TOTAL) continue; // Check whether an opposite effect exists. bool effect_replaced = false; for (uint32 j = 0; j < _status_effects.size(); ++j) { GLOBAL_STATUS opposite_effect = GetOppositeStatusEffect((GLOBAL_STATUS) key); if (_status_effects[j].first != opposite_effect) continue; PRINT_WARNING << "The item (id:" << _id << ") has opposing passive status effects." << std::endl; effect_replaced = true; break; } if (effect_replaced) continue; _status_effects.push_back(std::pair<GLOBAL_STATUS, GLOBAL_INTENSITY>((GLOBAL_STATUS)key, (GLOBAL_INTENSITY)intensity)); } script.CloseTable(); // status_effects }