void parseGroupList(GroupList &list, const editor::ParserGroup &group) { try { list.lightningEnabled = boost::lexical_cast<bool> (group.getValue("lightning_enabled")); list.lightningVariation = boost::lexical_cast<int> (group.getValue("lightning_variation")); list.lightningMin = boost::lexical_cast<int> (group.getValue("lightning_min")); } catch(...) { list.lightningEnabled = false; } parseGroup(list.group[0], group.getSubGroup("VeryLow")); parseGroup(list.group[1], group.getSubGroup("Low")); parseGroup(list.group[2], group.getSubGroup("Medium")); parseGroup(list.group[3], group.getSubGroup("High")); parseGroup(list.group[4], group.getSubGroup("VeryHigh")); }
void DragParticleForce::parseFrom(const editor::ParserGroup& pg) { m_factor = convertFromString<float>(pg.getValue("factor", ""), 0.0f); }
void WindParticleForce::parseFrom(const editor::ParserGroup& pg) { m_wind_effect_factor = convertFromString<float>(pg.getValue("wind_effect_factor", ""), 0.0f); m_spiral_amount = convertFromString<float>(pg.getValue("spiral_amount", ""), 0.0f); m_spiral_speed = convertFromString<float>(pg.getValue("spiral_speed", ""), 0.0f); }
void GravityPointParticleForce::parseFrom(const editor::ParserGroup& pg) { m_gravity = convertFromString<float>(pg.getValue("gravity", ""), 0.0f); m_point = convertVectorFromString(pg.getValue("point", "0,0,0")); }
void SideGravityParticleForce::parseFrom(const editor::ParserGroup& pg) { m_sideGravity = convertFromString<float>(pg.getValue("sidegravity", ""), 0.0f); }