Planet::Planet(PlanetType type, PlanetSize size) :
UniverseObject(),
PopCenter(),
ResourceCenter(),
m_type(type),
m_original_type(type),
m_size(size),
m_orbital_period(1.0f),
m_initial_orbital_position(RandZeroToOne() * 2 * 3.14159f),
m_rotational_period(1.0f),
m_axial_tilt(RandZeroToOne() * HIGH_TILT_THERESHOLD),
m_just_conquered(false),
m_is_about_to_be_colonized(false),
m_is_about_to_be_invaded(false),
m_is_about_to_be_bombarded(false),
m_ordered_given_to_empire_id(ALL_EMPIRES),
m_last_turn_attacked_by_ship(-1),
m_surface_texture()
{
//DebugLogger() << "Planet::Planet(" << type << ", " << size <<")";
UniverseObject::Init();
PopCenter::Init();
ResourceCenter::Init();
Planet::Init();
const double SPIN_STD_DEV = 0.1;
const double REVERSE_SPIN_CHANCE = 0.06;
m_rotational_period = RandGaussian(1.0, SPIN_STD_DEV) / SizeRotationFactor(m_size);
if (RandZeroToOne() < REVERSE_SPIN_CHANCE)
m_rotational_period = -m_rotational_period;
}
Planet::Planet(PlanetType type, PlanetSize size) :
UniverseObject(),
PopCenter(),
ResourceCenter(),
m_type(type),
m_size(size),
m_orbital_period(1.0),
m_initial_orbital_position(RandZeroToOne() * 2 * 3.14159),
m_rotational_period(1.0),
m_axial_tilt(RandZeroToOne() * HIGH_TILT_THERSHOLD),
m_available_trade(0.0),
m_just_conquered(false),
m_is_about_to_be_colonized(false),
m_is_about_to_be_invaded(false),
m_last_turn_attacked_by_ship(-1)
{
//Logger().debugStream() << "Planet::Planet(" << type << ", " << size <<")";
UniverseObject::Init();
PopCenter::Init();
ResourceCenter::Init();
Planet::Init();
SetType(type);
SetSize(size);
const double SPIN_STD_DEV = 0.1;
const double REVERSE_SPIN_CHANCE = 0.01;
m_rotational_period = RandGaussian(1.0, SPIN_STD_DEV) / SizeRotationFactor(m_size);
if (RandZeroToOne() < REVERSE_SPIN_CHANCE)
m_rotational_period = -m_rotational_period;
}
void InitEmpires(const std::map<int, PlayerSetupData>& player_setup_data)
{
DebugLogger() << "Initializing " << player_setup_data.size() << " empires";
// copy empire colour table, so that individual colours can be removed after they're used
std::vector<GG::Clr> colors = EmpireColors();
// create empire objects and do some basic initilization for each player
int player_i = 0;
for (std::map<int, PlayerSetupData>::const_iterator setup_data_it = player_setup_data.begin();
setup_data_it != player_setup_data.end(); ++setup_data_it, ++player_i)
{
int player_id = setup_data_it->first;
if (player_id == Networking::INVALID_PLAYER_ID)
ErrorLogger() << "InitEmpires player id (" << player_id << ") is invalid";
// use player ID for empire ID so that the calling code can get the
// correct empire for each player ID in player_setup_data
int empire_id = player_id;
std::string player_name = setup_data_it->second.m_player_name;
GG::Clr empire_colour = setup_data_it->second.m_empire_color;
// validate or generate empire colour
// ensure no other empire gets auto-assigned this colour automatically
std::vector<GG::Clr>::iterator color_it = std::find(colors.begin(), colors.end(), empire_colour);
if (color_it != colors.end())
colors.erase(color_it);
// if no colour already set, do so automatically
if (empire_colour == GG::Clr(0, 0, 0, 0)) {
if (!colors.empty()) {
// take next colour from list
empire_colour = colors[0];
colors.erase(colors.begin());
} else {
// as a last resort, make up a colour
empire_colour = GG::FloatClr(static_cast<float>(RandZeroToOne()), static_cast<float>(RandZeroToOne()),
static_cast<float>(RandZeroToOne()), 1.0f);
}
}
// set generic default empire name
std::string empire_name = UserString("EMPIRE") + boost::lexical_cast<std::string>(empire_id);
DebugLogger() << "Universe::InitEmpires creating new empire" << " with ID: " << empire_id
<< " for player: " << player_name << " (with player id: " << player_id << ")";
// create new Empire object through empire manager
Empires().CreateEmpire(empire_id, empire_name, player_name, empire_colour);
}
Empires().ResetDiplomacy();
}
Planet::Planet(PlanetType type, PlanetSize size) :
m_type(type),
m_original_type(type),
m_size(size),
m_initial_orbital_position(RandZeroToOne() * 2 * 3.14159f),
m_axial_tilt(RandZeroToOne() * HIGH_TILT_THERESHOLD)
{
//DebugLogger() << "Planet::Planet(" << type << ", " << size <<")";
UniverseObject::Init();
PopCenter::Init();
ResourceCenter::Init();
Planet::Init();
const double SPIN_STD_DEV = 0.1;
const double REVERSE_SPIN_CHANCE = 0.06;
m_rotational_period = RandGaussian(1.0, SPIN_STD_DEV) / SizeRotationFactor(m_size);
if (RandZeroToOne() < REVERSE_SPIN_CHANCE)
m_rotational_period = -m_rotational_period;
}
void SetNativePopulationValues(ObjectMap& object_map) {
for (ObjectMap::iterator<> it = object_map.begin(); it != object_map.end(); ++it) {
Meter* meter = it->GetMeter(METER_POPULATION);
Meter* targetmax_meter = it->GetMeter(METER_TARGET_POPULATION);
// only applies to unowned planets
if (meter && targetmax_meter && it->Unowned()) {
double r = RandZeroToOne();
double factor = (0.1 < r) ? r : 0.1;
meter->SetCurrent(targetmax_meter->Current() * factor);
}
}
}
void Planet::SetHighAxialTilt() {
const double MAX_TILT = 90.0;
m_axial_tilt = HIGH_TILT_THERESHOLD + RandZeroToOne() * (MAX_TILT - HIGH_TILT_THERESHOLD);
}
