return 0.0;
}
+double Composition::Proportion(int res) const noexcept {
+ return Get(res) / TotalMass();
+}
+
+double Composition::Compatibility(const world::Set<world::Resource> &resources, int res) const noexcept {
+ if (Has(res)) {
+ return Proportion(res);
+ }
+ double max_compat = -1.0;
+ double min_compat = 1.0;
+ for (const auto &c : components) {
+ double prop = c.value / TotalMass();
+ for (const auto &compat : resources[c.resource].compatibility) {
+ double value = compat.second * prop;
+ if (value > max_compat) {
+ max_compat = value;
+ }
+ if (value < min_compat) {
+ min_compat = value;
+ }
+ }
+ }
+ if (min_compat < 0.0) {
+ return min_compat;
+ } else {
+ return max_compat;
+ }
+}
+
Creature::Creature(world::Simulation &sim)
: sim(sim)
}
void Creature::Ingest(int res, double amount) noexcept {
- // TODO: check foreign materials
if (sim.Resources()[res].state == world::Resource::SOLID) {
- // 15% of solids stays in body
- AddMass(res, amount * 0.15);
+ // 30% of solids stays in body
+ AddMass(res, amount * 0.3 * composition.Compatibility(sim.Resources(), res));
} else {
// 10% of fluids stays in body
- AddMass(res, amount * 0.05);
+ AddMass(res, amount * 0.1 * composition.Compatibility(sim.Resources(), res));
}
math::GaloisLFSR &random = sim.Assets().random;
if (random.UNorm() < AdaptChance()) {
}
double Creature::Age() const noexcept {
- return sim.Time() - birth;
+ return Dead() ? death - birth : sim.Time() - birth;
}
double Creature::AgeFactor(double peak) const noexcept {
return properties.Strength() * ExhaustionFactor() * AgeFactor(0.25);
}
+double Creature::StrengthFactor() const noexcept {
+ return Strength() / (Strength() + 1.0);
+}
+
double Creature::Stamina() const noexcept {
return properties.Stamina() * ExhaustionFactor() * AgeFactor(0.25);
}
+double Creature::StaminaFactor() const noexcept {
+ return Stamina() / (Stamina() + 1.0);
+}
+
double Creature::Dexerty() const noexcept {
return properties.Dexerty() * ExhaustionFactor() * AgeFactor(0.25);
}
+double Creature::DexertyFactor() const noexcept {
+ return Dexerty() / (Dexerty() + 1.0);
+}
+
double Creature::Intelligence() const noexcept {
return properties.Intelligence() * FatigueFactor() * AgeFactor(0.25);
}
+double Creature::IntelligenceFactor() const noexcept {
+ return Intelligence() / (Intelligence() + 1.0);
+}
+
double Creature::Lifetime() const noexcept {
return properties.Lifetime();
}
}
double Creature::PerceptionRange() const noexcept {
- return 3.0 * (Dexerty() / (Dexerty() + 1)) + Size();
+ return 3.0 * DexertyFactor() + Size();
}
double Creature::PerceptionOmniRange() const noexcept {
- return 0.5 * (Dexerty() / (Dexerty() + 1)) + Size();
+ return 0.5 * DexertyFactor() + Size();
}
double Creature::PerceptionField() const noexcept {
// this is the cosine of half the angle, so 1.0 is none, -1.0 is perfect
- return 0.8 - (Dexerty() / (Dexerty() + 1));
+ return 0.8 - DexertyFactor();
}
bool Creature::PerceptionTest(const glm::dvec3 &p) const noexcept {
// TODO: duplicate situation somehow
a->GetSituation().SetPlanetSurface(
s.GetPlanet(),
- s.Position() + glm::dvec3(0.0, 0.55 * a->Size(), 0.0));
+ s.Position() + glm::rotate(s.Heading() * a->Size() * 0.6, PI * 0.5, s.SurfaceNormal()));
a->BuildVAO();
c.GetSimulation().Log() << a->Name() << " was born" << std::endl;
s.GetPlanet().AddCreature(b);
b->GetSituation().SetPlanetSurface(
s.GetPlanet(),
- s.Position() - glm::dvec3(0.0, 0.55 * b->Size(), 0.0));
+ s.Position() + glm::rotate(s.Heading() * b->Size() * 0.6, PI * -0.5, s.SurfaceNormal()));
b->BuildVAO();
c.GetSimulation().Log() << b->Name() << " was born" << std::endl;
known_types.clear();
}
+bool Memory::RememberLocation(const Composition &accept, glm::dvec3 &pos) const noexcept {
+ double best_rating = -1.0;
+ for (const auto &k : known_types) {
+ const world::TileType &t = c.GetSimulation().TileTypes()[k.first];
+ auto entry = t.FindBestResource(accept);
+ if (entry != t.resources.end()) {
+ double rating = entry->ubiquity / std::max(0.125, 0.25 * glm::length2(c.GetSituation().Position() - k.second.first_loc.position));
+ if (rating > best_rating) {
+ best_rating = rating;
+ pos = k.second.first_loc.position;
+ }
+ rating = entry->ubiquity / std::max(0.125, 0.25 * glm::length2(c.GetSituation().Position() - k.second.last_loc.position));
+ if (rating > best_rating) {
+ best_rating = rating;
+ pos = k.second.last_loc.position;
+ }
+ }
+ }
+ if (best_rating > 0.0) {
+ glm::dvec3 error(
+ c.GetSimulation().Assets().random.SNorm(),
+ c.GetSimulation().Assets().random.SNorm(),
+ c.GetSimulation().Assets().random.SNorm());
+ pos += error * (2.0 * (1.0 - c.IntelligenceFactor()));
+ pos = glm::normalize(pos) * c.GetSituation().GetPlanet().Radius();
+ return true;
+ } else {
+ return false;
+ }
+}
+
void Memory::Tick(double dt) {
Situation &s = c.GetSituation();
if (s.OnSurface()) {
TrackStay({ &s.GetPlanet(), s.Position() }, dt);
}
+ // TODO: forget
}
void Memory::TrackStay(const Location &l, double t) {
return type == PLANET_SURFACE;
}
+glm::dvec3 Situation::SurfaceNormal() const noexcept {
+ return planet->NormalAt(state.pos);
+}
+
world::Tile &Situation::GetTile() const noexcept {
return planet->TileAt(state.pos);
}
result += repulse;
}
if (halting) {
- // break twice as hard
- result += -2.0 * s.vel * force;
+ // brake hard
+ result += -5.0 * s.vel * force;
}
if (seeking) {
glm::dvec3 diff = target - s.pos;
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