public void PumpToxins(GasMixture to)
        {
            if (!Owner.TryGetComponent(out MetabolismComponent metabolism))
            {
                to.Merge(Air);
                Air.Clear();
                return;
            }

            var toxins = metabolism.Clean(this);
            var toOld  = to.Gases.ToArray();

            to.Merge(toxins);

            for (var i = 0; i < toOld.Length; i++)
            {
                var newAmount = to.GetMoles(i);
                var oldAmount = toOld[i];
                var delta     = newAmount - oldAmount;

                toxins.AdjustMoles(i, -delta);
            }

            Air.Merge(toxins);
        }
示例#2
0
        public void Exhale(float frameTime, GasMixture to)
        {
            // TODO: Make the bloodstream separately pump toxins into the lungs, making the lungs' only job to empty.
            if (Body == null)
            {
                return;
            }

            if (!Body.Owner.TryGetComponent(out BloodstreamComponent? bloodstream))
            {
                return;
            }

            bloodstream.PumpToxins(Air);

            var lungRemoved = Air.RemoveRatio(0.5f);
            var toOld       = to.Gases.ToArray();

            to.Merge(lungRemoved);

            for (var gas = 0; gas < Atmospherics.TotalNumberOfGases; gas++)
            {
                var newAmount = to.GetMoles(gas);
                var oldAmount = toOld[gas];
                var delta     = newAmount - oldAmount;

                lungRemoved.AdjustMoles(gas, -delta);
            }

            Air.Merge(lungRemoved);
        }
示例#3
0
        public async Task TestMerge()
        {
            var server = StartServerDummyTicker();

            server.Assert(() =>
            {
                var a = new GasMixture(10f);
                var b = new GasMixture(10f);

                a.AdjustMoles(Gas.Oxygen, 50);
                b.AdjustMoles(Gas.Nitrogen, 50);

                // a now has 50 moles of oxygen
                Assert.That(a.TotalMoles, Is.EqualTo(50));
                Assert.That(a.GetMoles(Gas.Oxygen), Is.EqualTo(50));

                // b now has 50 moles of nitrogen
                Assert.That(b.TotalMoles, Is.EqualTo(50));
                Assert.That(b.GetMoles(Gas.Nitrogen), Is.EqualTo(50));

                b.Merge(a);

                // b now has its contents and the contents of a
                Assert.That(b.TotalMoles, Is.EqualTo(100));
                Assert.That(b.GetMoles(Gas.Oxygen), Is.EqualTo(50));
                Assert.That(b.GetMoles(Gas.Nitrogen), Is.EqualTo(50));

                // a should be the same, however.
                Assert.That(a.TotalMoles, Is.EqualTo(50));
                Assert.That(a.GetMoles(Gas.Oxygen), Is.EqualTo(50));
            });

            await server.WaitIdleAsync();
        }
        private void OnBeforeUnanchored(EntityUid uid, AtmosUnsafeUnanchorComponent component, BeforeUnanchoredEvent args)
        {
            if (!component.Enabled || !ComponentManager.TryGetComponent(uid, out NodeContainerComponent? nodes))
            {
                return;
            }

            if (!component.Owner.Transform.Coordinates.TryGetTileAtmosphere(out var environment))
            {
                environment = null;
            }

            var environmentPressure    = environment?.Air?.Pressure ?? 0f;
            var environmentVolume      = environment?.Air?.Volume ?? Atmospherics.CellVolume;
            var environmentTemperature = environment?.Air?.Volume ?? Atmospherics.TCMB;

            var lost      = 0f;
            var timesLost = 0;

            foreach (var node in nodes.Nodes.Values)
            {
                if (node is not PipeNode pipe)
                {
                    continue;
                }

                var difference = pipe.Air.Pressure - environmentPressure;
                lost += difference * environmentVolume / (environmentTemperature * Atmospherics.R);
                timesLost++;
            }

            var sharedLoss = lost / timesLost;
            var buffer     = new GasMixture();

            foreach (var node in nodes.Nodes.Values)
            {
                if (node is not PipeNode pipe)
                {
                    continue;
                }

                buffer.Merge(pipe.Air.Remove(sharedLoss));
            }

            environment?.AssumeAir(buffer);
        }
示例#5
0
        public void Transfer(GasMixture from, GasMixture to, float ratio)
        {
            var removed = from.RemoveRatio(ratio);
            var toOld   = to.Gases.ToArray();

            to.Merge(removed);

            for (var gas = 0; gas < Atmospherics.TotalNumberOfGases; gas++)
            {
                var newAmount = to.GetMoles(gas);
                var oldAmount = toOld[gas];
                var delta     = newAmount - oldAmount;

                removed.AdjustMoles(gas, -delta);
            }

            from.Merge(removed);
        }
示例#6
0
        public void Exhale(float frameTime, GasMixture to)
        {
            // TODO: Make the bloodstream separately pump toxins into the lungs, making the lungs' only job to empty.
            if (Body == null)
            {
                return;
            }

            if (!Body.Owner.TryGetComponent(out BloodstreamComponent? bloodstream))
            {
                return;
            }

            bloodstream.PumpToxins(Air);

            var lungRemoved = Air.RemoveRatio(0.5f);

            to.Merge(lungRemoved);
        }
示例#7
0
 public void Transfer(GasMixture from, GasMixture to, float ratio)
 {
     to.Merge(from.RemoveRatio(ratio));
 }
 protected override void VentGas(GasMixture inletGas, GasMixture outletGas)
 {
     outletGas.Merge(inletGas);
     inletGas.Clear();
 }