import Modules.default.SmartAtomDimensions
import Modules.default.PeriodicTable
module SmartAtoms:
→→new PublicFunction setOrbital(Electron e, String o):
→→→→new Array e.OrbitalRange.x = getVar("SmartAtomDimensions." + o + ".x");
→→→→new Array e.OrbitalRange.y = getVar("SmartAtomDimensions." + o + ".y");
→→→→new Array e.OrbitalRange.z = getVar("SmartAtomDimensions." + o + ".z");
→→new Function orbit(Electron e):
→→→→new Int posI = randomInt(0, e.OrbitalRange.length - 1);
→→→→new Array x = e.OrbitalRange.x;
→→→→new Array y = e.OrbitalRange.y;
→→→→new Array z = e.OrbitalRange.z;
→→→→e.setPos(x[posI], y[posI], z[posI]);
→→new Class Hadron(Quark q1, Quark q2, Quark q3):
→→→→new Property charge(Type = Double);
→→→→new Property pos(Type = Vec3);
→→→→self = object.applyGluons(q1,q2,q3);
→→→→charge = q1.charge + q2.charge + q3.charge;
→→new Class Proton() in Hadron():
→→→→Hadron.q1.type=up;
→→→→Hadron.q2.type=up;
→→→→Hadron.q3.type=down;
→→new Class Neuton() in Hadron():
→→→→Hadron.q1.type=up;
→→→→Hadron.q2.type=down;
→→→→Hadron.q3.type=down;
→→new Class Atom(String atomicName, Int atomicNumber, Int isotope):
→→new Property Nucleus(Type = ParticleArray);
→→new Property charge(Type = Int);
→→new Property pos(Type = Vec3);
→→if (atomicNumber = null):
→→→→atomicNumber = PeriodicTable.All[1][indexOf(atomicNumber,PeriodicTable.All[0])];
→→Nucleus.addMultiple(new Proton(), atomicNumber);
→→Nucleus.addMultiple(new Proton(), isotope - atomicNumber);
→→Nucleus.relPos = pos;
→→Nucleus.addMultiple(new Electron ei, atomicNumber);
→→repeat infinity:
→→orbit(e);
import Modules.default.PeriodicTable
module SmartAtoms:
→→new PublicFunction setOrbital(Electron e, String o):
→→→→new Array e.OrbitalRange.x = getVar("SmartAtomDimensions." + o + ".x");
→→→→new Array e.OrbitalRange.y = getVar("SmartAtomDimensions." + o + ".y");
→→→→new Array e.OrbitalRange.z = getVar("SmartAtomDimensions." + o + ".z");
→→new Function orbit(Electron e):
→→→→new Int posI = randomInt(0, e.OrbitalRange.length - 1);
→→→→new Array x = e.OrbitalRange.x;
→→→→new Array y = e.OrbitalRange.y;
→→→→new Array z = e.OrbitalRange.z;
→→→→e.setPos(x[posI], y[posI], z[posI]);
→→new Class Hadron(Quark q1, Quark q2, Quark q3):
→→→→new Property charge(Type = Double);
→→→→new Property pos(Type = Vec3);
→→→→self = object.applyGluons(q1,q2,q3);
→→→→charge = q1.charge + q2.charge + q3.charge;
→→new Class Proton() in Hadron():
→→→→Hadron.q1.type=up;
→→→→Hadron.q2.type=up;
→→→→Hadron.q3.type=down;
→→new Class Neuton() in Hadron():
→→→→Hadron.q1.type=up;
→→→→Hadron.q2.type=down;
→→→→Hadron.q3.type=down;
→→new Class Atom(String atomicName, Int atomicNumber, Int isotope):
→→new Property Nucleus(Type = ParticleArray);
→→new Property charge(Type = Int);
→→new Property pos(Type = Vec3);
→→if (atomicNumber = null):
→→→→atomicNumber = PeriodicTable.All[1][indexOf(atomicNumber,PeriodicTable.All[0])];
→→Nucleus.addMultiple(new Proton(), atomicNumber);
→→Nucleus.addMultiple(new Proton(), isotope - atomicNumber);
→→Nucleus.relPos = pos;
→→Nucleus.addMultiple(new Electron ei, atomicNumber);
→→repeat infinity:
→→orbit(e);