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- // -*- mode: c++; coding: utf-8 -*-
- // ra-ra/examples - Newton — Orbits
- // After Chaitin1986, p. 14. Attempt at straight translation from APL.
- // (c) Daniel Llorens - 2016
- // This library is free software; you can redistribute it and/or modify it under
- // the terms of the GNU Lesser General Public License as published by the Free
- // Software Foundation; either version 3 of the License, or (at your option) any
- // later version.
- #include <iostream>
- #include <chrono>
- #include <thread>
- #include "ra/ra.hh"
- using real = double;
- using real3 = ra::Small<real, 3>;
- using int3 = ra::Small<int, 3>;
- template <class T, int rank> using array = ra::Big<T, rank>;
- int main()
- {
- constexpr real G = 6.674e-11;
- real delta = 50;
- int bodies = 2;
- array<real, 1> m = { 6.e24, 10. };
- array<char, 1> c = { 'E', '*' };
- array<real, 2> x({bodies, 3}, { 0, 0, 0, 1e7, 0, 0 });
- array<real, 2> v({bodies, 3}, { 0, 0, 0, 0, 6e3, 0 });
- auto force = [&m, &x](int i, int j) -> real3
- {
- if (i==j) {
- return 0.;
- } else {
- real3 deltax = x(j)-x(i);
- return deltax*(G*m(i)*m(j) / pow(sum(deltax*deltax), 3/2.));
- }
- };
- array<char, 2> orbit({50, 50}, ' ');
- auto draw = [&orbit, &c](auto && x, auto && t)
- {
- auto mapc = [](real x) { return clamp(int(round(25+x/5e5)), 0, 49); };
- // 1. TODO we still can't use iter<1> on an ET.
- array<int, 2> xi = map(mapc, x);
- at(orbit, iter<1>(xi(ra::all, ra::iota(2)))) = c;
- // 2. alternative w/o temps
- for_each([&orbit, &mapc] (auto && x, auto && c) { orbit(mapc(x(0)), mapc(x(1))) = c; },
- iter<1>(x), c);
- std::cout << "TIME IN HOURS " << (t/3600.) << " " << ra::noshape << format_array(orbit, "") << "\n";
- };
- real t = 0;
- array<real, 3> F({bodies, bodies, 3}, 0.);
- array<real, 2> a({bodies, 3}, 0.);
- for (int step=1; step<(12*15); ++step, t+=delta) {
- // RHS is rank 2 so we need to match on LHS. Either of these works, but the second needs a compact last axis.
- // TODO ideally [F = from(force, ra::iota(2), ra::iota(2));] would work #nestedarrays
- // for_each([](auto && x, auto && y) { x = y; }, iter<1>(F), from(force, ra::iota(2), ra::iota(2)));
- ra::explode<real3>(F) = from(force, ra::iota(bodies), ra::iota(bodies));
- // match axes a[0, 1] with F[0, 2]; accumulate on F[1]. TODO proper reductions.
- a = 0.;
- a += transpose<0, 2, 1>(F) / m;
- v += a*delta;
- x += v*delta;
- draw(x, t);
- std::this_thread::sleep_for(std::chrono::milliseconds(5));
- }
- return 0;
- }
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