#include "math/dd/dd_pdd.h" namespace dd { class test { public : static void hello_world() { pdd_manager m(3); pdd v0 = m.mk_var(0); pdd v1 = m.mk_var(1); pdd v2 = m.mk_var(2); std::cout << v0 << "\n"; std::cout << v1 << "\n"; std::cout << v2 << "\n"; pdd c1 = v0 * v1 * v2; pdd c2 = v2 * v0 * v1; std::cout << c1 << "\n"; VERIFY(c1 == c2); c1 = v0 + v1 + v2; c2 = v2 + v1 + v0; std::cout << c1 << "\n"; VERIFY(c1 == c2); c1 = (v0+v1) * v2; c2 = (v0*v2) + (v1*v2); std::cout << c1 << "\n"; VERIFY(c1 == c2); c1 = (c1 + 3) + 1; c2 = (c2 + 1) + 3; std::cout << c1 << "\n"; VERIFY(c1 == c2); c1 = v0 - v1; c2 = v1 - v0; std::cout << c1 << " " << c2 << "\n"; c1 = v1*v2; c2 = (v0*v2) + (v2*v2); pdd c3 = m.zero(); VERIFY(m.try_spoly(c1, c2, c3)); std::cout << c1 << " " << c2 << " spoly: " << c3 << "\n"; c1 = v1*v2; c2 = (v0*v2) + (v1*v1); VERIFY(m.try_spoly(c1, c2, c3)); std::cout << c1 << " " << c2 << " spoly: " << c3 << "\n"; c1 = (v0*v1) - (v0*v0); c2 = (v0*v1*(v2 + v0)) + v2; c3 = c2.reduce(c1); std::cout << c1 << " " << c2 << " reduce: " << c3 << "\n"; VERIFY(c3 == c3.reduce(c1)); } static void reduce() { std::cout << "\nreduce\n"; // a(b^2)cd + abc + bcd + bc + cd + 3 reduce by bc pdd_manager m(4); pdd a = m.mk_var(0); pdd b = m.mk_var(1); pdd c = m.mk_var(2); pdd d = m.mk_var(3); pdd e = (a * b * b * c * d) + (2*a*b*c) + (b*c*d) + (b*c) + (c*d) + 3; std::cout << e << "\n"; pdd f = b * c; pdd r_ef = m.reduce(e, f); m.display(std::cout); std::cout << "result of reduce " << e << " by " << f << " is " << r_ef << "\n"; VERIFY(r_ef == (c*d) + 3); pdd r_fe = m.reduce(f, e); std::cout << "result of reduce " << f << " by " << e << " is " << r_fe << "\n" ; VERIFY(r_fe == f); // test that b*c*d is treated as the leading monomial f = b*c*d - d*d; r_ef = m.reduce(e, f); std::cout << "result of reduce " << e << " by " << f << " is " << r_ef << "\n"; VERIFY(r_ef == (a*b*d*d) + (2*a*b*c) + (d*d) + (b*c) + (c*d) + 3); pdd k = d*d + 3*b; VERIFY(m.reduce(f, k) == b*c*d + 3*b); } static void large_product() { std::cout << "\nlarge_product\n"; pdd_manager m(4); pdd a = m.mk_var(0); pdd b = m.mk_var(1); pdd c = m.mk_var(2); pdd d = m.mk_var(3); pdd e = a + c; for (unsigned i = 0; i < 5; i++) { e = e * e; } e = e * b; std::cout << e << "\n"; } static void reset() { std::cout << "\ntest reset\n"; pdd_manager m(4); pdd a = m.mk_var(0); pdd b = m.mk_var(1); pdd c = m.mk_var(2); pdd d = m.mk_var(3); std::cout << (a + b)*(c + d) << "\n"; unsigned_vector l2v; for (unsigned i = 0; i < 4; ++i) l2v.push_back(3 - i); m.reset(l2v); a = m.mk_var(0); b = m.mk_var(1); c = m.mk_var(2); d = m.mk_var(3); std::cout << (a + b)*(c + d) << "\n"; } static void canonize() { std::cout << "\ncanonize\n"; pdd_manager m(2); pdd a = m.mk_var(0); pdd b = m.mk_var(1); pdd e = (a - b) * ( a + b); pdd f = a * a - b * b; VERIFY(e == f); e = (a - b)* (a - b); f = a * a - 2 * a * b + b * b; VERIFY(e == f); e = a - 3; e = e * e; f = a * a - 6 * a + 9; VERIFY(e == f); e = 2 * a - 3; e = e * e; f = 4 * a * a - 12 * a + 9; VERIFY(e == f); } static void iterator() { std::cout << "test iterator\n"; pdd_manager m(4); pdd a = m.mk_var(0); pdd b = m.mk_var(1); pdd c = m.mk_var(2); pdd d = m.mk_var(3); pdd p = (a + b)*(c + 3*d) + 2; std::cout << p << "\n"; for (auto const& m : p) { std::cout << m << "\n"; } } static void order() { std::cout << "order\n"; pdd_manager m(4); unsigned va = 0; unsigned vb = 1; unsigned vc = 2; unsigned vd = 3; pdd a = m.mk_var(va); pdd b = m.mk_var(vb); pdd c = m.mk_var(vc); pdd d = m.mk_var(vd); pdd p = a + b; std::cout << p << "\n"; unsigned i = 0; for (auto const& m : p) { std::cout << m << "\n"; VERIFY(i != 0 ||( m.vars.size() == 1 && m.vars[0] == vb)); VERIFY(i != 1 ||( m.vars.size() == 1 && m.vars[0] == va)); i++; } pdd ccbbaa = c*c*b*b*a*a; pdd ccbbba = c*c*b*b*b*a; p = ccbbaa + ccbbba; i = 0; std::cout << "p = " << p << "\n"; for (auto const& m : p) { std::cout << m << "\n"; VERIFY(i != 0 ||( m.vars.size() == 6 && m.vars[4] == vb)); // the first one has to be ccbbba VERIFY(i != 1 ||( m.vars.size() == 6 && m.vars[4] == va)); // the second one has to be ccbbaa i++; } pdd dcbba = d*c*b*b*a; pdd dd = d * d; p = dcbba + ccbbba + dd; vector v; std::cout << "p = " << p << "\n"; unsigned k = p.index(); std::cout << "pdd(k) = " << pdd(k, m) << "\n"; k = m.first_leading(k); do { if (m.is_val(k)) { VERIFY(m.val(k).is_one()); break; } v.push_back(m.var(k)); std::cout << "pdd(k) = " << pdd(k, m) << "\n"; std::cout << "push v" << m.var(k) << "\n"; k = m.next_leading(k); } while(true); auto it = v.begin(); std::cout << "v" << *it; it++; for( ; it != v.end(); it ++) { std::cout << "*v" << *it; } VERIFY(v.size() == 6); VERIFY(v[0] == vc); std::cout << "\n"; v.reset(); p = d*c*c*d + b*c*c*b + d*d*d; k = p.index(); std::cout << "pdd(k) = " << pdd(k, m) << "\n"; k = m.first_leading(k); do { if (m.is_val(k)) { VERIFY(m.val(k).is_one()); break; } v.push_back(m.var(k)); std::cout << "pdd(k) = " << pdd(k, m) << "\n"; std::cout << "push v" << m.var(k) << "\n"; k = m.next_leading(k); } while(true); it = v.begin(); std::cout << "v" << *it; it++; for( ; it != v.end(); it ++) { std::cout << "*v" << *it; } VERIFY(v.size() == 4); VERIFY(v[0] == vd); std::cout << "\n"; } static void order_lm() { std::cout << "order_lm\n"; pdd_manager m(4); unsigned va = 0; unsigned vb = 1; unsigned vc = 2; unsigned vd = 3; pdd a = m.mk_var(va); pdd b = m.mk_var(vb); pdd c = m.mk_var(vc); pdd d = m.mk_var(vd); pdd p = a + b; std::cout << p << "\n"; unsigned i = 0; for (auto const& m : p) { std::cout << m << "\n"; VERIFY(i != 0 ||( m.vars.size() == 1 && m.vars[0] == vb)); VERIFY(i != 1 ||( m.vars.size() == 1 && m.vars[0] == va)); i++; } pdd ccbbaa = c*c*b*b*a*a; pdd ccbbba = c*c*b*b*b*a; p = ccbbaa + ccbbba; i = 0; std::cout << "p = " << p << "\n"; for (auto const& m : p) { std::cout << m << "\n"; VERIFY(i != 0 ||( m.vars.size() == 6 && m.vars[4] == vb)); // the first one has to be ccbbba VERIFY(i != 1 ||( m.vars.size() == 6 && m.vars[4] == va)); // the second one has to be ccbbaa i++; } pdd dcbba = d*c*b*b*a; pdd dd = d * d; pdd p0 = p + dd; std::cout << p0 << " > " << p << "\n"; VERIFY(m.lm_lt(p, p0)); VERIFY(m.lm_lt(p0 + a * b, p0 + b * b)); } /** * Test polynomials mod 2^2 */ static void mod4_operations() { std::cout << "operations mod4\n"; pdd_manager m(4, pdd_manager::mod2N_e, 2); unsigned va = 0; unsigned vb = 1; unsigned vc = 2; unsigned vd = 3; pdd a = m.mk_var(va); pdd b = m.mk_var(vb); pdd c = m.mk_var(vc); pdd d = m.mk_var(vd); pdd p = a - b; std::cout << p << "\n"; // should be reduced to 0: p = a*a*(a*a - 1); std::cout << p << "\n"; vector> sub0, sub1, sub2, sub3; sub0.push_back(std::make_pair(va, rational(0))); sub1.push_back(std::make_pair(va, rational(1))); sub2.push_back(std::make_pair(va, rational(2))); sub3.push_back(std::make_pair(va, rational(3))); std::cout << "sub 0 " << p.subst_val(sub0) << "\n"; std::cout << "sub 1 " << p.subst_val(sub1) << "\n"; std::cout << "sub 2 " << p.subst_val(sub2) << "\n"; std::cout << "sub 3 " << p.subst_val(sub3) << "\n"; std::cout << "expect 1 " << (2*a + 1).is_non_zero() << "\n"; std::cout << "expect 1 " << (2*a*b + 2*b + 1).is_non_zero() << "\n"; std::cout << "expect 0 " << (2*a + 2).is_non_zero() << "\n"; SASSERT((2*a + 1).is_non_zero()); SASSERT((2*a + 2*b + 1).is_non_zero()); SASSERT(!(2*a*b + 3*b + 2).is_non_zero()); } }; } void tst_pdd() { dd::test::hello_world(); dd::test::reduce(); dd::test::large_product(); dd::test::canonize(); dd::test::reset(); dd::test::iterator(); dd::test::order(); dd::test::order_lm(); dd::test::mod4_operations(); }