@Override public IExpr evaluate(final IAST lst) { if (lst.size() >= 3) { try { if (lst.get(1).isVector() < 0) { return null; } if (lst.get(2).isVector() < 0) { return null; } if (lst.size() == 3) { IAST vars = (IAST) lst.get(2); if (vars.size() <= 1) { return null; } List<ISymbol> varList = new ArrayList<ISymbol>(vars.size() - 1); String[] pvars = new String[vars.size() - 1]; for (int i = 1; i < vars.size(); i++) { if (!vars.get(i).isSymbol()) { return null; } varList.add((ISymbol) vars.get(i)); pvars[i - 1] = ((ISymbol) vars.get(i)).toString(); } GroebnerBasePartial<BigRational> gbp = new GroebnerBasePartial<BigRational>(); IAST polys = (IAST) lst.get(1); List<GenPolynomial<BigRational>> polyList = new ArrayList<GenPolynomial<BigRational>>(polys.size() - 1); JASConvert<BigRational> jas = new JASConvert<BigRational>(varList, BigRational.ZERO); for (int i = 1; i < polys.size(); i++) { IExpr expr = F.evalExpandAll(polys.get(i)); GenPolynomial<BigRational> poly = jas.expr2JAS(expr); polyList.add(poly); } OptimizedPolynomialList<BigRational> opl = gbp.partialGB(polyList, pvars); // System.out.println(opl); IAST resultList = F.List(); for (GenPolynomial<BigRational> p : opl.list) { // System.out.println(p); resultList.add(jas.poly2Expr(p, null)); } return resultList; } } catch (JASConversionException e) { if (Config.SHOW_STACKTRACE) { e.printStackTrace(); } } } return null; }
@Override public IExpr evaluate(final IAST ast) { if (ast.size() != 2) { return null; } IExpr temp = roots(ast, true); if (temp == null || !temp.isList()) { return null; } IAST list = (IAST) temp; IAST result = F.List(); for (int i = 1; i < list.size(); i++) { result.add(F.evaln(list.get(i))); } return result; }
@Override public IExpr evaluate(final IAST ast) { Validate.checkRange(ast, 3); if (ast.size() == 3 && ast.get(2).isList() && ((IAST) ast.get(2)).size() == 4) { IAST list = (IAST) ast.get(2); if (ast.get(1).isPlus()) { return ((IAST) ast.get(1)).map(Functors.replace1st(F.Sum(F.Null, ast.get(2)))); } if (list.get(1).isSymbol() && list.get(2).isInteger() && list.get(3).isSymbol()) { final ISymbol var = (ISymbol) list.get(1); final IInteger from = (IInteger) list.get(2); final ISymbol to = (ISymbol) list.get(3); if (ast.get(1).isFree(var, true) && ast.get(1).isFree(to, true)) { if (from.equals(F.C1)) { return F.Times(to, ast.get(1)); } if (from.equals(F.C0)) { return F.Times(Plus(to, C1), ast.get(1)); } } else { if (ast.get(1).isTimes()) { // Sum[ Times[a,b,c,...], {var, from, to} ] IAST filterCollector = F.Times(); IAST restCollector = F.Times(); ((IAST) ast.get(1)) .filter( filterCollector, restCollector, new Predicate<IExpr>() { @Override public boolean apply(IExpr input) { return input.isFree(var, true) && input.isFree(to, true); } }); if (filterCollector.size() > 1) { if (restCollector.size() == 2) { filterCollector.add(F.Sum(restCollector.get(1), ast.get(2))); } else { filterCollector.add(F.Sum(restCollector, ast.get(2))); } return filterCollector; } } if (from.equals(F.C0)) { IExpr repl = ast.get(1).replaceAll(F.List(F.Rule(var, F.Slot(F.C1)), F.Rule(to, F.Slot(F.C2)))); if (repl != null) { IExpr temp = MAP_0_N.get(repl); if (temp != null) { return temp.replaceAll(F.Rule(F.Slot(F.C1), to)); } } } } if (from.isPositive()) { return F.Subtract( F.Sum(ast.get(1), F.List(var, C0, to)), F.Sum(ast.get(1), F.List(var, C0, from.minus(F.C1)))); } } } IAST resultList = Plus(); IExpr temp = evaluateTable(ast, resultList, C0); if (temp.equals(resultList)) { return null; } return temp; }