def cobar_concat(x, y, f, n): for i in range(n): xx = CobarPolynomial.random(x, y, f) yy = CobarPolynomial.random(x, y, f) xx.simplify() yy.simplify() zz = xx & yy print xx print yy print zz, "\n"
def cobar_concat(x,y,f,n): for i in range(n): xx = CobarPolynomial.random(x,y,f) yy = CobarPolynomial.random(x,y,f) xx.simplify() yy.simplify() zz = xx & yy print xx print yy print zz, "\n"
def cobar_poly_simp(x, y, f, n): for i in range(n): xx = CobarPolynomial.random(x, y, f) yy = CobarPolynomial.random(x, y, f) zz = xx + yy print zz zz.simplify() print zz zz = zz + zz zz.simplify() print zz
def cobar_poly_simp(x,y,f,n): for i in range(n): xx = CobarPolynomial.random(x,y,f) yy = CobarPolynomial.random(x,y,f) zz = xx + yy print zz zz.simplify() print zz zz = zz + zz zz.simplify() print zz
def summand_test(x, y, f, n): for i in range(n): xx = CobarMonomial.random(x, f) yy = CobarPolynomial.random(x, y, f) xx.simplify() yy.simplify() print xx print yy print yy.is_summand(xx), "\n"
def summand_test(x,y,f,n): for i in range(n): xx = CobarMonomial.random(x,f) yy = CobarPolynomial.random(x,y,f) xx.simplify() yy.simplify() print xx print yy print yy.is_summand(xx), "\n"