- } else {
- // there are common factors:
- // a(x) = g(x)^n A(x)^n, b(x) = g(x)^m B(x)^m ==>
- // gcd(a, b) = g(x)^n gcd(A(x)^n, g(x)^(n-m) B(x)^m
- if (exp_a < exp_b) {
- return power(p_gcd, exp_a)*
- gcd(power(p_co, exp_a), power(p_gcd, exp_b-exp_a)*power(pb_co, exp_b), ca, cb, false);
- } else {
- return power(p_gcd, exp_b)*
- gcd(power(p_gcd, exp_a - exp_b)*power(p_co, exp_a), power(pb_co, exp_b), ca, cb, false);
- }
- } // p_gcd.is_equal(_ex1)
- } // p.is_equal(pb)
+ }
+
+ // there are common factors:
+ // a(x) = g(x)^n A(x)^n, b(x) = g(x)^m B(x)^m ==>
+ // gcd(a, b) = g(x)^n gcd(A(x)^n, g(x)^(n-m) B(x)^m
+ if (exp_a < exp_b) {
+ ex pg = gcd(pow(p_co, exp_a), pow(p_gcd, exp_b-exp_a)*pow(pb_co, exp_b), ca, cb, false);
+ return pow(p_gcd, exp_a)*pg;
+ } else {
+ ex pg = gcd(pow(p_gcd, exp_a - exp_b)*pow(p_co, exp_a), pow(pb_co, exp_b), ca, cb, false);
+ return pow(p_gcd, exp_b)*pg;
+ }