+ r->p = p;
+ r->q = q;
+}
+
+#ifndef HAVE___INT128_T
+struct sr_int128_t {
+ int64_t high;
+ uint64_t low;
+};
+
+struct sr_uint128_t {
+ uint64_t high;
+ uint64_t low;
+};
+
+static void mult_int64(struct sr_int128_t *res, const int64_t a,
+ const int64_t b)
+{
+ uint64_t t1, t2, t3, t4;
+
+ t1 = (UINT32_MAX & a) * (UINT32_MAX & b);
+ t2 = (UINT32_MAX & a) * (b >> 32);
+ t3 = (a >> 32) * (UINT32_MAX & b);
+ t4 = (a >> 32) * (b >> 32);
+
+ res->low = t1 + (t2 << 32) + (t3 << 32);
+ res->high = (t1 >> 32) + (uint64_t)((uint32_t)(t2)) + (uint64_t)((uint32_t)(t3));
+ res->high >>= 32;
+ res->high += ((int64_t)t2 >> 32) + ((int64_t)t3 >> 32) + t4;
+}
+
+static void mult_uint64(struct sr_uint128_t *res, const uint64_t a,
+ const uint64_t b)
+{
+ uint64_t t1, t2, t3, t4;
+
+ // (x1 + x2) * (y1 + y2) = x1*y1 + x1*y2 + x2*y1 + x2*y2
+ t1 = (UINT32_MAX & a) * (UINT32_MAX & b);
+ t2 = (UINT32_MAX & a) * (b >> 32);
+ t3 = (a >> 32) * (UINT32_MAX & b);
+ t4 = (a >> 32) * (b >> 32);
+
+ res->low = t1 + (t2 << 32) + (t3 << 32);
+ res->high = (t1 >> 32) + (uint64_t)((uint32_t)(t2)) + (uint64_t)((uint32_t)(t3));
+ res->high >>= 32;
+ res->high += ((int64_t)t2 >> 32) + ((int64_t)t3 >> 32) + t4;
+}
+#endif
+
+/**
+ * Compare two sr_rational for equality
+ *
+ * @param[in] a First value
+ * @param[in] b Second value
+ *
+ * The values are compared for numerical equality, i.e. 2/10 == 1/5
+ *
+ * @retval 1 if both values are equal
+ * @retval 0 otherwise
+ *
+ * @since 0.5.0
+ */
+SR_API int sr_rational_eq(const struct sr_rational *a, const struct sr_rational *b)
+{
+#ifdef HAVE___INT128_T
+ __int128_t m1, m2;
+
+ /* p1/q1 = p2/q2 <=> p1*q2 = p2*q1 */
+ m1 = ((__int128_t)(b->p)) * ((__uint128_t)a->q);
+ m2 = ((__int128_t)(a->p)) * ((__uint128_t)b->q);
+
+ return (m1 == m2);
+
+#else
+ struct sr_int128_t m1, m2;
+
+ mult_int64(&m1, a->q, b->p);
+ mult_int64(&m2, a->p, b->q);
+
+ return (m1.high == m2.high) && (m1.low == m2.low);
+#endif
+}
+
+/**
+ * Multiply two sr_rational
+ *
+ * @param[in] a First value
+ * @param[in] b Second value
+ * @param[out] res Result
+ *
+ * The resulting nominator/denominator are reduced if the result would not fit
+ * otherwise. If the resulting nominator/denominator are relatively prime,
+ * this may not be possible.
+ *
+ * It is save to use the same variable for result and input values
+ *
+ * @retval SR_OK Success.
+ * @retval SR_ERR_ARG Resulting value to large
+ *
+ * @since 0.5.0
+ */
+SR_API int sr_rational_mult(struct sr_rational *res, const struct sr_rational *a,
+ const struct sr_rational *b)
+{
+#ifdef HAVE___INT128_T
+ __int128_t p;
+ __uint128_t q;
+
+ p = (__int128_t)(a->p) * (__int128_t)(b->p);
+ q = (__uint128_t)(a->q) * (__uint128_t)(b->q);
+
+ if ((p > INT64_MAX) || (p < INT64_MIN) || (q > UINT64_MAX)) {
+ while (!((p & 1) || (q & 1))) {
+ p /= 2;
+ q /= 2;