#ifndef _UCW_PRIME_H
#define _UCW_PRIME_H
-#include "ucw/lib.h"
+#include <ucw/lib.h>
+
+#ifdef CONFIG_UCW_CLEAN_ABI
+#define isprime ucw_isprime
+#define next_table_prime ucw_next_table_prime
+#define nextprime ucw_nextprime
+#define prev_table_prime ucw_prev_table_prime
+#endif
/* prime.c */
* Return a non-zero value iff @x is a prime number.
* The time complexity is `O(sqrt(x))`.
**/
-int isprime(uns x);
+int isprime(uint x);
/**
* Return some prime greater than @x. The function does not checks overflows, but it should
* be safe at least for @x lower than `1U << 31`.
* If the Cramer's conjecture is true, it should have complexity `O(sqrt(x) * log(x)^2)`.
**/
-uns nextprime(uns x);
+uint nextprime(uint x);
/* primetable.c */
* Returns zero if there is no such prime (we guarantee the existance of at
* least one prime greater than `1U << 31` in the table).
**/
-uns next_table_prime(uns x);
+uint next_table_prime(uint x);
/**
* Quickly lookup a precomputed table to return a prime number smaller than @x.
* Returns zero if @x is smaller than `7`.
**/
-uns prev_table_prime(uns x);
+uint prev_table_prime(uint x);
#endif // _UCW_PRIME_H