jemalloc/test/unit/nstime.c - nest-cam/4320010/jemalloc - Git at Google

 #include "test/jemalloc_test.h"

 #define	BILLION	UINT64_C(1000000000)

 TEST_BEGIN(test_nstime_init)
 {
 	nstime_t nst;

 	nstime_init(&nst, 42000000043);
 	assert_u64_eq(nstime_ns(&nst), 42000000043, "ns incorrectly read");
 	assert_u64_eq(nstime_sec(&nst), 42, "sec incorrectly read");
 	assert_u64_eq(nstime_nsec(&nst), 43, "nsec incorrectly read");
 }
 TEST_END

 TEST_BEGIN(test_nstime_init2)
 {
 	nstime_t nst;

 	nstime_init2(&nst, 42, 43);
 	assert_u64_eq(nstime_sec(&nst), 42, "sec incorrectly read");
 	assert_u64_eq(nstime_nsec(&nst), 43, "nsec incorrectly read");
 }
 TEST_END

 TEST_BEGIN(test_nstime_copy)
 {
 	nstime_t nsta, nstb;

 	nstime_init2(&nsta, 42, 43);
 	nstime_init(&nstb, 0);
 	nstime_copy(&nstb, &nsta);
 	assert_u64_eq(nstime_sec(&nstb), 42, "sec incorrectly copied");
 	assert_u64_eq(nstime_nsec(&nstb), 43, "nsec incorrectly copied");
 }
 TEST_END

 TEST_BEGIN(test_nstime_compare)
 {
 	nstime_t nsta, nstb;

 	nstime_init2(&nsta, 42, 43);
 	nstime_copy(&nstb, &nsta);
 	assert_d_eq(nstime_compare(&nsta, &nstb), 0, "Times should be equal");
 	assert_d_eq(nstime_compare(&nstb, &nsta), 0, "Times should be equal");

 	nstime_init2(&nstb, 42, 42);
 	assert_d_eq(nstime_compare(&nsta, &nstb), 1,
 	    "nsta should be greater than nstb");
 	assert_d_eq(nstime_compare(&nstb, &nsta), -1,
 	    "nstb should be less than nsta");

 	nstime_init2(&nstb, 42, 44);
 	assert_d_eq(nstime_compare(&nsta, &nstb), -1,
 	    "nsta should be less than nstb");
 	assert_d_eq(nstime_compare(&nstb, &nsta), 1,
 	    "nstb should be greater than nsta");

 	nstime_init2(&nstb, 41, BILLION - 1);
 	assert_d_eq(nstime_compare(&nsta, &nstb), 1,
 	    "nsta should be greater than nstb");
 	assert_d_eq(nstime_compare(&nstb, &nsta), -1,
 	    "nstb should be less than nsta");

 	nstime_init2(&nstb, 43, 0);
 	assert_d_eq(nstime_compare(&nsta, &nstb), -1,
 	    "nsta should be less than nstb");
 	assert_d_eq(nstime_compare(&nstb, &nsta), 1,
 	    "nstb should be greater than nsta");
 }
 TEST_END

 TEST_BEGIN(test_nstime_add)
 {
 	nstime_t nsta, nstb;

 	nstime_init2(&nsta, 42, 43);
 	nstime_copy(&nstb, &nsta);
 	nstime_add(&nsta, &nstb);
 	nstime_init2(&nstb, 84, 86);
 	assert_d_eq(nstime_compare(&nsta, &nstb), 0,
 	    "Incorrect addition result");

 	nstime_init2(&nsta, 42, BILLION - 1);
 	nstime_copy(&nstb, &nsta);
 	nstime_add(&nsta, &nstb);
 	nstime_init2(&nstb, 85, BILLION - 2);
 	assert_d_eq(nstime_compare(&nsta, &nstb), 0,
 	    "Incorrect addition result");
 }
 TEST_END

 TEST_BEGIN(test_nstime_subtract)
 {
 	nstime_t nsta, nstb;

 	nstime_init2(&nsta, 42, 43);
 	nstime_copy(&nstb, &nsta);
 	nstime_subtract(&nsta, &nstb);
 	nstime_init(&nstb, 0);
 	assert_d_eq(nstime_compare(&nsta, &nstb), 0,
 	    "Incorrect subtraction result");

 	nstime_init2(&nsta, 42, 43);
 	nstime_init2(&nstb, 41, 44);
 	nstime_subtract(&nsta, &nstb);
 	nstime_init2(&nstb, 0, BILLION - 1);
 	assert_d_eq(nstime_compare(&nsta, &nstb), 0,
 	    "Incorrect subtraction result");
 }
 TEST_END

 TEST_BEGIN(test_nstime_imultiply)
 {
 	nstime_t nsta, nstb;

 	nstime_init2(&nsta, 42, 43);
 	nstime_imultiply(&nsta, 10);
 	nstime_init2(&nstb, 420, 430);
 	assert_d_eq(nstime_compare(&nsta, &nstb), 0,
 	    "Incorrect multiplication result");

 	nstime_init2(&nsta, 42, 666666666);
 	nstime_imultiply(&nsta, 3);
 	nstime_init2(&nstb, 127, 999999998);
 	assert_d_eq(nstime_compare(&nsta, &nstb), 0,
 	    "Incorrect multiplication result");
 }
 TEST_END

 TEST_BEGIN(test_nstime_idivide)
 {
 	nstime_t nsta, nstb;

 	nstime_init2(&nsta, 42, 43);
 	nstime_copy(&nstb, &nsta);
 	nstime_imultiply(&nsta, 10);
 	nstime_idivide(&nsta, 10);
 	assert_d_eq(nstime_compare(&nsta, &nstb), 0,
 	    "Incorrect division result");

 	nstime_init2(&nsta, 42, 666666666);
 	nstime_copy(&nstb, &nsta);
 	nstime_imultiply(&nsta, 3);
 	nstime_idivide(&nsta, 3);
 	assert_d_eq(nstime_compare(&nsta, &nstb), 0,
 	    "Incorrect division result");
 }
 TEST_END

 TEST_BEGIN(test_nstime_divide)
 {
 	nstime_t nsta, nstb, nstc;

 	nstime_init2(&nsta, 42, 43);
 	nstime_copy(&nstb, &nsta);
 	nstime_imultiply(&nsta, 10);
 	assert_u64_eq(nstime_divide(&nsta, &nstb), 10,
 	    "Incorrect division result");

 	nstime_init2(&nsta, 42, 43);
 	nstime_copy(&nstb, &nsta);
 	nstime_imultiply(&nsta, 10);
 	nstime_init(&nstc, 1);
 	nstime_add(&nsta, &nstc);
 	assert_u64_eq(nstime_divide(&nsta, &nstb), 10,
 	    "Incorrect division result");

 	nstime_init2(&nsta, 42, 43);
 	nstime_copy(&nstb, &nsta);
 	nstime_imultiply(&nsta, 10);
 	nstime_init(&nstc, 1);
 	nstime_subtract(&nsta, &nstc);
 	assert_u64_eq(nstime_divide(&nsta, &nstb), 9,
 	    "Incorrect division result");
 }
 TEST_END

 TEST_BEGIN(test_nstime_update)
 {
 	nstime_t nst;

 	nstime_init(&nst, 0);

 	assert_false(nstime_update(&nst), "Basic time update failed.");

 	/* Only Rip Van Winkle sleeps this long. */
 	{
 		nstime_t addend;
 		nstime_init2(&addend, 631152000, 0);
 		nstime_add(&nst, &addend);
 	}
 	{
 		nstime_t nst0;
 		nstime_copy(&nst0, &nst);
 		assert_true(nstime_update(&nst),
 		    "Update should detect time roll-back.");
 		assert_d_eq(nstime_compare(&nst, &nst0), 0,
 		    "Time should not have been modified");
 	}

 }
 TEST_END

 int
 main(void)
 {

 	return (test(
 	    test_nstime_init,
 	    test_nstime_init2,
 	    test_nstime_copy,
 	    test_nstime_compare,
 	    test_nstime_add,
 	    test_nstime_subtract,
 	    test_nstime_imultiply,
 	    test_nstime_idivide,
 	    test_nstime_divide,
 	    test_nstime_update));
 }
	#include "test/jemalloc_test.h"

	#define BILLION UINT64_C(1000000000)

	TEST_BEGIN(test_nstime_init)
	{
	nstime_t nst;

	nstime_init(&nst, 42000000043);
	assert_u64_eq(nstime_ns(&nst), 42000000043, "ns incorrectly read");
	assert_u64_eq(nstime_sec(&nst), 42, "sec incorrectly read");
	assert_u64_eq(nstime_nsec(&nst), 43, "nsec incorrectly read");
	}
	TEST_END

	TEST_BEGIN(test_nstime_init2)
	{
	nstime_t nst;

	nstime_init2(&nst, 42, 43);
	assert_u64_eq(nstime_sec(&nst), 42, "sec incorrectly read");
	assert_u64_eq(nstime_nsec(&nst), 43, "nsec incorrectly read");
	}
	TEST_END

	TEST_BEGIN(test_nstime_copy)
	{
	nstime_t nsta, nstb;

	nstime_init2(&nsta, 42, 43);
	nstime_init(&nstb, 0);
	nstime_copy(&nstb, &nsta);
	assert_u64_eq(nstime_sec(&nstb), 42, "sec incorrectly copied");
	assert_u64_eq(nstime_nsec(&nstb), 43, "nsec incorrectly copied");
	}
	TEST_END

	TEST_BEGIN(test_nstime_compare)
	{
	nstime_t nsta, nstb;

	nstime_init2(&nsta, 42, 43);
	nstime_copy(&nstb, &nsta);
	assert_d_eq(nstime_compare(&nsta, &nstb), 0, "Times should be equal");
	assert_d_eq(nstime_compare(&nstb, &nsta), 0, "Times should be equal");

	nstime_init2(&nstb, 42, 42);
	assert_d_eq(nstime_compare(&nsta, &nstb), 1,
	"nsta should be greater than nstb");
	assert_d_eq(nstime_compare(&nstb, &nsta), -1,
	"nstb should be less than nsta");

	nstime_init2(&nstb, 42, 44);
	assert_d_eq(nstime_compare(&nsta, &nstb), -1,
	"nsta should be less than nstb");
	assert_d_eq(nstime_compare(&nstb, &nsta), 1,
	"nstb should be greater than nsta");

	nstime_init2(&nstb, 41, BILLION - 1);
	assert_d_eq(nstime_compare(&nsta, &nstb), 1,
	"nsta should be greater than nstb");
	assert_d_eq(nstime_compare(&nstb, &nsta), -1,
	"nstb should be less than nsta");

	nstime_init2(&nstb, 43, 0);
	assert_d_eq(nstime_compare(&nsta, &nstb), -1,
	"nsta should be less than nstb");
	assert_d_eq(nstime_compare(&nstb, &nsta), 1,
	"nstb should be greater than nsta");
	}
	TEST_END

	TEST_BEGIN(test_nstime_add)
	{
	nstime_t nsta, nstb;

	nstime_init2(&nsta, 42, 43);
	nstime_copy(&nstb, &nsta);
	nstime_add(&nsta, &nstb);
	nstime_init2(&nstb, 84, 86);
	assert_d_eq(nstime_compare(&nsta, &nstb), 0,
	"Incorrect addition result");

	nstime_init2(&nsta, 42, BILLION - 1);
	nstime_copy(&nstb, &nsta);
	nstime_add(&nsta, &nstb);
	nstime_init2(&nstb, 85, BILLION - 2);
	assert_d_eq(nstime_compare(&nsta, &nstb), 0,
	"Incorrect addition result");
	}
	TEST_END

	TEST_BEGIN(test_nstime_subtract)
	{
	nstime_t nsta, nstb;

	nstime_init2(&nsta, 42, 43);
	nstime_copy(&nstb, &nsta);
	nstime_subtract(&nsta, &nstb);
	nstime_init(&nstb, 0);
	assert_d_eq(nstime_compare(&nsta, &nstb), 0,
	"Incorrect subtraction result");

	nstime_init2(&nsta, 42, 43);
	nstime_init2(&nstb, 41, 44);
	nstime_subtract(&nsta, &nstb);
	nstime_init2(&nstb, 0, BILLION - 1);
	assert_d_eq(nstime_compare(&nsta, &nstb), 0,
	"Incorrect subtraction result");
	}
	TEST_END

	TEST_BEGIN(test_nstime_imultiply)
	{
	nstime_t nsta, nstb;

	nstime_init2(&nsta, 42, 43);
	nstime_imultiply(&nsta, 10);
	nstime_init2(&nstb, 420, 430);
	assert_d_eq(nstime_compare(&nsta, &nstb), 0,
	"Incorrect multiplication result");

	nstime_init2(&nsta, 42, 666666666);
	nstime_imultiply(&nsta, 3);
	nstime_init2(&nstb, 127, 999999998);
	assert_d_eq(nstime_compare(&nsta, &nstb), 0,
	"Incorrect multiplication result");
	}
	TEST_END

	TEST_BEGIN(test_nstime_idivide)
	{
	nstime_t nsta, nstb;

	nstime_init2(&nsta, 42, 43);
	nstime_copy(&nstb, &nsta);
	nstime_imultiply(&nsta, 10);
	nstime_idivide(&nsta, 10);
	assert_d_eq(nstime_compare(&nsta, &nstb), 0,
	"Incorrect division result");

	nstime_init2(&nsta, 42, 666666666);
	nstime_copy(&nstb, &nsta);
	nstime_imultiply(&nsta, 3);
	nstime_idivide(&nsta, 3);
	assert_d_eq(nstime_compare(&nsta, &nstb), 0,
	"Incorrect division result");
	}
	TEST_END

	TEST_BEGIN(test_nstime_divide)
	{
	nstime_t nsta, nstb, nstc;

	nstime_init2(&nsta, 42, 43);
	nstime_copy(&nstb, &nsta);
	nstime_imultiply(&nsta, 10);
	assert_u64_eq(nstime_divide(&nsta, &nstb), 10,
	"Incorrect division result");

	nstime_init2(&nsta, 42, 43);
	nstime_copy(&nstb, &nsta);
	nstime_imultiply(&nsta, 10);
	nstime_init(&nstc, 1);
	nstime_add(&nsta, &nstc);
	assert_u64_eq(nstime_divide(&nsta, &nstb), 10,
	"Incorrect division result");

	nstime_init2(&nsta, 42, 43);
	nstime_copy(&nstb, &nsta);
	nstime_imultiply(&nsta, 10);
	nstime_init(&nstc, 1);
	nstime_subtract(&nsta, &nstc);
	assert_u64_eq(nstime_divide(&nsta, &nstb), 9,
	"Incorrect division result");
	}
	TEST_END

	TEST_BEGIN(test_nstime_update)
	{
	nstime_t nst;

	nstime_init(&nst, 0);

	assert_false(nstime_update(&nst), "Basic time update failed.");

	/* Only Rip Van Winkle sleeps this long. */
	{
	nstime_t addend;
	nstime_init2(&addend, 631152000, 0);
	nstime_add(&nst, &addend);
	}
	{
	nstime_t nst0;
	nstime_copy(&nst0, &nst);
	assert_true(nstime_update(&nst),
	"Update should detect time roll-back.");
	assert_d_eq(nstime_compare(&nst, &nst0), 0,
	"Time should not have been modified");
	}

	}
	TEST_END

	int
	main(void)
	{

	return (test(
	test_nstime_init,
	test_nstime_init2,
	test_nstime_copy,
	test_nstime_compare,
	test_nstime_add,
	test_nstime_subtract,
	test_nstime_imultiply,
	test_nstime_idivide,
	test_nstime_divide,
	test_nstime_update));
	}