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#include "config.h"
#include "ntp_stdlib.h" /* test fail without this include, for some reason */
#include "ntp_calendar.h"
#include "unity.h"
#include <string.h>
static int leapdays(int year);
void setUp(void);
int isGT(int first, int second);
int leapdays(int year);
char * CalendarFromCalToString(const struct calendar *cal);
char * CalendarFromIsoToString(const struct isodate *iso);
int IsEqualCal(const struct calendar *expected, const struct calendar *actual);
int IsEqualIso(const struct isodate *expected, const struct isodate *actual);
char * DateFromCalToString(const struct calendar *cal);
char * DateFromIsoToString(const struct isodate *iso);
int IsEqualDateCal(const struct calendar *expected, const struct calendar *actual);
int IsEqualDateIso(const struct isodate *expected, const struct isodate *actual);
void test_DaySplitMerge(void);
void test_SplitYearDays1(void);
void test_SplitYearDays2(void);
void test_RataDie1(void);
void test_LeapYears1(void);
void test_LeapYears2(void);
void test_RoundTripDate(void);
void test_RoundTripYearStart(void);
void test_RoundTripMonthStart(void);
void test_RoundTripWeekStart(void);
void test_RoundTripDayStart(void);
void test_IsoCalYearsToWeeks(void);
void test_IsoCalWeeksToYearStart(void);
void test_IsoCalWeeksToYearEnd(void);
void test_DaySecToDate(void);
void
setUp(void)
{
init_lib();
return;
}
/*
* ---------------------------------------------------------------------
* test support stuff
* ---------------------------------------------------------------------
*/
int
isGT(int first, int second)
{
if(first > second) {
return TRUE;
} else {
return FALSE;
}
}
int
leapdays(int year)
{
if (year % 400 == 0)
return 1;
if (year % 100 == 0)
return 0;
if (year % 4 == 0)
return 1;
return 0;
}
char *
CalendarFromCalToString(
const struct calendar *cal)
{
char * str = malloc(sizeof (char) * 100);
snprintf(str, 100, "%u-%02u-%02u (%u) %02u:%02u:%02u",
cal->year, (u_int)cal->month, (u_int)cal->monthday,
cal->yearday,
(u_int)cal->hour, (u_int)cal->minute, (u_int)cal->second);
str[99] = '\0'; /* paranoia rulez! */
return str;
}
char *
CalendarFromIsoToString(
const struct isodate *iso)
{
char * str = emalloc (sizeof (char) * 100);
snprintf(str, 100, "%u-W%02u-%02u %02u:%02u:%02u",
iso->year, (u_int)iso->week, (u_int)iso->weekday,
(u_int)iso->hour, (u_int)iso->minute, (u_int)iso->second);
str[99] = '\0'; /* paranoia rulez! */
return str;
}
int
IsEqualCal(
const struct calendar *expected,
const struct calendar *actual)
{
if (expected->year == actual->year &&
(!expected->yearday || expected->yearday == actual->yearday) &&
expected->month == actual->month &&
expected->monthday == actual->monthday &&
expected->hour == actual->hour &&
expected->minute == actual->minute &&
expected->second == actual->second) {
return TRUE;
} else {
char *p_exp = CalendarFromCalToString(expected);
char *p_act = CalendarFromCalToString(actual);
printf("expected: %s but was %s", p_exp, p_act);
free(p_exp);
free(p_act);
return FALSE;
}
}
int
IsEqualIso(
const struct isodate *expected,
const struct isodate *actual)
{
if (expected->year == actual->year &&
expected->week == actual->week &&
expected->weekday == actual->weekday &&
expected->hour == actual->hour &&
expected->minute == actual->minute &&
expected->second == actual->second) {
return TRUE;
} else {
printf("expected: %s but was %s",
CalendarFromIsoToString(expected),
CalendarFromIsoToString(actual));
return FALSE;
}
}
char *
DateFromCalToString(
const struct calendar *cal)
{
char * str = emalloc (sizeof (char) * 100);
snprintf(str, 100, "%u-%02u-%02u (%u)",
cal->year, (u_int)cal->month, (u_int)cal->monthday,
cal->yearday);
str[99] = '\0'; /* paranoia rulez! */
return str;
}
char *
DateFromIsoToString(
const struct isodate *iso)
{
char * str = emalloc (sizeof (char) * 100);
snprintf(str, 100, "%u-W%02u-%02u",
iso->year, (u_int)iso->week, (u_int)iso->weekday);
str[99] = '\0'; /* paranoia rulez! */
return str;
}
int/*BOOL*/
IsEqualDateCal(
const struct calendar *expected,
const struct calendar *actual)
{
if (expected->year == actual->year &&
(!expected->yearday || expected->yearday == actual->yearday) &&
expected->month == actual->month &&
expected->monthday == actual->monthday) {
return TRUE;
} else {
printf("expected: %s but was %s",
DateFromCalToString(expected),
DateFromCalToString(actual));
return FALSE;
}
}
int/*BOOL*/
IsEqualDateIso(
const struct isodate *expected,
const struct isodate *actual)
{
if (expected->year == actual->year &&
expected->week == actual->week &&
expected->weekday == actual->weekday) {
return TRUE;
} else {
printf("expected: %s but was %s",
DateFromIsoToString(expected),
DateFromIsoToString(actual));
return FALSE;
}
}
/*
* ---------------------------------------------------------------------
* test cases
* ---------------------------------------------------------------------
*/
/* days before month, with a full-year pad at the upper end */
static const u_short real_month_table[2][13] = {
/* -*- table for regular years -*- */
{ 0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334, 365 },
/* -*- table for leap years -*- */
{ 0, 31, 60, 91, 121, 152, 182, 213, 244, 274, 305, 335, 366 }
};
/* days in month, with one month wrap-around at both ends */
static const u_short real_month_days[2][14] = {
/* -*- table for regular years -*- */
{ 31, 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31, 31 },
/* -*- table for leap years -*- */
{ 31, 31, 29, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31, 31 }
};
/* test the day/sec join & split ops, making sure that 32bit
* intermediate results would definitely overflow and the hi DWORD of
* the 'vint64' is definitely needed.
*/
void
test_DaySplitMerge(void)
{
int32 day,sec;
for (day = -1000000; day <= 1000000; day += 100) {
for (sec = -100000; sec <= 186400; sec += 10000) {
vint64 merge;
ntpcal_split split;
int32 eday;
int32 esec;
merge = ntpcal_dayjoin(day, sec);
split = ntpcal_daysplit(&merge);
eday = day;
esec = sec;
while (esec >= 86400) {
eday += 1;
esec -= 86400;
}
while (esec < 0) {
eday -= 1;
esec += 86400;
}
TEST_ASSERT_EQUAL(eday, split.hi);
TEST_ASSERT_EQUAL(esec, split.lo);
}
}
return;
}
void
test_SplitYearDays1(void)
{
int32 eyd;
for (eyd = -1; eyd <= 365; eyd++) {
ntpcal_split split = ntpcal_split_yeardays(eyd, 0);
if (split.lo >= 0 && split.hi >= 0) {
TEST_ASSERT_TRUE(isGT(12,split.hi));
TEST_ASSERT_TRUE(isGT(real_month_days[0][split.hi+1], split.lo));
int32 tyd = real_month_table[0][split.hi] + split.lo;
TEST_ASSERT_EQUAL(eyd, tyd);
} else
TEST_ASSERT_TRUE(eyd < 0 || eyd > 364);
}
return;
}
void
test_SplitYearDays2(void)
{
int32 eyd;
for (eyd = -1; eyd <= 366; eyd++) {
ntpcal_split split = ntpcal_split_yeardays(eyd, 1);
if (split.lo >= 0 && split.hi >= 0) {
/* basic checks do not work on compunds :( */
/* would like: TEST_ASSERT_TRUE(12 > split.hi); */
TEST_ASSERT_TRUE(isGT(12,split.hi));
TEST_ASSERT_TRUE(isGT(real_month_days[1][split.hi+1], split.lo));
int32 tyd = real_month_table[1][split.hi] + split.lo;
TEST_ASSERT_EQUAL(eyd, tyd);
} else
TEST_ASSERT_TRUE(eyd < 0 || eyd > 365);
}
return;
}
void
test_RataDie1(void)
{
int32 testDate = 1; /* 0001-01-01 (proleptic date) */
struct calendar expected = { 1, 1, 1, 1 };
struct calendar actual;
ntpcal_rd_to_date(&actual, testDate);
TEST_ASSERT_TRUE(IsEqualDateCal(&expected, &actual));
return;
}
/* check last day of february for first 10000 years */
void
test_LeapYears1(void)
{
struct calendar dateIn, dateOut;
for (dateIn.year = 1; dateIn.year < 10000; ++dateIn.year) {
dateIn.month = 2;
dateIn.monthday = 28 + leapdays(dateIn.year);
dateIn.yearday = 31 + dateIn.monthday;
ntpcal_rd_to_date(&dateOut, ntpcal_date_to_rd(&dateIn));
TEST_ASSERT_TRUE(IsEqualDateCal(&dateIn, &dateOut));
}
return;
}
/* check first day of march for first 10000 years */
void
test_LeapYears2(void)
{
struct calendar dateIn, dateOut;
for (dateIn.year = 1; dateIn.year < 10000; ++dateIn.year) {
dateIn.month = 3;
dateIn.monthday = 1;
dateIn.yearday = 60 + leapdays(dateIn.year);
ntpcal_rd_to_date(&dateOut, ntpcal_date_to_rd(&dateIn));
TEST_ASSERT_TRUE(IsEqualDateCal(&dateIn, &dateOut));
}
return;
}
/* Full roundtrip from 1601-01-01 to 2400-12-31
* checks sequence of rata die numbers and validates date output
* (since the input is all nominal days of the calendar in that range
* and the result of the inverse calculation must match the input no
* invalid output can occur.)
*/
void
test_RoundTripDate(void)
{
struct calendar truDate, expDate = { 1600, 0, 12, 31 };;
int leaps;
int32 truRdn, expRdn = ntpcal_date_to_rd(&expDate);
while (expDate.year < 2400) {
expDate.year++;
expDate.month = 0;
expDate.yearday = 0;
leaps = leapdays(expDate.year);
while (expDate.month < 12) {
expDate.month++;
expDate.monthday = 0;
while (expDate.monthday < real_month_days[leaps][expDate.month]) {
expDate.monthday++;
expDate.yearday++;
expRdn++;
truRdn = ntpcal_date_to_rd(&expDate);
TEST_ASSERT_EQUAL(expRdn, truRdn);
ntpcal_rd_to_date(&truDate, truRdn);
TEST_ASSERT_TRUE(IsEqualDateCal(&expDate, &truDate));
}
}
}
return;
}
/* Roundtrip testing on calyearstart */
void
test_RoundTripYearStart(void)
{
static const time_t pivot = 0;
u_int32 ntp, expys, truys;
struct calendar date;
for (ntp = 0; ntp < 0xFFFFFFFFu - 30000000u; ntp += 30000000u) {
truys = calyearstart(ntp, &pivot);
ntpcal_ntp_to_date(&date, ntp, &pivot);
date.month = date.monthday = 1;
date.hour = date.minute = date.second = 0;
expys = ntpcal_date_to_ntp(&date);
TEST_ASSERT_EQUAL(expys, truys);
}
return;
}
/* Roundtrip testing on calmonthstart */
void
test_RoundTripMonthStart(void)
{
static const time_t pivot = 0;
u_int32 ntp, expms, trums;
struct calendar date;
for (ntp = 0; ntp < 0xFFFFFFFFu - 2000000u; ntp += 2000000u) {
trums = calmonthstart(ntp, &pivot);
ntpcal_ntp_to_date(&date, ntp, &pivot);
date.monthday = 1;
date.hour = date.minute = date.second = 0;
expms = ntpcal_date_to_ntp(&date);
TEST_ASSERT_EQUAL(expms, trums);
}
return;
}
/* Roundtrip testing on calweekstart */
void
test_RoundTripWeekStart(void)
{
static const time_t pivot = 0;
u_int32 ntp, expws, truws;
struct isodate date;
for (ntp = 0; ntp < 0xFFFFFFFFu - 600000u; ntp += 600000u) {
truws = calweekstart(ntp, &pivot);
isocal_ntp_to_date(&date, ntp, &pivot);
date.hour = date.minute = date.second = 0;
date.weekday = 1;
expws = isocal_date_to_ntp(&date);
TEST_ASSERT_EQUAL(expws, truws);
}
return;
}
/* Roundtrip testing on caldaystart */
void
test_RoundTripDayStart(void)
{
static const time_t pivot = 0;
u_int32 ntp, expds, truds;
struct calendar date;
for (ntp = 0; ntp < 0xFFFFFFFFu - 80000u; ntp += 80000u) {
truds = caldaystart(ntp, &pivot);
ntpcal_ntp_to_date(&date, ntp, &pivot);
date.hour = date.minute = date.second = 0;
expds = ntpcal_date_to_ntp(&date);
TEST_ASSERT_EQUAL(expds, truds);
}
return;
}
/* ---------------------------------------------------------------------
* ISO8601 week calendar internals
*
* The ISO8601 week calendar implementation is simple in the terms of
* the math involved, but the implementation of the calculations must
* take care of a few things like overflow, floor division, and sign
* corrections.
*
* Most of the functions are straight forward, but converting from years
* to weeks and from weeks to years warrants some extra tests. These use
* an independent reference implementation of the conversion from years
* to weeks.
* ---------------------------------------------------------------------
*/
/* helper / reference implementation for the first week of year in the
* ISO8601 week calendar. This is based on the reference definition of
* the ISO week calendar start: The Monday closest to January,1st of the
* corresponding year in the Gregorian calendar.
*/
static int32_t
refimpl_WeeksInIsoYears(
int32_t years)
{
int32_t days, weeks;
days = ntpcal_weekday_close(
ntpcal_days_in_years(years) + 1,
CAL_MONDAY) - 1;
/* the weekday functions operate on RDN, while we want elapsed
* units here -- we have to add / sub 1 in the midlle / at the
* end of the operation that gets us the first day of the ISO
* week calendar day.
*/
weeks = days / 7;
days = days % 7;
TEST_ASSERT_EQUAL(0, days); /* paranoia check... */
return weeks;
}
/* The next tests loop over 5000yrs, but should still be very fast. If
* they are not, the calendar needs a better implementation...
*/
void
test_IsoCalYearsToWeeks(void)
{
int32_t years;
int32_t wref, wcal;
for (years = -1000; years < 4000; ++years) {
/* get number of weeks before years (reference) */
wref = refimpl_WeeksInIsoYears(years);
/* get number of weeks before years (object-under-test) */
wcal = isocal_weeks_in_years(years);
TEST_ASSERT_EQUAL(wref, wcal);
}
return;
}
void
test_IsoCalWeeksToYearStart(void)
{
int32_t years;
int32_t wref;
ntpcal_split ysplit;
for (years = -1000; years < 4000; ++years) {
/* get number of weeks before years (reference) */
wref = refimpl_WeeksInIsoYears(years);
/* reverse split */
ysplit = isocal_split_eraweeks(wref);
/* check invariants: same year, week 0 */
TEST_ASSERT_EQUAL(years, ysplit.hi);
TEST_ASSERT_EQUAL(0, ysplit.lo);
}
return;
}
void
test_IsoCalWeeksToYearEnd(void)
{
int32_t years;
int32_t wref;
ntpcal_split ysplit;
for (years = -1000; years < 4000; ++years) {
/* get last week of previous year */
wref = refimpl_WeeksInIsoYears(years) - 1;
/* reverse split */
ysplit = isocal_split_eraweeks(wref);
/* check invariants: previous year, week 51 or 52 */
TEST_ASSERT_EQUAL(years-1, ysplit.hi);
TEST_ASSERT(ysplit.lo == 51 || ysplit.lo == 52);
}
return;
}
void
test_DaySecToDate(void)
{
struct calendar cal;
int32_t days;
days = ntpcal_daysec_to_date(&cal, -86400);
TEST_ASSERT_MESSAGE((days==-1 && cal.hour==0 && cal.minute==0 && cal.second==0),
"failed for -86400");
days = ntpcal_daysec_to_date(&cal, -86399);
TEST_ASSERT_MESSAGE((days==-1 && cal.hour==0 && cal.minute==0 && cal.second==1),
"failed for -86399");
days = ntpcal_daysec_to_date(&cal, -1);
TEST_ASSERT_MESSAGE((days==-1 && cal.hour==23 && cal.minute==59 && cal.second==59),
"failed for -1");
days = ntpcal_daysec_to_date(&cal, 0);
TEST_ASSERT_MESSAGE((days==0 && cal.hour==0 && cal.minute==0 && cal.second==0),
"failed for 0");
days = ntpcal_daysec_to_date(&cal, 1);
TEST_ASSERT_MESSAGE((days==0 && cal.hour==0 && cal.minute==0 && cal.second==1),
"failed for 1");
days = ntpcal_daysec_to_date(&cal, 86399);
TEST_ASSERT_MESSAGE((days==0 && cal.hour==23 && cal.minute==59 && cal.second==59),
"failed for 86399");
days = ntpcal_daysec_to_date(&cal, 86400);
TEST_ASSERT_MESSAGE((days==1 && cal.hour==0 && cal.minute==0 && cal.second==0),
"failed for 86400");
return;
}
|