glib/testgdate.c
Havoc Pennington 98e5d88bbe Two new files. This is kind of ugly code, but I want to go ahead and make
1998-12-02  Havoc Pennington  <hp@pobox.com>

* testgdate.c, testgdateparser.c: Two new files. This is kind of
ugly code, but I want to go ahead and make the tests available.
It isn't contaminating any other code. :-) Since one of these
is interactive and the other takes a while to run, I've kept
them separate from testglib for now.
* Makefile.am: Build gdate test programs.
1998-12-02 20:20:35 +00:00

490 lines
15 KiB
C

#include "glib.h"
#include <stdio.h>
#include <string.h>
#include <locale.h>
#include <time.h>
gboolean failed = FALSE;
guint32 passed = 0;
guint32 notpassed = 0;
#define TEST(m,cond) G_STMT_START { failed = !(cond); \
if (failed) \
{ ++notpassed; \
if (!m) \
g_print ("\n(%s:%d) failed for: %s\n", __FILE__, __LINE__, ( # cond )); \
else \
g_print ("\n(%s:%d) failed for: %s: (%s)\n", __FILE__, __LINE__, ( # cond ), (gchar*)m); \
} \
else \
++passed; \
if ((passed+notpassed) % 10000 == 0) g_print ("."); fflush (stdout); \
} G_STMT_END
void g_date_debug_print(GDate* d)
{
if (!d) g_print("NULL!\n");
else
g_print("julian: %u (%s) DMY: %u %u %u (%s)\n",
d->julian_days,
d->julian ? "valid" : "invalid",
d->day,
d->month,
d->year,
d->dmy ? "valid" : "invalid");
fflush(stdout);
}
int main(int argc, char** argv)
{
GDate* d;
guint32 j;
GDateMonth m;
GDateYear y, prev_y;
GDateDay day;
gchar buf[101];
gchar* loc;
/* Try to get all the leap year cases. */
GDateYear check_years[] = {
1, 2, 3, 4, 5, 6, 7, 8, 9, 10,
11, 12, 13, 14, 98, 99, 100, 101, 102, 103, 397,
398, 399, 400, 401, 402, 403, 404, 405, 406,
1598, 1599, 1600, 1601, 1602, 1650, 1651,
1897, 1898, 1899, 1900, 1901, 1902, 1903,
1961, 1962, 1963, 1964, 1965, 1967,
1968, 1969, 1970, 1971, 1972, 1973, 1974, 1975, 1976,
1977, 1978, 1979, 1980, 1981, 1982, 1983, 1984, 1985,
1986, 1987, 1988, 1989, 1990, 1991, 1992, 1993, 1994,
1995, 1996, 1997, 1998, 1999, 2000, 2001, 2002, 2003,
2004, 2005, 2006, 2007, 2008, 2009, 2010, 2011, 2012,
3000, 3001, 3002, 3998, 3999, 4000, 4001, 4002, 4003
};
guint n_check_years = sizeof(check_years)/sizeof(GDateYear);
guint i = 0;
gboolean discontinuity = FALSE;
g_print("checking GDate...");
TEST("sizeof(GDate) is not more than 8 bytes on this platform", sizeof(GDate) < 9);
d = g_date_new();
TEST("Empty constructor produces invalid date", !g_date_valid(d));
g_date_free(d);
d = g_date_new_dmy(1,1,1);
TEST("January 1, Year 1 created and valid", g_date_valid(d));
j = g_date_julian(d);
TEST("January 1, Year 1 is Julian date 1", j == 1);
TEST("Returned month is January", g_date_month(d) == G_DATE_JANUARY);
TEST("Returned day is 1", g_date_day(d) == 1);
TEST("Returned year is 1", g_date_year(d) == 1);
TEST("Bad month is invalid", !g_date_valid_month(G_DATE_BAD_MONTH));
TEST("Month 13 is invalid", !g_date_valid_month(13));
TEST("Bad day is invalid", !g_date_valid_day(G_DATE_BAD_DAY));
TEST("Day 32 is invalid", !g_date_valid_day(32));
TEST("Bad year is invalid", !g_date_valid_year(G_DATE_BAD_YEAR));
TEST("Bad julian is invalid", !g_date_valid_julian(G_DATE_BAD_JULIAN));
TEST("Bad weekday is invalid", !g_date_valid_weekday(G_DATE_BAD_WEEKDAY));
TEST("Year 2000 is a leap year", g_date_is_leap_year(2000));
TEST("Year 1999 is not a leap year", !g_date_is_leap_year(1999));
TEST("Year 1996 is a leap year", g_date_is_leap_year(1996));
TEST("Year 1600 is a leap year", g_date_is_leap_year(1600));
TEST("Year 2100 is not a leap year", !g_date_is_leap_year(2100));
TEST("Year 1800 is not a leap year", !g_date_is_leap_year(1800));
g_date_free(d);
loc = setlocale(LC_ALL,"");
if (loc)
g_print("\nLocale set to %s\n", loc);
else
g_print("\nLocale unchanged\n");
d = g_date_new();
g_date_set_time(d, time(NULL));
TEST("Today is valid", g_date_valid(d));
g_date_strftime(buf,100,"Today is a %A, %x\n", d);
g_print("%s", buf);
g_date_set_time(d, 1);
TEST("Beginning of Unix epoch is valid", g_date_valid(d));
g_date_strftime(buf,100,"1 second into the Unix epoch it was a %A, in the month of %B, %x\n", d);
g_print("%s", buf);
g_date_set_julian(d, 1);
TEST("GDate's \"Julian\" epoch's first day is valid", g_date_valid(d));
g_date_strftime(buf,100,"Our \"Julian\" epoch begins on a %A, in the month of %B, %x\n",
d);
g_print("%s", buf);
g_date_set_dmy(d, 10, 1, 2000);
g_date_strftime(buf,100,"%x", d);
g_date_set_parse(d, buf);
/* Note: this test will hopefully work, but no promises. */
TEST("Successfully parsed a %x-formatted string",
g_date_valid(d) &&
g_date_month(d) == 1 &&
g_date_day(d) == 10 &&
g_date_year(d) == 2000);
if (failed)
g_date_debug_print(d);
g_date_free(d);
j = G_DATE_BAD_JULIAN;
i = 0;
discontinuity = TRUE;
y = check_years[0];
prev_y = G_DATE_BAD_YEAR;
while (i < n_check_years)
{
guint32 first_day_of_year = G_DATE_BAD_JULIAN;
guint16 days_in_year = g_date_is_leap_year(y) ? 366 : 365;
guint sunday_week_of_year = 0;
guint sunday_weeks_in_year = g_date_sunday_weeks_in_year(y);
guint monday_week_of_year = 0;
guint monday_weeks_in_year = g_date_monday_weeks_in_year(y);
if (discontinuity)
g_print(" (Break in sequence of requested years to check)\n");
g_print("Checking year %u", y);
TEST("Year is valid", g_date_valid_year(y));
TEST("Number of Sunday weeks in year is 52 or 53",
sunday_weeks_in_year == 52 || sunday_weeks_in_year == 53);
TEST("Number of Monday weeks in year is 52 or 53",
monday_weeks_in_year == 52 || monday_weeks_in_year == 53);
m = 1;
while (m < 13)
{
guint8 dim = g_date_days_in_month(m,y);
GDate days[31]; /* This is the fast way, no allocation */
TEST("Sensible number of days in month", (dim > 0 && dim < 32));
TEST("Month between 1 and 12 is valid", g_date_valid_month(m));
day = 1;
g_date_clear(days, 31);
while (day <= dim)
{
guint i;
GDate tmp;
TEST("DMY triplet is valid", g_date_valid_dmy(day,m,y));
/* Create GDate with triplet */
d = &days[day-1];
TEST("Cleared day is invalid", !g_date_valid(d));
g_date_set_dmy(d,day,m,y);
TEST("Set day is valid", g_date_valid(d));
if (m == G_DATE_JANUARY && day == 1)
{
first_day_of_year = g_date_julian(d);
}
g_assert(first_day_of_year != G_DATE_BAD_JULIAN);
TEST("Date with DMY triplet is valid", g_date_valid(d));
TEST("Month accessor works", g_date_month(d) == m);
TEST("Year accessor works", g_date_year(d) == y);
TEST("Day of month accessor works", g_date_day(d) == day);
TEST("Day of year is consistent with Julian dates",
((g_date_julian(d) + 1 - first_day_of_year) ==
(g_date_day_of_year(d))));
if (failed)
{
g_print("first day: %u this day: %u day of year: %u\n",
first_day_of_year,
g_date_julian(d),
g_date_day_of_year(d));
}
if (m == G_DATE_DECEMBER && day == 31)
{
TEST("Last day of year equals number of days in year",
g_date_day_of_year(d) == days_in_year);
if (failed)
{
g_print("last day: %u days in year: %u\n",
g_date_day_of_year(d), days_in_year);
}
}
TEST("Day of year is not more than number of days in the year",
g_date_day_of_year(d) <= days_in_year);
TEST("Monday week of year is not more than number of weeks in the year",
g_date_monday_week_of_year(d) <= monday_weeks_in_year);
if (failed)
{
g_print("Weeks in year: %u\n", monday_weeks_in_year);
g_date_debug_print(d);
}
TEST("Monday week of year is >= than last week of year",
g_date_monday_week_of_year(d) >= monday_week_of_year);
if (g_date_weekday(d) == G_DATE_MONDAY)
{
TEST("Monday week of year on Monday 1 more than previous day's week of year",
(g_date_monday_week_of_year(d) - monday_week_of_year) == 1);
}
else
{
TEST("Monday week of year on non-Monday 0 more than previous day's week of year",
(g_date_monday_week_of_year(d) - monday_week_of_year) == 0);
}
monday_week_of_year = g_date_monday_week_of_year(d);
TEST("Sunday week of year is not more than number of weeks in the year",
g_date_sunday_week_of_year(d) <= sunday_weeks_in_year);
if (failed)
{
g_date_debug_print(d);
}
TEST("Sunday week of year is >= than last week of year",
g_date_sunday_week_of_year(d) >= sunday_week_of_year);
if (g_date_weekday(d) == G_DATE_SUNDAY)
{
TEST("Sunday week of year on Sunday 1 more than previous day's week of year",
(g_date_sunday_week_of_year(d) - sunday_week_of_year) == 1);
}
else
{
TEST("Sunday week of year on non-Sunday 0 more than previous day's week of year",
(g_date_sunday_week_of_year(d) - sunday_week_of_year) == 0);
}
sunday_week_of_year = g_date_sunday_week_of_year(d);
TEST("Date is equal to itself",
g_date_compare(d,d) == 0);
/*************** Increments ***********/
i = 1;
while (i < 402) /* Need to get 400 year increments in */
{
/***** Days ******/
tmp = *d;
g_date_add_days(d, i);
TEST("Adding days gives a value greater than previous",
g_date_compare(d, &tmp) > 0);
g_date_subtract_days(d, i);
TEST("Forward days then backward days returns us to current day",
g_date_day(d) == day);
if (failed)
{
g_print(" (increment %u, dmy %u %u %u) ", i, day, m, y);
g_date_debug_print(d);
}
TEST("Forward days then backward days returns us to current month",
g_date_month(d) == m);
if (failed)
{
g_print(" (increment %u, dmy %u %u %u) ", i, day, m, y);
g_date_debug_print(d);
}
TEST("Forward days then backward days returns us to current year",
g_date_year(d) == y);
if (failed)
{
g_print(" (increment %u, dmy %u %u %u) ", i, day, m, y);
g_date_debug_print(d);
}
/******* Months ********/
tmp = *d;
g_date_add_months(d, i);
TEST("Adding months gives a larger value",
g_date_compare(d, &tmp) > 0);
g_date_subtract_months(d, i);
TEST("Forward months then backward months returns us to current month",
g_date_month(d) == m);
if (failed)
{
g_print(" (increment %u, dmy %u %u %u) ", i, day, m, y);
g_date_debug_print(d);
}
TEST("Forward months then backward months returns us to current year",
g_date_year(d) == y);
if (failed)
{
g_print(" (increment %u, dmy %u %u %u) ", i, day, m, y);
g_date_debug_print(d);
}
if (day < 29)
{
/* Day should be unchanged */
TEST("Forward months then backward months returns us to current day",
g_date_day(d) == day);
if (failed)
{
g_print(" (increment %u, dmy %u %u %u) ", i, day, m, y);
g_date_debug_print(d);
}
}
else
{
/* reset the day for later tests */
g_date_set_day(d, day);
}
/******* Years ********/
tmp = *d;
g_date_add_years(d, i);
TEST("Adding years gives a larger value",
g_date_compare(d,&tmp) > 0);
g_date_subtract_years(d, i);
TEST("Forward years then backward years returns us to current month",
g_date_month(d) == m);
if (failed)
{
g_print(" (increment %u, dmy %u %u %u) ", i, day, m, y);
g_date_debug_print(d);
}
TEST("Forward years then backward years returns us to current year",
g_date_year(d) == y);
if (failed)
{
g_print(" (increment %u, dmy %u %u %u) ", i, day, m, y);
g_date_debug_print(d);
}
if (m != 2 && day != 29)
{
TEST("Forward years then backward years returns us to current day",
g_date_day(d) == day);
if (failed)
{
g_print(" (increment %u, dmy %u %u %u) ", i, day, m, y);
g_date_debug_print(d);
}
}
else
{
g_date_set_day(d, day); /* reset */
}
i += 10;
}
/***** increment test relative to our local Julian count */
if (!discontinuity) {
/* We can only run sequence tests between sequential years */
TEST("Julians are sequential with increment 1",
j+1 == g_date_julian(d));
if (failed)
{
g_print("Out of sequence, prev: %u expected: %u got: %u\n",
j, j+1, g_date_julian(d));
}
g_date_add_days(d,1);
TEST("Next day has julian 1 higher",
g_date_julian(d) == j + 2);
g_date_subtract_days(d, 1);
if (j != G_DATE_BAD_JULIAN)
{
g_date_subtract_days(d, 1);
TEST("Previous day has julian 1 lower",
g_date_julian(d) == j);
g_date_add_days(d, 1); /* back to original */
}
}
discontinuity = FALSE; /* goes away now */
fflush(stdout);
fflush(stderr);
j = g_date_julian(d); /* inc current julian */
++day;
}
++m;
}
g_print(" done\n");
++i;
prev_y = y;
y = check_years[i];
if (prev_y == G_DATE_BAD_YEAR ||
(prev_y + 1) != y) discontinuity = TRUE;
}
g_print("\n%u tests passed, %u failed\n",passed, notpassed);
return 0;
}