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Unit Tests

Browse source 
- Converted unit tests to use a UnitTest object, with more methods and
  and exit summary.
- Removed "fail" tests in tdb.t.cpp, because it artificially reduces
  the number of passing tests - the comments in the code suffice.
This commit is contained in:
Paul Beckingham 2009-02-14 17:05:50 -05:00
parent 2f7060ce56
commit eba05513f7
6 changed files with 470 additions and 264 deletions
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244
src/tests/date.t.cpp
View file

@ -1,5 +1,27 @@
////////////////////////////////////////////////////////////////////////////////
// Copyright 2005 - 2008, Paul Beckingham. All rights reserved.
// task - a command line task list manager.
//
// Copyright 2006 - 2009, Paul Beckingham.
// All rights reserved.
//
// This program is free software; you can redistribute it and/or modify it under
// the terms of the GNU General Public License as published by the Free Software
// Foundation; either version 2 of the License, or (at your option) any later
// version.
//
// This program is distributed in the hope that it will be useful, but WITHOUT
// ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
// FOR A PARTICULAR PURPOSE. See the GNU General Public License for more
// details.
//
// You should have received a copy of the GNU General Public License along with
// this program; if not, write to the
//
// Free Software Foundation, Inc.,
// 51 Franklin Street, Fifth Floor,
// Boston, MA
// 02110-1301
// USA
//
////////////////////////////////////////////////////////////////////////////////
#include <iostream>
@ -9,7 +31,7 @@
////////////////////////////////////////////////////////////////////////////////
int main (int argc, char** argv)
{
plan (100);
UnitTest t (100);
try
{
@ -17,207 +39,207 @@ int main (int argc, char** argv)
Date yesterday;
yesterday -= 1;
ok (yesterday <= now, "yesterday <= now");
ok (yesterday < now, "yesterday < now");
notok (yesterday == now, "!(yesterday == now)");
ok (yesterday != now, "yesterday != now");
ok (now >= yesterday, "now >= yesterday");
ok (now > yesterday, "now > yesterday");
t.ok (yesterday <= now, "yesterday <= now");
t.ok (yesterday < now, "yesterday < now");
t.notok (yesterday == now, "!(yesterday == now)");
t.ok (yesterday != now, "yesterday != now");
t.ok (now >= yesterday, "now >= yesterday");
t.ok (now > yesterday, "now > yesterday");
// Loose comparisons.
Date left ("7/4/2008");
Date comp1 ("7/4/2008");
ok (left.sameDay (comp1), "7/4/2008 is on the same day as 7/4/2008");
ok (left.sameMonth (comp1), "7/4/2008 is in the same month as 7/4/2008");
ok (left.sameYear (comp1), "7/4/2008 is in the same year as 7/4/2008");
t.ok (left.sameDay (comp1), "7/4/2008 is on the same day as 7/4/2008");
t.ok (left.sameMonth (comp1), "7/4/2008 is in the same month as 7/4/2008");
t.ok (left.sameYear (comp1), "7/4/2008 is in the same year as 7/4/2008");
Date comp2 ("7/5/2008");
notok (left.sameDay (comp2), "7/4/2008 is not on the same day as 7/5/2008");
ok (left.sameMonth (comp2), "7/4/2008 is in the same month as 7/5/2008");
ok (left.sameYear (comp2), "7/4/2008 is in the same year as 7/5/2008");
t.notok (left.sameDay (comp2), "7/4/2008 is not on the same day as 7/5/2008");
t.ok (left.sameMonth (comp2), "7/4/2008 is in the same month as 7/5/2008");
t.ok (left.sameYear (comp2), "7/4/2008 is in the same year as 7/5/2008");
Date comp3 ("8/4/2008");
notok (left.sameDay (comp3), "7/4/2008 is not on the same day as 8/4/2008");
notok (left.sameMonth (comp3), "7/4/2008 is not in the same month as 8/4/2008");
ok (left.sameYear (comp3), "7/4/2008 is in the same year as 8/4/2008");
t.notok (left.sameDay (comp3), "7/4/2008 is not on the same day as 8/4/2008");
t.notok (left.sameMonth (comp3), "7/4/2008 is not in the same month as 8/4/2008");
t.ok (left.sameYear (comp3), "7/4/2008 is in the same year as 8/4/2008");
Date comp4 ("7/4/2009");
notok (left.sameDay (comp4), "7/4/2008 is not on the same day as 7/4/2009");
notok (left.sameMonth (comp4), "7/4/2008 is not in the same month as 7/4/2009");
notok (left.sameYear (comp4), "7/4/2008 is not in the same year as 7/4/2009");
t.notok (left.sameDay (comp4), "7/4/2008 is not on the same day as 7/4/2009");
t.notok (left.sameMonth (comp4), "7/4/2008 is not in the same month as 7/4/2009");
t.notok (left.sameYear (comp4), "7/4/2008 is not in the same year as 7/4/2009");
// Validity.
ok (Date::valid (2, 29, 2008), "valid: 2/29/2008");
notok (Date::valid (2, 29, 2007), "invalid: 2/29/2007");
t.ok (Date::valid (2, 29, 2008), "valid: 2/29/2008");
t.notok (Date::valid (2, 29, 2007), "invalid: 2/29/2007");
// Leap year.
ok (Date::leapYear (2008), "2008 is a leap year");
notok (Date::leapYear (2007), "2007 is not a leap year");
ok (Date::leapYear (2000), "2000 is a leap year");
ok (Date::leapYear (1900), "1900 is a leap year");
t.ok (Date::leapYear (2008), "2008 is a leap year");
t.notok (Date::leapYear (2007), "2007 is not a leap year");
t.ok (Date::leapYear (2000), "2000 is a leap year");
t.ok (Date::leapYear (1900), "1900 is a leap year");
// Days in month.
is (Date::daysInMonth (2, 2008), 29, "29 days in February 2008");
is (Date::daysInMonth (2, 2007), 28, "28 days in February 2007");
t.is (Date::daysInMonth (2, 2008), 29, "29 days in February 2008");
t.is (Date::daysInMonth (2, 2007), 28, "28 days in February 2007");
// Names.
is (Date::monthName (1), "January", "1 = January");
is (Date::monthName (2), "February", "2 = February");
is (Date::monthName (3), "March", "3 = March");
is (Date::monthName (4), "April", "4 = April");
is (Date::monthName (5), "May", "5 = May");
is (Date::monthName (6), "June", "6 = June");
is (Date::monthName (7), "July", "7 = July");
is (Date::monthName (8), "August", "8 = August");
is (Date::monthName (9), "September", "9 = September");
is (Date::monthName (10), "October", "10 = October");
is (Date::monthName (11), "November", "11 = November");
is (Date::monthName (12), "December", "12 = December");
t.is (Date::monthName (1), "January", "1 = January");
t.is (Date::monthName (2), "February", "2 = February");
t.is (Date::monthName (3), "March", "3 = March");
t.is (Date::monthName (4), "April", "4 = April");
t.is (Date::monthName (5), "May", "5 = May");
t.is (Date::monthName (6), "June", "6 = June");
t.is (Date::monthName (7), "July", "7 = July");
t.is (Date::monthName (8), "August", "8 = August");
t.is (Date::monthName (9), "September", "9 = September");
t.is (Date::monthName (10), "October", "10 = October");
t.is (Date::monthName (11), "November", "11 = November");
t.is (Date::monthName (12), "December", "12 = December");
is (Date::dayName (0), "Sunday", "0 == Sunday");
is (Date::dayName (1), "Monday", "1 == Monday");
is (Date::dayName (2), "Tuesday", "2 == Tuesday");
is (Date::dayName (3), "Wednesday", "3 == Wednesday");
is (Date::dayName (4), "Thursday", "4 == Thursday");
is (Date::dayName (5), "Friday", "5 == Friday");
is (Date::dayName (6), "Saturday", "6 == Saturday");
t.is (Date::dayName (0), "Sunday", "0 == Sunday");
t.is (Date::dayName (1), "Monday", "1 == Monday");
t.is (Date::dayName (2), "Tuesday", "2 == Tuesday");
t.is (Date::dayName (3), "Wednesday", "3 == Wednesday");
t.is (Date::dayName (4), "Thursday", "4 == Thursday");
t.is (Date::dayName (5), "Friday", "5 == Friday");
t.is (Date::dayName (6), "Saturday", "6 == Saturday");
is (Date::dayOfWeek ("SUNDAY"), 0, "SUNDAY == 0");
is (Date::dayOfWeek ("sunday"), 0, "sunday == 0");
is (Date::dayOfWeek ("Sunday"), 0, "Sunday == 0");
is (Date::dayOfWeek ("Monday"), 1, "Monday == 1");
is (Date::dayOfWeek ("Tuesday"), 2, "Tuesday == 2");
is (Date::dayOfWeek ("Wednesday"), 3, "Wednesday == 3");
is (Date::dayOfWeek ("Thursday"), 4, "Thursday == 4");
is (Date::dayOfWeek ("Friday"), 5, "Friday == 5");
is (Date::dayOfWeek ("Saturday"), 6, "Saturday == 6");
t.is (Date::dayOfWeek ("SUNDAY"), 0, "SUNDAY == 0");
t.is (Date::dayOfWeek ("sunday"), 0, "sunday == 0");
t.is (Date::dayOfWeek ("Sunday"), 0, "Sunday == 0");
t.is (Date::dayOfWeek ("Monday"), 1, "Monday == 1");
t.is (Date::dayOfWeek ("Tuesday"), 2, "Tuesday == 2");
t.is (Date::dayOfWeek ("Wednesday"), 3, "Wednesday == 3");
t.is (Date::dayOfWeek ("Thursday"), 4, "Thursday == 4");
t.is (Date::dayOfWeek ("Friday"), 5, "Friday == 5");
t.is (Date::dayOfWeek ("Saturday"), 6, "Saturday == 6");
Date happyNewYear (1, 1, 2008);
is (happyNewYear.dayOfWeek (), 2, "1/1/2008 == Tuesday");
is (happyNewYear.month (), 1, "1/1/2008 == January");
is (happyNewYear.day (), 1, "1/1/2008 == 1");
is (happyNewYear.year (), 2008, "1/1/2008 == 2008");
t.is (happyNewYear.dayOfWeek (), 2, "1/1/2008 == Tuesday");
t.is (happyNewYear.month (), 1, "1/1/2008 == January");
t.is (happyNewYear.day (), 1, "1/1/2008 == 1");
t.is (happyNewYear.year (), 2008, "1/1/2008 == 2008");
is (now - yesterday, 1, "today - yesterday == 1");
t.is (now - yesterday, 1, "today - yesterday == 1");
is (happyNewYear.toString (), "1/1/2008", "toString 1/1/2008");
t.is (happyNewYear.toString (), "1/1/2008", "toString 1/1/2008");
int m, d, y;
happyNewYear.toMDY (m, d, y);
is (m, 1, "1/1/2008 == January");
is (d, 1, "1/1/2008 == 1");
is (y, 2008, "1/1/2008 == 2008");
t.is (m, 1, "1/1/2008 == January");
t.is (d, 1, "1/1/2008 == 1");
t.is (y, 2008, "1/1/2008 == 2008");
Date epoch (9, 8, 2001);
ok ((int)epoch.toEpoch () < 1000000000, "9/8/2001 < 1,000,000,000");
t.ok ((int)epoch.toEpoch () < 1000000000, "9/8/2001 < 1,000,000,000");
epoch += 86400;
ok ((int)epoch.toEpoch () > 1000000000, "9/9/2001 > 1,000,000,000");
t.ok ((int)epoch.toEpoch () > 1000000000, "9/9/2001 > 1,000,000,000");
Date fromEpoch (epoch.toEpoch ());
is (fromEpoch.toString (), epoch.toString (), "ctor (time_t)");
t.is (fromEpoch.toString (), epoch.toString (), "ctor (time_t)");
// Date parsing.
Date fromString1 ("1/1/2008");
is (fromString1.month (), 1, "ctor (std::string) -> m");
is (fromString1.day (), 1, "ctor (std::string) -> d");
is (fromString1.year (), 2008, "ctor (std::string) -> y");
t.is (fromString1.month (), 1, "ctor (std::string) -> m");
t.is (fromString1.day (), 1, "ctor (std::string) -> d");
t.is (fromString1.year (), 2008, "ctor (std::string) -> y");
Date fromString2 ("1/1/2008", "m/d/Y");
is (fromString2.month (), 1, "ctor (std::string) -> m");
is (fromString2.day (), 1, "ctor (std::string) -> d");
is (fromString2.year (), 2008, "ctor (std::string) -> y");
t.is (fromString2.month (), 1, "ctor (std::string) -> m");
t.is (fromString2.day (), 1, "ctor (std::string) -> d");
t.is (fromString2.year (), 2008, "ctor (std::string) -> y");
Date fromString3 ("20080101", "YMD");
is (fromString3.month (), 1, "ctor (std::string) -> m");
is (fromString3.day (), 1, "ctor (std::string) -> d");
is (fromString3.year (), 2008, "ctor (std::string) -> y");
t.is (fromString3.month (), 1, "ctor (std::string) -> m");
t.is (fromString3.day (), 1, "ctor (std::string) -> d");
t.is (fromString3.year (), 2008, "ctor (std::string) -> y");
Date fromString4 ("12/31/2007");
is (fromString4.month (), 12, "ctor (std::string) -> m");
is (fromString4.day (), 31, "ctor (std::string) -> d");
is (fromString4.year (), 2007, "ctor (std::string) -> y");
t.is (fromString4.month (), 12, "ctor (std::string) -> m");
t.is (fromString4.day (), 31, "ctor (std::string) -> d");
t.is (fromString4.year (), 2007, "ctor (std::string) -> y");
Date fromString5 ("12/31/2007", "m/d/Y");
is (fromString5.month (), 12, "ctor (std::string) -> m");
is (fromString5.day (), 31, "ctor (std::string) -> d");
is (fromString5.year (), 2007, "ctor (std::string) -> y");
t.is (fromString5.month (), 12, "ctor (std::string) -> m");
t.is (fromString5.day (), 31, "ctor (std::string) -> d");
t.is (fromString5.year (), 2007, "ctor (std::string) -> y");
Date fromString6 ("20071231", "YMD");
is (fromString6.month (), 12, "ctor (std::string) -> m");
is (fromString6.day (), 31, "ctor (std::string) -> d");
is (fromString6.year (), 2007, "ctor (std::string) -> y");
t.is (fromString6.month (), 12, "ctor (std::string) -> m");
t.is (fromString6.day (), 31, "ctor (std::string) -> d");
t.is (fromString6.year (), 2007, "ctor (std::string) -> y");
Date fromString7 ("01/01/2008", "m/d/Y");
is (fromString7.month (), 1, "ctor (std::string) -> m");
is (fromString7.day (), 1, "ctor (std::string) -> d");
is (fromString7.year (), 2008, "ctor (std::string) -> y");
t.is (fromString7.month (), 1, "ctor (std::string) -> m");
t.is (fromString7.day (), 1, "ctor (std::string) -> d");
t.is (fromString7.year (), 2008, "ctor (std::string) -> y");
// Relative dates.
Date r1 ("today");
ok (r1.sameDay (now), "today = now");
t.ok (r1.sameDay (now), "today = now");
Date r2 ("tomorrow");
ok (r2.sameDay (now + 86400), "tomorrow = now + 1d");
t.ok (r2.sameDay (now + 86400), "tomorrow = now + 1d");
Date r3 ("yesterday");
ok (r3.sameDay (now - 86400), "yesterday = now - 1d");
t.ok (r3.sameDay (now - 86400), "yesterday = now - 1d");
Date r4 ("sunday");
if (now.dayOfWeek () >= 0)
ok (r4.sameDay (now + (0 - now.dayOfWeek () + 7) * 86400), "next sunday");
t.ok (r4.sameDay (now + (0 - now.dayOfWeek () + 7) * 86400), "next sunday");
else
ok (r4.sameDay (now + (0 - now.dayOfWeek ()) * 86400), "next sunday");;
t.ok (r4.sameDay (now + (0 - now.dayOfWeek ()) * 86400), "next sunday");;
Date r5 ("monday");
if (now.dayOfWeek () >= 1)
ok (r5.sameDay (now + (1 - now.dayOfWeek () + 7) * 86400), "next monday");
t.ok (r5.sameDay (now + (1 - now.dayOfWeek () + 7) * 86400), "next monday");
else
ok (r5.sameDay (now + (1 - now.dayOfWeek ()) * 86400), "next monday");;
t.ok (r5.sameDay (now + (1 - now.dayOfWeek ()) * 86400), "next monday");;
Date r6 ("tuesday");
if (now.dayOfWeek () >= 2)
ok (r6.sameDay (now + (2 - now.dayOfWeek () + 7) * 86400), "next tuesday");
t.ok (r6.sameDay (now + (2 - now.dayOfWeek () + 7) * 86400), "next tuesday");
else
ok (r6.sameDay (now + (2 - now.dayOfWeek ()) * 86400), "next tuesday");;
t.ok (r6.sameDay (now + (2 - now.dayOfWeek ()) * 86400), "next tuesday");;
Date r7 ("wednesday");
if (now.dayOfWeek () >= 3)
ok (r7.sameDay (now + (3 - now.dayOfWeek () + 7) * 86400), "next wednesday");
t.ok (r7.sameDay (now + (3 - now.dayOfWeek () + 7) * 86400), "next wednesday");
else
ok (r7.sameDay (now + (3 - now.dayOfWeek ()) * 86400), "next wednesday");;
t.ok (r7.sameDay (now + (3 - now.dayOfWeek ()) * 86400), "next wednesday");;
Date r8 ("thursday");
if (now.dayOfWeek () >= 4)
ok (r8.sameDay (now + (4 - now.dayOfWeek () + 7) * 86400), "next thursday");
t.ok (r8.sameDay (now + (4 - now.dayOfWeek () + 7) * 86400), "next thursday");
else
ok (r8.sameDay (now + (4 - now.dayOfWeek ()) * 86400), "next thursday");;
t.ok (r8.sameDay (now + (4 - now.dayOfWeek ()) * 86400), "next thursday");;
Date r9 ("friday");
if (now.dayOfWeek () >= 5)
ok (r9.sameDay (now + (5 - now.dayOfWeek () + 7) * 86400), "next friday");
t.ok (r9.sameDay (now + (5 - now.dayOfWeek () + 7) * 86400), "next friday");
else
ok (r9.sameDay (now + (5 - now.dayOfWeek ()) * 86400), "next friday");;
t.ok (r9.sameDay (now + (5 - now.dayOfWeek ()) * 86400), "next friday");;
Date r10 ("saturday");
if (now.dayOfWeek () >= 6)
ok (r10.sameDay (now + (6 - now.dayOfWeek () + 7) * 86400), "next saturday");
t.ok (r10.sameDay (now + (6 - now.dayOfWeek () + 7) * 86400), "next saturday");
else
ok (r10.sameDay (now + (6 - now.dayOfWeek ()) * 86400), "next saturday");;
t.ok (r10.sameDay (now + (6 - now.dayOfWeek ()) * 86400), "next saturday");;
Date r11 ("eow");
ok (r11 < now + (8 * 86400), "eow < 7 days away");
t.ok (r11 < now + (8 * 86400), "eow < 7 days away");
Date r12 ("eom");
ok (r12.sameMonth (now), "eom in same month as now");
t.ok (r12.sameMonth (now), "eom in same month as now");
Date r13 ("eoy");
ok (r13.sameYear (now), "eoy in same year as now");
t.ok (r13.sameYear (now), "eoy in same year as now");
}
catch (std::string& e)
{
fail ("Exception thrown.");
diag (e);
t.fail ("Exception thrown.");
t.diag (e);
}
return 0;

60
src/tests/duration.t.cpp
View file

@ -1,5 +1,27 @@
////////////////////////////////////////////////////////////////////////////////
// Copyright 2005 - 2008, Paul Beckingham. All rights reserved.
// task - a command line task list manager.
//
// Copyright 2006 - 2009, Paul Beckingham.
// All rights reserved.
//
// This program is free software; you can redistribute it and/or modify it under
// the terms of the GNU General Public License as published by the Free Software
// Foundation; either version 2 of the License, or (at your option) any later
// version.
//
// This program is distributed in the hope that it will be useful, but WITHOUT
// ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
// FOR A PARTICULAR PURPOSE. See the GNU General Public License for more
// details.
//
// You should have received a copy of the GNU General Public License along with
// this program; if not, write to the
//
// Free Software Foundation, Inc.,
// 51 Franklin Street, Fifth Floor,
// Boston, MA
// 02110-1301
// USA
//
////////////////////////////////////////////////////////////////////////////////
#include <iostream>
@ -16,27 +38,27 @@
// biannual, biyearly, annual, semiannual, yearly, Ny
int main (int argc, char** argv)
{
plan (17);
UnitTest t (17);
std::string d;
d = "daily"; is (convertDuration (d), 1, "duration daily = 1");
d = "day"; is (convertDuration (d), 1, "duration day = 1");
d = "0d"; is (convertDuration (d), 0, "duration 0d = 0");
d = "1d"; is (convertDuration (d), 1, "duration 1d = 1");
d = "7d"; is (convertDuration (d), 7, "duration 7d = 7");
d = "10d"; is (convertDuration (d), 10, "duration 10d = 10");
d = "100d"; is (convertDuration (d), 100, "duration 100d = 100");
d = "daily"; t.is (convertDuration (d), 1, "duration daily = 1");
d = "day"; t.is (convertDuration (d), 1, "duration day = 1");
d = "0d"; t.is (convertDuration (d), 0, "duration 0d = 0");
d = "1d"; t.is (convertDuration (d), 1, "duration 1d = 1");
d = "7d"; t.is (convertDuration (d), 7, "duration 7d = 7");
d = "10d"; t.is (convertDuration (d), 10, "duration 10d = 10");
d = "100d"; t.is (convertDuration (d), 100, "duration 100d = 100");
d = "weekly"; is (convertDuration (d), 7, "duration weekly = 7");
d = "sennight"; is (convertDuration (d), 7, "duration sennight = 7");
d = "biweekly"; is (convertDuration (d), 14, "duration biweekly = 14");
d = "fortnight"; is (convertDuration (d), 14, "duration fortnight = 14");
d = "week"; is (convertDuration (d), 7, "duration week = 7");
d = "0w"; is (convertDuration (d), 0, "duration 0w = 0");
d = "1w"; is (convertDuration (d), 7, "duration 1w = 7");
d = "7w"; is (convertDuration (d), 49, "duration 7w = 49");
d = "10w"; is (convertDuration (d), 70, "duration 10w = 70");
d = "100w"; is (convertDuration (d), 700, "duration 100w = 700");
d = "weekly"; t.is (convertDuration (d), 7, "duration weekly = 7");
d = "sennight"; t.is (convertDuration (d), 7, "duration sennight = 7");
d = "biweekly"; t.is (convertDuration (d), 14, "duration biweekly = 14");
d = "fortnight"; t.is (convertDuration (d), 14, "duration fortnight = 14");
d = "week"; t.is (convertDuration (d), 7, "duration week = 7");
d = "0w"; t.is (convertDuration (d), 0, "duration 0w = 0");
d = "1w"; t.is (convertDuration (d), 7, "duration 1w = 7");
d = "7w"; t.is (convertDuration (d), 49, "duration 7w = 49");
d = "10w"; t.is (convertDuration (d), 70, "duration 10w = 70");
d = "100w"; t.is (convertDuration (d), 700, "duration 100w = 700");
return 0;
}

22
src/tests/t.t.cpp
View file

@ -1,7 +1,7 @@
////////////////////////////////////////////////////////////////////////////////
// task - a command line task list manager.
//
// Copyright 2006 - 2008, Paul Beckingham.
// Copyright 2006 - 2009, Paul Beckingham.
// All rights reserved.
//
// This program is free software; you can redistribute it and/or modify it under
@ -31,34 +31,34 @@
////////////////////////////////////////////////////////////////////////////////
int main (int argc, char** argv)
{
plan (5);
UnitTest test (5);
T t;
std::string s = t.compose ();
is ((int)s.length (), 46, "T::T (); T::compose ()");
diag (s);
test.is ((int)s.length (), 46, "T::T (); T::compose ()");
test.diag (s);
t.setStatus (T::completed);
s = t.compose ();
is (s[37], '+', "T::setStatus (completed)");
diag (s);
test.is (s[37], '+', "T::setStatus (completed)");
test.diag (s);
t.setStatus (T::deleted);
s = t.compose ();
is (s[37], 'X', "T::setStatus (deleted)");
diag (s);
test.is (s[37], 'X', "T::setStatus (deleted)");
test.diag (s);
t.setStatus (T::recurring);
s = t.compose ();
is (s[37], 'r', "T::setStatus (recurring)");
diag (s);
test.is (s[37], 'r', "T::setStatus (recurring)");
test.diag (s);
// Round trip test.
std::string sample = "00000000-0000-0000-0000-000000000000 - [] [] Sample";
T t2;
t2.parse (sample);
sample += "\n";
is (t2.compose (), sample, "T::parse -> T::compose round trip");
test.is (t2.compose (), sample, "T::parse -> T::compose round trip");
return 0;
}

93
src/tests/tdb.t.cpp
View file

@ -34,7 +34,7 @@
////////////////////////////////////////////////////////////////////////////////
int main (int argc, char** argv)
{
plan (43);
UnitTest t (38);
try
{
@ -46,14 +46,14 @@ int main (int argc, char** argv)
TDB tdb;
tdb.dataDirectory (".");
std::vector <T> all;
ok (!tdb.pendingT (all), "TDB::pendingT read empty db");
is ((int) all.size (), 0, "empty db");
ok (!tdb.allPendingT (all), "TDB::allPendingT read empty db");
is ((int) all.size (), 0, "empty db");
ok (!tdb.completedT (all), "TDB::completedT read empty db");
is ((int) all.size (), 0, "empty db");
ok (!tdb.allCompletedT (all), "TDB::allCompletedT read empty db");
is ((int) all.size (), 0, "empty db");
t.ok (!tdb.pendingT (all), "TDB::pendingT read empty db");
t.is ((int) all.size (), 0, "empty db");
t.ok (!tdb.allPendingT (all), "TDB::allPendingT read empty db");
t.is ((int) all.size (), 0, "empty db");
t.ok (!tdb.completedT (all), "TDB::completedT read empty db");
t.is ((int) all.size (), 0, "empty db");
t.ok (!tdb.allCompletedT (all), "TDB::allCompletedT read empty db");
t.is ((int) all.size (), 0, "empty db");
// Add a new task.
T t1;
@ -61,76 +61,69 @@ int main (int argc, char** argv)
t1.setStatus (T::pending);
t1.setAttribute ("project", "p1");
t1.setDescription ("task 1");
diag (t1.compose ());
ok (tdb.addT (t1), "TDB::addT t1");
t.diag (t1.compose ());
t.ok (tdb.addT (t1), "TDB::addT t1");
// Verify as above.
ok (tdb.pendingT (all), "TDB::pendingT read db");
is ((int) all.size (), 1, "empty db");
ok (tdb.allPendingT (all), "TDB::allPendingT read db");
is ((int) all.size (), 1, "empty db");
ok (!tdb.completedT (all), "TDB::completedT read empty db");
is ((int) all.size (), 0, "empty db");
ok (!tdb.allCompletedT (all), "TDB::allCompletedT read empty db");
is ((int) all.size (), 0, "empty db");
t.ok (tdb.pendingT (all), "TDB::pendingT read db");
t.is ((int) all.size (), 1, "empty db");
t.ok (tdb.allPendingT (all), "TDB::allPendingT read db");
t.is ((int) all.size (), 1, "empty db");
t.ok (!tdb.completedT (all), "TDB::completedT read empty db");
t.is ((int) all.size (), 0, "empty db");
t.ok (!tdb.allCompletedT (all), "TDB::allCompletedT read empty db");
t.is ((int) all.size (), 0, "empty db");
// TODO Modify task.
fail ("modify");
fail ("verify");
// Complete task.
ok (tdb.completeT (t1), "TDB::completeT t1");;
ok (tdb.pendingT (all), "TDB::pendingT read db");
is ((int) all.size (), 0, "empty db");
ok (tdb.allPendingT (all), "TDB::allPendingT read db");
is ((int) all.size (), 1, "empty db");
ok (!tdb.completedT (all), "TDB::completedT read empty db");
is ((int) all.size (), 0, "empty db");
ok (!tdb.allCompletedT (all), "TDB::allCompletedT read empty db");
is ((int) all.size (), 0, "empty db");
t.ok (tdb.completeT (t1), "TDB::completeT t1");;
t.ok (tdb.pendingT (all), "TDB::pendingT read db");
t.is ((int) all.size (), 0, "empty db");
t.ok (tdb.allPendingT (all), "TDB::allPendingT read db");
t.is ((int) all.size (), 1, "empty db");
t.ok (!tdb.completedT (all), "TDB::completedT read empty db");
t.is ((int) all.size (), 0, "empty db");
t.ok (!tdb.allCompletedT (all), "TDB::allCompletedT read empty db");
t.is ((int) all.size (), 0, "empty db");
is (tdb.gc (), 1, "TDB::gc");
ok (tdb.pendingT (all), "TDB::pendingT read empty db");
is ((int) all.size (), 0, "empty db");
ok (tdb.allPendingT (all), "TDB::allPendingT read empty db");
is ((int) all.size (), 0, "empty db");
ok (tdb.completedT (all), "TDB::completedT read db");
is ((int) all.size (), 1, "empty db");
ok (tdb.allCompletedT (all), "TDB::allCompletedT read db");
is ((int) all.size (), 1, "empty db");
t.is (tdb.gc (), 1, "TDB::gc");
t.ok (tdb.pendingT (all), "TDB::pendingT read empty db");
t.is ((int) all.size (), 0, "empty db");
t.ok (tdb.allPendingT (all), "TDB::allPendingT read empty db");
t.is ((int) all.size (), 0, "empty db");
t.ok (tdb.completedT (all), "TDB::completedT read db");
t.is ((int) all.size (), 1, "empty db");
t.ok (tdb.allCompletedT (all), "TDB::allCompletedT read db");
t.is ((int) all.size (), 1, "empty db");
// Add a new task.
T t2;
t2.setId (2);
t2.setAttribute ("project", "p2");
t2.setDescription ("task 2");
diag (t2.compose ());
ok (tdb.addT (t2), "TDB::addT t2");
fail ("verify");
t.diag (t2.compose ());
t.ok (tdb.addT (t2), "TDB::addT t2");
// Delete task.
ok (tdb.deleteT (t2), "TDB::deleteT t2");
fail ("verify");
t.ok (tdb.deleteT (t2), "TDB::deleteT t2");
// GC the files.
is (tdb.gc (), 1, "1 <- TDB::gc");
t.is (tdb.gc (), 1, "1 <- TDB::gc");
}
catch (std::string& error)
{
diag (error);
t.diag (error);
return -1;
}
catch (...)
{
diag ("Unknown error.");
t.diag ("Unknown error.");
return -2;
}
unlink ("./pending.data");
unlink ("./completed.data");

266
src/tests/test.cpp
View file

@ -1,7 +1,7 @@
////////////////////////////////////////////////////////////////////////////////
// task - a command line task list manager.
//
// Copyright 2006 - 2008, Paul Beckingham.
// Copyright 2006 - 2009, Paul Beckingham.
// All rights reserved.
//
// This program is free software; you can redistribute it and/or modify it under
@ -25,81 +25,157 @@
//
////////////////////////////////////////////////////////////////////////////////
#include <iostream>
#include <iomanip>
#include <string>
#include <task.h>
static int total = 0;
static int counter = 0;
#include "test.h"
///////////////////////////////////////////////////////////////////////////////
static void check (void)
UnitTest::UnitTest ()
: mPlanned (0)
, mCounter (0)
, mPassed (0)
, mFailed (0)
, mSkipped (0)
{
if (counter > total)
std::cout << "# Warning: There are more tests than planned."
}
///////////////////////////////////////////////////////////////////////////////
UnitTest::UnitTest (int planned)
: mPlanned (planned)
, mCounter (0)
, mPassed (0)
, mFailed (0)
, mSkipped (0)
{
std::cout << "1.." << mPlanned << std::endl;
}
///////////////////////////////////////////////////////////////////////////////
UnitTest::~UnitTest ()
{
float percentPassed = 0.0;
if (mPlanned > 0)
percentPassed = (100.0 * mPassed) / max (mPlanned, mPassed + mFailed + mSkipped);
if (mCounter < mPlanned)
{
std::cout << "# Only "
<< mCounter
<< " tests, out of a planned "
<< mPlanned
<< " were run."
<< std::endl;
mSkipped += mPlanned - mCounter;
}
else if (mCounter > mPlanned)
std::cout << "# "
<< mCounter
<< " tests were run, but only "
<< mPlanned
<< " were planned."
<< std::endl;
std::cout << "# "
<< mPassed
<< " passed, "
<< mFailed
<< " failed, "
<< mSkipped
<< " skipped. "
<< std::setprecision (3) << percentPassed
<< "% passed."
<< std::endl;
}
///////////////////////////////////////////////////////////////////////////////
void plan (int quantity)
void UnitTest::plan (int planned)
{
total = quantity;
std::cout << "1.." << quantity << std::endl;
check ();
mPlanned = planned;
mCounter = 0;
mPassed = 0;
mFailed = 0;
mSkipped = 0;
std::cout << "1.." << mPlanned << std::endl;
}
///////////////////////////////////////////////////////////////////////////////
void ok (bool expression, const std::string& name)
void UnitTest::planMore (int extra)
{
++counter;
mPlanned += extra;
std::cout << "1.." << mPlanned << std::endl;
}
///////////////////////////////////////////////////////////////////////////////
void UnitTest::ok (bool expression, const std::string& name)
{
++mCounter;
if (expression)
{
++mPassed;
std::cout << "ok "
<< counter
<< mCounter
<< " - "
<< name
<< std::endl;
}
else
{
++mFailed;
std::cout << "not ok "
<< counter
<< mCounter
<< " - "
<< name
<< std::endl;
check ();
}
}
///////////////////////////////////////////////////////////////////////////////
void notok (bool expression, const std::string& name)
void UnitTest::notok (bool expression, const std::string& name)
{
++counter;
++mCounter;
if (!expression)
{
++mPassed;
std::cout << "ok "
<< counter
<< mCounter
<< " - "
<< name
<< std::endl;
}
else
{
++mFailed;
std::cout << "not ok "
<< counter
<< mCounter
<< " - "
<< name
<< std::endl;
check ();
}
}
///////////////////////////////////////////////////////////////////////////////
void is (bool actual, bool expected, const std::string& name)
void UnitTest::is (bool actual, bool expected, const std::string& name)
{
++counter;
++mCounter;
if (actual == expected)
{
++mPassed;
std::cout << "ok "
<< counter
<< mCounter
<< " - "
<< name
<< std::endl;
}
else
{
++mFailed;
std::cout << "not ok "
<< counter
<< mCounter
<< " - "
<< name
<< std::endl
@ -109,22 +185,27 @@ void is (bool actual, bool expected, const std::string& name)
<< "# got: "
<< actual
<< std::endl;
check ();
}
}
///////////////////////////////////////////////////////////////////////////////
void is (size_t actual, size_t expected, const std::string& name)
void UnitTest::is (size_t actual, size_t expected, const std::string& name)
{
++counter;
++mCounter;
if (actual == expected)
{
++mPassed;
std::cout << "ok "
<< counter
<< mCounter
<< " - "
<< name
<< std::endl;
}
else
{
++mFailed;
std::cout << "not ok "
<< counter
<< mCounter
<< " - "
<< name
<< std::endl
@ -134,22 +215,27 @@ void is (size_t actual, size_t expected, const std::string& name)
<< "# got: "
<< actual
<< std::endl;
check ();
}
}
///////////////////////////////////////////////////////////////////////////////
void is (int actual, int expected, const std::string& name)
void UnitTest::is (int actual, int expected, const std::string& name)
{
++counter;
++mCounter;
if (actual == expected)
{
++mPassed;
std::cout << "ok "
<< counter
<< mCounter
<< " - "
<< name
<< std::endl;
}
else
{
++mFailed;
std::cout << "not ok "
<< counter
<< mCounter
<< " - "
<< name
<< std::endl
@ -159,22 +245,27 @@ void is (int actual, int expected, const std::string& name)
<< "# got: "
<< actual
<< std::endl;
check ();
}
}
///////////////////////////////////////////////////////////////////////////////
void is (double actual, double expected, const std::string& name)
void UnitTest::is (double actual, double expected, const std::string& name)
{
++counter;
++mCounter;
if (actual == expected)
{
++mPassed;
std::cout << "ok "
<< counter
<< mCounter
<< " - "
<< name
<< std::endl;
}
else
{
++mFailed;
std::cout << "not ok "
<< counter
<< mCounter
<< " - "
<< name
<< std::endl
@ -184,22 +275,27 @@ void is (double actual, double expected, const std::string& name)
<< "# got: "
<< actual
<< std::endl;
check ();
}
}
///////////////////////////////////////////////////////////////////////////////
void is (char actual, char expected, const std::string& name)
void UnitTest::is (char actual, char expected, const std::string& name)
{
++counter;
++mCounter;
if (actual == expected)
{
++mPassed;
std::cout << "ok "
<< counter
<< mCounter
<< " - "
<< name
<< std::endl;
}
else
{
++mFailed;
std::cout << "not ok "
<< counter
<< mCounter
<< " - "
<< name
<< std::endl
@ -209,25 +305,30 @@ void is (char actual, char expected, const std::string& name)
<< "# got: "
<< actual
<< std::endl;
check ();
}
}
///////////////////////////////////////////////////////////////////////////////
void is (
void UnitTest::is (
const std::string& actual,
const std::string& expected,
const std::string& name)
{
++counter;
++mCounter;
if (actual == expected)
{
++mPassed;
std::cout << "ok "
<< counter
<< mCounter
<< " - "
<< name
<< std::endl;
}
else
{
++mFailed;
std::cout << "not ok "
<< counter
<< mCounter
<< " - "
<< name
<< std::endl
@ -239,11 +340,46 @@ void is (
<< actual
<< "'"
<< std::endl;
check ();
}
}
///////////////////////////////////////////////////////////////////////////////
void diag (const std::string& text)
void UnitTest::is (
const char* actual,
const char* expected,
const std::string& name)
{
++mCounter;
if (! strcmp (actual, expected))
{
++mPassed;
std::cout << "ok "
<< mCounter
<< " - "
<< name
<< std::endl;
}
else
{
++mFailed;
std::cout << "not ok "
<< mCounter
<< " - "
<< name
<< std::endl
<< "# expected: '"
<< expected
<< "'"
<< std::endl
<< "# got: '"
<< actual
<< "'"
<< std::endl;
}
}
///////////////////////////////////////////////////////////////////////////////
void UnitTest::diag (const std::string& text)
{
std::string trimmed = trim (text, " \t\n\r\f");
@ -251,22 +387,36 @@ void diag (const std::string& text)
}
///////////////////////////////////////////////////////////////////////////////
void pass (const std::string& text)
void UnitTest::pass (const std::string& text)
{
++counter;
++mCounter;
++mPassed;
std::cout << "ok "
<< counter
<< mCounter
<< " "
<< text
<< std::endl;
}
///////////////////////////////////////////////////////////////////////////////
void fail (const std::string& text)
void UnitTest::fail (const std::string& text)
{
++counter;
++mCounter;
++mFailed;
std::cout << "not ok "
<< counter
<< mCounter
<< " "
<< text
<< std::endl;
}
///////////////////////////////////////////////////////////////////////////////
void UnitTest::skip (const std::string& text)
{
++mCounter;
++mSkipped;
std::cout << "skip "
<< mCounter
<< " "
<< text
<< std::endl;

49
src/tests/test.h
View file

@ -1,7 +1,7 @@
////////////////////////////////////////////////////////////////////////////////
// task - a command line task list manager.
//
// Copyright 2006 - 2008, Paul Beckingham.
// Copyright 2006 - 2009, Paul Beckingham.
// All rights reserved.
//
// This program is free software; you can redistribute it and/or modify it under
@ -24,23 +24,42 @@
// USA
//
////////////////////////////////////////////////////////////////////////////////
#ifndef INCLUDED_TEST
#define INCLUDED_TEST
#ifndef INCLUDED_UNITTEST
#define INCLUDED_UNITTEST
#include <string>
void plan (int);
void ok (bool, const std::string&);
void notok (bool, const std::string&);
void is (bool, bool, const std::string&);
void is (int, int, const std::string&);
void is (size_t, size_t, const std::string&);
void is (double, double, const std::string&);
void is (char, char, const std::string&);
void is (const std::string&, const std::string&, const std::string&);
void diag (const std::string&);
void fail (const std::string&);
void pass (const std::string&);
class UnitTest
{
public:
UnitTest ();
UnitTest (int);
~UnitTest ();
void plan (int);
void planMore (int);
void ok (bool, const std::string&);
void notok (bool, const std::string&);
void is (bool, bool, const std::string&);
void is (size_t, size_t, const std::string&);
void is (int, int, const std::string&);
void is (double, double, const std::string&);
void is (char, char, const std::string&);
void is (const std::string&, const std::string&, const std::string&);
void is (const char*, const char*, const std::string&);
void diag (const std::string&);
void pass (const std::string&);
void fail (const std::string&);
void skip (const std::string&);
private:
int mPlanned;
int mCounter;
int mPassed;
int mFailed;
int mSkipped;
};
#endif
////////////////////////////////////////////////////////////////////////////////