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taskwarrior/test/tdb.t.cpp
Paul Beckingham b49523c06d Regex 
- Implemented RegX class to maintain a separate compile, and match
  method, thereby allowing efficient re-use of the regex.  This is
  critical to Expression::eval, where an identical regex might be
  applied to every task.
- Obsoleted rx.{h,cpp}, which combined the compile and match steps
  into a single call, and is therefore not efficient when used in
  the context of filtering.
- Fixed some unit tests that weren't building.  Now they do.  They
  don't work of course (don't be silly) but that's a problem for
  another day.
- Modified all code that relies on rx.h to use RegX.h.
2011-06-21 01:43:57 -04:00

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////////////////////////////////////////////////////////////////////////////////
// taskwarrior - a command line task list manager.
//
// Copyright 2006 - 2011, Paul Beckingham, Federico Hernandez.
// 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>
#include <unistd.h>
#include <main.h>
#include <test.h>
Context context;
////////////////////////////////////////////////////////////////////////////////
void get (std::vector <Task>& pending, std::vector <Task>& completed)
{
TDB tdb;
tdb.location (".");
tdb.lock ();
tdb.loadPending (pending);
tdb.loadCompleted (completed);
tdb.unlock ();
}
////////////////////////////////////////////////////////////////////////////////
int main (int argc, char** argv)
{
UnitTest t (22);
try
{
// Remove any residual test file.
unlink ("./pending.data");
unlink ("./completed.data");
unlink ("./undo.data");
// Set the context to allow GC.
context.config.set ("gc", "on");
// Try reading an empty database.
std::vector <Task> all;
std::vector <Task> pending;
std::vector <Task> completed;
get (pending, completed);
t.ok (pending.size () == 0, "TDB Read empty pending");
t.ok (completed.size () == 0, "TDB Read empty completed");
// Add without commit.
TDB tdb;
tdb.location (".");
tdb.lock ();
Task task ("[name:\"value\"]");
tdb.add (task); // P0 C0 N1 M0
tdb.unlock ();
pending.clear ();
completed.clear ();
get (pending, completed);
t.ok (pending.size () == 0, "TDB add -> no commit -> empty");
t.ok (completed.size () == 0, "TDB add -> no commit -> empty");
// Add with commit.
tdb.lock ();
tdb.add (task); // P0 C0 N1 M0
tdb.commit (); // P1 C0 N0 M0
tdb.unlock ();
get (pending, completed);
t.ok (pending.size () == 1, "TDB add -> commit -> saved");
t.is (pending[0].get ("name"), "value", "TDB load name=value");
t.is (pending[0].id, 1, "TDB load verification id=1");
t.ok (completed.size () == 0, "TDB add -> commit -> saved");
// Update with commit.
pending.clear ();
completed.clear ();
tdb.lock ();
tdb.load (all);
all[0].set ("name", "value2");
tdb.update (all[0]); // P1 C0 N0 M1
tdb.commit (); // P1 C0 N0 M0
tdb.unlock ();
pending.clear ();
completed.clear ();
get (pending, completed);
t.ok (all.size () == 1, "TDB update -> commit -> saved");
t.is (all[0].get ("name"), "value2", "TDB load name=value2");
t.is (all[0].id, 1, "TDB load verification id=1");
// GC.
all.clear ();
tdb.lock ();
tdb.loadPending (all);
all[0].setStatus (Task::completed);
tdb.update (all[0]); // P1 C0 N0 M1
Task t2 ("[foo:\"bar\" status:\"pending\"]");
tdb.add (t2); // P1 C0 N1 M1
tdb.commit ();
tdb.unlock ();
pending.clear ();
completed.clear ();
get (pending, completed);
t.is (pending.size (), (size_t)2, "TDB before gc pending #2");
t.is (pending[0].id, 1, "TDB before gc pending id 1");
t.is (pending[0].getStatus (), Task::completed, "TDB before gc pending status completed");
t.is (pending[1].id, 2, "TDB before gc pending id 2");
t.is (pending[1].getStatus (), Task::pending, "TDB before gc pending status pending");
t.is (completed.size (), (size_t)0, "TDB before gc completed 0");
tdb.gc (); // P1 C1 N0 M0
pending.clear ();
completed.clear ();
get (pending, completed);
t.is (pending.size (), (size_t)1, "TDB after gc pending #1");
t.is (pending[0].id, 1, "TDB after gc pending id 2");
t.is (pending[0].getStatus (), Task::pending, "TDB after gc pending status pending");
t.is (completed.size (), (size_t)1, "TDB after gc completed #1");
t.is (completed[0].getStatus (), Task::completed, "TDB after gc completed status completed");
}
catch (std::string& error)
{
t.diag (error);
return -1;
}
catch (...)
{
t.diag ("Unknown error.");
return -2;
}
unlink ("./pending.data");
unlink ("./completed.data");
unlink ("./undo.data");
return 0;
}
////////////////////////////////////////////////////////////////////////////////
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