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/*
Copyright 2012 Canonical Ltd.

Authors:
    Charles Kerr <charles.kerr@canonical.com>

This program is free software: you can redistribute it and/or modify it 
under the terms of the GNU General Public License version 3, as published 
by the Free Software Foundation.

This program is distributed in the hope that it will be useful, but 
WITHOUT ANY WARRANTY; without even the implied warranties of 
MERCHANTABILITY, SATISFACTORY QUALITY, 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, see <http://www.gnu.org/licenses/>.
*/

#include <gtest/gtest.h>
#include "device.h"
#include "indicator-power.h"

namespace
{
  void ensure_glib_initialized ()
  {
    static bool initialized = false;

    if (G_UNLIKELY(!initialized))
    {
      initialized = true;
      g_type_init();
    }
  }
}

class DeviceTest : public ::testing::Test
{
  protected:

    virtual void SetUp()
    {
      ensure_glib_initialized ();
    }

    virtual void TearDown()
    {
    }

  protected:

    void check_icon_names (const IndicatorPowerDevice * device, const char * expected)
    {
      char ** names = indicator_power_device_get_icon_names (device);
      char * str = g_strjoinv (";", names);
      ASSERT_STREQ (expected, str);
      g_free (str);
      g_strfreev (names);
    }

    void check_strings (const IndicatorPowerDevice * device,
                        const char * expected_timestring,
                        const char * expected_details,
                        const char * expected_accessible)
    {
      char * timestring = NULL;
      char * details = NULL;
      char * accessible = NULL;

      indicator_power_device_get_time_details (device, &timestring, &details, &accessible);
      EXPECT_STREQ (expected_timestring, timestring);
      EXPECT_STREQ (expected_details, details);
      EXPECT_STREQ (expected_accessible, accessible);

      g_free (accessible);
      g_free (details);
      g_free (timestring);
    }
};


/***
****
***/

TEST_F(DeviceTest, GObjectNew)
{
  ensure_glib_initialized ();

  GObject * o = G_OBJECT (g_object_new (INDICATOR_POWER_DEVICE_TYPE, NULL));
  ASSERT_TRUE (o != NULL);
  ASSERT_TRUE (INDICATOR_IS_POWER_DEVICE(o));
  g_object_run_dispose (o); // used to get coverage of both branches in the object's dispose func's g_clear_*() calls
  g_object_unref (o);
}

TEST_F(DeviceTest, Properties)
{
  int i;
  gdouble d;
  GObject * o;
  gchar * str;
  guint64 u64;
  const gchar * key;

  ensure_glib_initialized ();

  o = G_OBJECT (g_object_new (INDICATOR_POWER_DEVICE_TYPE, NULL));
  ASSERT_TRUE (o != NULL);
  ASSERT_TRUE (INDICATOR_IS_POWER_DEVICE(o));

  // Test getting & setting a Device's properties.

  // KIND
  key = INDICATOR_POWER_DEVICE_KIND;
  g_object_set (o, key, UP_DEVICE_KIND_BATTERY, NULL);
  g_object_get (o, key, &i, NULL);
  ASSERT_EQ (i, UP_DEVICE_KIND_BATTERY);

  // STATE
  key = INDICATOR_POWER_DEVICE_STATE;
  g_object_set (o, key, UP_DEVICE_STATE_CHARGING, NULL);
  g_object_get (o, key, &i, NULL);
  ASSERT_EQ (i, UP_DEVICE_STATE_CHARGING);

  // OBJECT_PATH
  key = INDICATOR_POWER_DEVICE_OBJECT_PATH;
  g_object_set (o, key, "/object/path", NULL);
  g_object_get (o, key, &str, NULL);
  ASSERT_STREQ (str, "/object/path");
  g_free (str);

  // PERCENTAGE
  key = INDICATOR_POWER_DEVICE_PERCENTAGE;
  g_object_set (o, key, 50.0, NULL);
  g_object_get (o, key, &d, NULL);
  ASSERT_EQ((int)d, 50);

  // TIME
  key = INDICATOR_POWER_DEVICE_TIME;
  g_object_set (o, key, (guint64)30, NULL);
  g_object_get (o, key, &u64, NULL);
  ASSERT_EQ(u64, 30);

  // cleanup
  g_object_unref (o);
}

TEST_F(DeviceTest, New)
{
  ensure_glib_initialized ();

  IndicatorPowerDevice * device = indicator_power_device_new ("/object/path",
                                                              UP_DEVICE_KIND_BATTERY,
                                                              50.0,
                                                              UP_DEVICE_STATE_CHARGING,
                                                              30);
  ASSERT_TRUE (device != NULL);
  ASSERT_TRUE (INDICATOR_IS_POWER_DEVICE(device));
  ASSERT_EQ (indicator_power_device_get_kind(device), UP_DEVICE_KIND_BATTERY);
  ASSERT_EQ (indicator_power_device_get_state(device), UP_DEVICE_STATE_CHARGING);
  ASSERT_STREQ (indicator_power_device_get_object_path(device), "/object/path");
  ASSERT_EQ ((int)indicator_power_device_get_percentage(device), 50);
  ASSERT_EQ (indicator_power_device_get_time(device), 30);

  // cleanup
  g_object_unref (device);
}

TEST_F(DeviceTest, NewFromVariant)
{
  ensure_glib_initialized ();

  GVariant * variant = g_variant_new ("(susdut)",
                                      "/object/path",
                                      UP_DEVICE_KIND_BATTERY,
                                      "icon",
                                      50.0,
                                      UP_DEVICE_STATE_CHARGING,
                                      30);
  IndicatorPowerDevice * device = indicator_power_device_new_from_variant (variant);
  ASSERT_TRUE (variant != NULL);
  ASSERT_TRUE (device != NULL);
  ASSERT_TRUE (INDICATOR_IS_POWER_DEVICE(device));
  ASSERT_EQ (indicator_power_device_get_kind(device), UP_DEVICE_KIND_BATTERY);
  ASSERT_EQ (indicator_power_device_get_state(device), UP_DEVICE_STATE_CHARGING);
  ASSERT_STREQ (indicator_power_device_get_object_path(device), "/object/path");
  ASSERT_EQ ((int)indicator_power_device_get_percentage(device), 50);
  ASSERT_EQ (indicator_power_device_get_time(device), 30);

  // cleanup
  g_object_unref (device);
  g_variant_unref (variant);
}

TEST_F(DeviceTest, BadAccessors)
{
  ensure_glib_initialized ();

  // test that these functions can handle being passed NULL pointers
  IndicatorPowerDevice * device = NULL;
  indicator_power_device_get_kind (device);
  indicator_power_device_get_time (device);
  indicator_power_device_get_state (device);
  indicator_power_device_get_percentage (device);
  indicator_power_device_get_object_path (device);

  // test that these functions can handle being passed non-device GObjects
  device = reinterpret_cast<IndicatorPowerDevice*>(g_cancellable_new ());
  indicator_power_device_get_kind (device);
  indicator_power_device_get_time (device);
  indicator_power_device_get_state (device);
  indicator_power_device_get_percentage (device);
  indicator_power_device_get_object_path (device);
  g_object_unref (device);
}

/***
****
***/

TEST_F(DeviceTest, IconNames)
{
  IndicatorPowerDevice * device = INDICATOR_POWER_DEVICE (g_object_new (INDICATOR_POWER_DEVICE_TYPE, NULL));
  GObject * o = G_OBJECT(device);

  // bad arguments
  ASSERT_TRUE (indicator_power_device_get_icon_names (NULL) == NULL);

  // power
  g_object_set (o, INDICATOR_POWER_DEVICE_KIND, UP_DEVICE_KIND_LINE_POWER,
                   NULL);
  check_icon_names (device, "ac-adapter-symbolic;"
                            "ac-adapter");

  // monitor
  g_object_set (o, INDICATOR_POWER_DEVICE_KIND, UP_DEVICE_KIND_MONITOR,
                   NULL);
  check_icon_names (device, "gpm-monitor-symbolic;"
                            "gpm-monitor");

  // devices that hold a charge
  struct {
    int kind;
    const gchar * kind_str;
  } devices[] = {
    { UP_DEVICE_KIND_BATTERY, "battery" },
    { UP_DEVICE_KIND_UPS, "ups" },
    { UP_DEVICE_KIND_MOUSE, "mouse" },
    { UP_DEVICE_KIND_KEYBOARD, "keyboard" },
    { UP_DEVICE_KIND_PHONE, "phone" }
  };

  GString * expected = g_string_new (NULL);
  for (int i=0, n=G_N_ELEMENTS(devices); i<n; i++)
    {
      const int kind = devices[i].kind;
      const gchar * kind_str = devices[i].kind_str;

      // empty
      g_object_set (o, INDICATOR_POWER_DEVICE_KIND, kind,
                       INDICATOR_POWER_DEVICE_STATE, UP_DEVICE_STATE_EMPTY,
                       NULL);
 
      g_string_append_printf (expected, "%s-empty-symbolic;", kind_str);
      g_string_append_printf (expected, "gpm-%s-empty;", kind_str);
      g_string_append_printf (expected, "gpm-%s-000;", kind_str);
      g_string_append_printf (expected, "%s-empty", kind_str);
      check_icon_names (device, expected->str);
      g_string_truncate (expected, 0);

      // charged
      g_object_set (o, INDICATOR_POWER_DEVICE_KIND, kind,
                       INDICATOR_POWER_DEVICE_STATE, UP_DEVICE_STATE_FULLY_CHARGED,
                       NULL);
      g_string_append_printf (expected, "%s-full-charged-symbolic;", kind_str);
      g_string_append_printf (expected, "%s-full-charging-symbolic;", kind_str);
      g_string_append_printf (expected, "gpm-%s-full;", kind_str);
      g_string_append_printf (expected, "gpm-%s-100;", kind_str);
      g_string_append_printf (expected, "%s-full-charged;", kind_str);
      g_string_append_printf (expected, "%s-full-charging", kind_str);
      check_icon_names (device, expected->str);
      g_string_truncate (expected, 0);

      // charging, 95%
      g_object_set (o, INDICATOR_POWER_DEVICE_KIND, kind,
                       INDICATOR_POWER_DEVICE_STATE, UP_DEVICE_STATE_CHARGING,
                       INDICATOR_POWER_DEVICE_PERCENTAGE, 95.0,
                       NULL);

      g_string_append_printf (expected, "%s-caution-charging-symbolic;", kind_str);
      g_string_append_printf (expected, "gpm-%s-000-charging;", kind_str);
      g_string_append_printf (expected, "%s-caution-charging", kind_str);
      check_icon_names (device, expected->str);
      g_string_truncate (expected, 0);

      // charging, 85%
      g_object_set (o, INDICATOR_POWER_DEVICE_KIND, kind,
                       INDICATOR_POWER_DEVICE_STATE, UP_DEVICE_STATE_CHARGING,
                       INDICATOR_POWER_DEVICE_PERCENTAGE, 85.0,
                       NULL);
      g_string_append_printf (expected, "%s-caution-charging-symbolic;", kind_str);
      g_string_append_printf (expected, "gpm-%s-000-charging;", kind_str);
      g_string_append_printf (expected, "%s-caution-charging", kind_str);
      check_icon_names (device, expected->str);
      g_string_truncate (expected, 0);

      // charging, 50%
      g_object_set (o, INDICATOR_POWER_DEVICE_KIND, kind,
                       INDICATOR_POWER_DEVICE_STATE, UP_DEVICE_STATE_CHARGING,
                       INDICATOR_POWER_DEVICE_PERCENTAGE, 50.0,
                       NULL);
      g_string_append_printf (expected, "%s-caution-charging-symbolic;", kind_str);
      g_string_append_printf (expected, "gpm-%s-000-charging;", kind_str);
      g_string_append_printf (expected, "%s-caution-charging", kind_str);
      check_icon_names (device, expected->str);
      g_string_truncate (expected, 0);

      // charging, 25%
      g_object_set (o, INDICATOR_POWER_DEVICE_KIND, kind,
                       INDICATOR_POWER_DEVICE_STATE, UP_DEVICE_STATE_CHARGING,
                       INDICATOR_POWER_DEVICE_PERCENTAGE, 25.0,
                       NULL);
      g_string_append_printf (expected, "%s-caution-charging-symbolic;", kind_str);
      g_string_append_printf (expected, "gpm-%s-000-charging;", kind_str);
      g_string_append_printf (expected, "%s-caution-charging", kind_str);
      check_icon_names (device, expected->str);
      g_string_truncate (expected, 0);

      // charging, 5%
      g_object_set (o, INDICATOR_POWER_DEVICE_KIND, kind,
                       INDICATOR_POWER_DEVICE_STATE, UP_DEVICE_STATE_CHARGING,
                       INDICATOR_POWER_DEVICE_PERCENTAGE, 5.0,
                       NULL);
      g_string_append_printf (expected, "%s-caution-charging-symbolic;", kind_str);
      g_string_append_printf (expected, "gpm-%s-000-charging;", kind_str);
      g_string_append_printf (expected, "%s-caution-charging", kind_str);
      check_icon_names (device, expected->str);
      g_string_truncate (expected, 0);

      // discharging, 95%
      g_object_set (o, INDICATOR_POWER_DEVICE_KIND, kind,
                       INDICATOR_POWER_DEVICE_STATE, UP_DEVICE_STATE_DISCHARGING,
                       INDICATOR_POWER_DEVICE_PERCENTAGE, 95.0,
                   NULL);
      g_string_append_printf (expected, "%s-100;", kind_str);
      g_string_append_printf (expected, "gpm-%s-100;", kind_str);
      g_string_append_printf (expected, "%s-full-symbolic;", kind_str);
      g_string_append_printf (expected, "%s-full", kind_str);
      check_icon_names (device, expected->str);
      g_string_truncate (expected, 0);

      // discharging, 85%
      g_object_set (o, INDICATOR_POWER_DEVICE_KIND, kind,
                       INDICATOR_POWER_DEVICE_STATE, UP_DEVICE_STATE_DISCHARGING,
                       INDICATOR_POWER_DEVICE_PERCENTAGE, 85.0,
                       NULL);
      g_string_append_printf (expected, "%s-080;", kind_str);
      g_string_append_printf (expected, "gpm-%s-080;", kind_str);
      g_string_append_printf (expected, "%s-full-symbolic;", kind_str);
      g_string_append_printf (expected, "%s-full", kind_str);
      check_icon_names (device, expected->str);
      g_string_truncate (expected, 0);

      // discharging, 50% -- 1 hour left
      g_object_set (o, INDICATOR_POWER_DEVICE_KIND, kind,
                       INDICATOR_POWER_DEVICE_STATE, UP_DEVICE_STATE_DISCHARGING,
                       INDICATOR_POWER_DEVICE_PERCENTAGE, 50.0,
                       INDICATOR_POWER_DEVICE_TIME, (guint64)(60*60),
                       NULL);
      g_string_append_printf (expected, "%s-060;", kind_str);
      g_string_append_printf (expected, "gpm-%s-060;", kind_str);
      g_string_append_printf (expected, "%s-good-symbolic;", kind_str);
      g_string_append_printf (expected, "%s-good", kind_str);
      check_icon_names (device, expected->str);
      g_string_truncate (expected, 0);

      // discharging, 25% -- 1 hour left
      g_object_set (o, INDICATOR_POWER_DEVICE_KIND, kind,
                       INDICATOR_POWER_DEVICE_STATE, UP_DEVICE_STATE_DISCHARGING,
                       INDICATOR_POWER_DEVICE_PERCENTAGE, 25.0,
                       INDICATOR_POWER_DEVICE_TIME, (guint64)(60*60),
                       NULL);
      g_string_append_printf (expected, "%s-040;", kind_str);
      g_string_append_printf (expected, "gpm-%s-040;", kind_str);
      g_string_append_printf (expected, "%s-good-symbolic;", kind_str);
      g_string_append_printf (expected, "%s-good", kind_str);
      check_icon_names (device, expected->str);
      g_string_truncate (expected, 0);

      // discharging, 25% -- 15 minutes left
      g_object_set (o, INDICATOR_POWER_DEVICE_KIND, kind,
                       INDICATOR_POWER_DEVICE_STATE, UP_DEVICE_STATE_DISCHARGING,
                       INDICATOR_POWER_DEVICE_PERCENTAGE, 25.0,
                       INDICATOR_POWER_DEVICE_TIME, (guint64)(60*15),
                       NULL);
      g_string_append_printf (expected, "%s-020;", kind_str);
      g_string_append_printf (expected, "gpm-%s-020;", kind_str);
      g_string_append_printf (expected, "%s-low-symbolic;", kind_str);
      g_string_append_printf (expected, "%s-low", kind_str);
      check_icon_names (device, expected->str);
      g_string_truncate (expected, 0);

      // discharging, 5% -- 1 hour left
      g_object_set (o, INDICATOR_POWER_DEVICE_KIND, kind,
                       INDICATOR_POWER_DEVICE_STATE, UP_DEVICE_STATE_DISCHARGING,
                       INDICATOR_POWER_DEVICE_PERCENTAGE, 5.0,
                       INDICATOR_POWER_DEVICE_TIME, (guint64)(60*60),
                   NULL);
      g_string_append_printf (expected, "%s-040;", kind_str);
      g_string_append_printf (expected, "gpm-%s-040;", kind_str);
      g_string_append_printf (expected, "%s-good-symbolic;", kind_str);
      g_string_append_printf (expected, "%s-good", kind_str);
      check_icon_names (device, expected->str);
      g_string_truncate (expected, 0);

      // discharging, 5% -- 15 minutes left
      g_object_set (o, INDICATOR_POWER_DEVICE_KIND, kind,
                       INDICATOR_POWER_DEVICE_STATE, UP_DEVICE_STATE_DISCHARGING,
                       INDICATOR_POWER_DEVICE_PERCENTAGE, 5.0,
                       INDICATOR_POWER_DEVICE_TIME, (guint64)(60*15),
                       NULL);
      g_string_append_printf (expected, "%s-000;", kind_str);
      g_string_append_printf (expected, "gpm-%s-000;", kind_str);
      g_string_append_printf (expected, "%s-caution-symbolic;", kind_str);
      g_string_append_printf (expected, "%s-caution", kind_str);
      check_icon_names (device, expected->str);
      g_string_truncate (expected, 0);

      // state unknown
      g_object_set (o, INDICATOR_POWER_DEVICE_KIND, kind,
                       INDICATOR_POWER_DEVICE_STATE, UP_DEVICE_STATE_UNKNOWN, 
                       NULL);
      g_string_append_printf (expected, "%s-missing-symbolic;", kind_str);
      g_string_append_printf (expected, "gpm-%s-missing;", kind_str);
      g_string_append_printf (expected, "%s-missing", kind_str);
      check_icon_names (device, expected->str);
      g_string_truncate (expected, 0);
  }
  g_string_free (expected, TRUE);

  // cleanup
  g_object_unref(o);
}


TEST_F(DeviceTest, Labels)
{
  // set our language so that i18n won't break these tests
  char * real_lang = g_strdup(g_getenv ("LANG"));
  g_setenv ("LANG", "en_US.UTF-8", TRUE);

  // bad args: NULL device
  check_strings (NULL, NULL, NULL, NULL);

  // bad args: a GObject that isn't a device
  GObject * o = G_OBJECT(g_cancellable_new());
  check_strings ((IndicatorPowerDevice*)o, NULL, NULL, NULL);
  g_object_unref (o);

  /**
  ***
  **/
 
  IndicatorPowerDevice * device = INDICATOR_POWER_DEVICE (g_object_new (INDICATOR_POWER_DEVICE_TYPE, NULL));
  o = G_OBJECT(device);

  // charging
  g_object_set (o, INDICATOR_POWER_DEVICE_KIND, UP_DEVICE_KIND_BATTERY,
                   INDICATOR_POWER_DEVICE_STATE, UP_DEVICE_STATE_CHARGING,
                   INDICATOR_POWER_DEVICE_PERCENTAGE, 50.0,
                   INDICATOR_POWER_DEVICE_TIME, guint64(60*61),
                   NULL);
  check_strings (device, "(1:01)",
                         "Battery (1:01 to charge)",
                         "Battery (1 hour 1 minute to charge (50%))");

  // discharging, < 12 hours left
  g_object_set (o, INDICATOR_POWER_DEVICE_KIND, UP_DEVICE_KIND_BATTERY,
                   INDICATOR_POWER_DEVICE_STATE, UP_DEVICE_STATE_DISCHARGING,
                   INDICATOR_POWER_DEVICE_PERCENTAGE, 50.0,
                   INDICATOR_POWER_DEVICE_TIME, guint64(60*61),
                   NULL);
  check_strings (device, "1:01",
                         "Battery (1:01 left)",
                         "Battery (1 hour 1 minute left (50%))");

  // discharging, > 12 hours left
  g_object_set (o, INDICATOR_POWER_DEVICE_KIND, UP_DEVICE_KIND_BATTERY,
                   INDICATOR_POWER_DEVICE_STATE, UP_DEVICE_STATE_DISCHARGING,
                   INDICATOR_POWER_DEVICE_PERCENTAGE, 50.0,
                   INDICATOR_POWER_DEVICE_TIME, guint64(60*60*13),
                   NULL);
  check_strings (device, "13:00", "Battery", "Battery");

  // fully charged
  g_object_set (o, INDICATOR_POWER_DEVICE_KIND, UP_DEVICE_KIND_BATTERY,
                   INDICATOR_POWER_DEVICE_STATE, UP_DEVICE_STATE_FULLY_CHARGED,
                   INDICATOR_POWER_DEVICE_PERCENTAGE, 100.0,
                   INDICATOR_POWER_DEVICE_TIME, guint64(0),
                   NULL);
  check_strings (device, "", "Battery (charged)", "Battery (charged)");

  // percentage but no time estimate
  g_object_set (o, INDICATOR_POWER_DEVICE_KIND, UP_DEVICE_KIND_BATTERY,
                   INDICATOR_POWER_DEVICE_STATE, UP_DEVICE_STATE_DISCHARGING,
                   INDICATOR_POWER_DEVICE_PERCENTAGE, 50.0,
                   INDICATOR_POWER_DEVICE_TIME, guint64(0),
                   NULL);
  check_strings (device, "(50%)", "Battery (50%)", "Battery (50%)");

  // no percentage, no time estimate
  g_object_set (o, INDICATOR_POWER_DEVICE_KIND, UP_DEVICE_KIND_BATTERY,
                   INDICATOR_POWER_DEVICE_STATE, UP_DEVICE_STATE_DISCHARGING,
                   INDICATOR_POWER_DEVICE_PERCENTAGE, 0.0,
                   INDICATOR_POWER_DEVICE_TIME, guint64(0),
                   NULL);
  check_strings (device, "(not present)", "Battery (not present)", "Battery (not present)");

  // power line
  g_object_set (o, INDICATOR_POWER_DEVICE_KIND, UP_DEVICE_KIND_LINE_POWER,
                   INDICATOR_POWER_DEVICE_STATE, UP_DEVICE_STATE_UNKNOWN,
                   INDICATOR_POWER_DEVICE_PERCENTAGE, 0.0,
                   INDICATOR_POWER_DEVICE_TIME, guint64(0),
                   NULL);
  check_strings (device, "AC Adapter", "AC Adapter", "AC Adapter");

  // cleanup
  g_object_unref(o);
  g_setenv ("LANG", real_lang, TRUE);
  g_free (real_lang);
}

/* The menu title should tell you at a glance what you need to know most: what
   device will lose power soonest (and optionally when), or otherwise which
   device will take longest to charge (and optionally how long it will take). */
TEST_F(DeviceTest, ChoosePrimary)
{
  GSList * device_list;
  IndicatorPowerDevice * a;
  IndicatorPowerDevice * b;

  a = indicator_power_device_new ("/org/freedesktop/UPower/devices/mouse",
                                  UP_DEVICE_KIND_MOUSE,
                                  0.0,
                                  UP_DEVICE_STATE_DISCHARGING,
                                  0);
  b = indicator_power_device_new ("/org/freedesktop/UPower/devices/battery",
                                  UP_DEVICE_KIND_BATTERY,
                                  0.0,
                                  UP_DEVICE_STATE_DISCHARGING,
                                  0);

  /* device states + time left to {discharge,charge} + % of charge left,
     sorted in order of preference wrt the spec's criteria.
     So tests[i] should be picked over any test with an index greater than i */
  struct {
    int state;
    guint64 time;
    double percentage;
  } tests[] = {
    { UP_DEVICE_STATE_DISCHARGING, 49, 50.0 },
    { UP_DEVICE_STATE_DISCHARGING, 50, 50.0 },
    { UP_DEVICE_STATE_DISCHARGING, 50, 100.0 },
    { UP_DEVICE_STATE_DISCHARGING, 51, 50.0 },
    { UP_DEVICE_STATE_CHARGING, 50, 50.0 },
    { UP_DEVICE_STATE_CHARGING, 49, 50.0 },
    { UP_DEVICE_STATE_CHARGING, 49, 100.0 },
    { UP_DEVICE_STATE_CHARGING, 48, 50.0 },
    { UP_DEVICE_STATE_FULLY_CHARGED, 0, 50.0 }
  };

  device_list = NULL;
  device_list = g_slist_append (device_list, a);
  device_list = g_slist_append (device_list, b);

  for (int i=0, n=G_N_ELEMENTS(tests); i<n; i++)
    {
      for (int j=i+1; j<n; j++)
        {
          g_object_set (a, INDICATOR_POWER_DEVICE_STATE, tests[i].state,
                           INDICATOR_POWER_DEVICE_TIME, guint64(tests[i].time),
                           INDICATOR_POWER_DEVICE_PERCENTAGE, tests[i].percentage,
                           NULL);
          g_object_set (b, INDICATOR_POWER_DEVICE_STATE, tests[j].state,
                           INDICATOR_POWER_DEVICE_TIME, guint64(tests[j].time),
                           INDICATOR_POWER_DEVICE_PERCENTAGE, tests[j].percentage,
                           NULL);
          ASSERT_EQ (a, indicator_power_choose_primary_device(device_list));

          /* reverse the list to check that list order doesn't matter */
          device_list = g_slist_reverse (device_list);
          ASSERT_EQ (a, indicator_power_choose_primary_device(device_list));
        }
    }
    
  // cleanup
  g_slist_free_full (device_list, g_object_unref);
}