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#include <gtest/gtest.h>
#include <glib-object.h>
#include <UnityCore/GLibWrapper.h>
#include <UnityCore/Results.h>
#include <UnityCore/ResultIterator.h>
#include "test_utils.h"
using namespace std;
using namespace unity::dash;
using namespace unity;
namespace
{
static const string swarm_name = "com.canonical.test.resultsmodel";
static const unsigned int n_rows = 200;
static void WaitForSynchronize(Results& model)
{
::Utils::WaitForModelSynchronize<Result>(model, n_rows);
}
TEST(TestResults, TestConstruction)
{
Results model;
model.swarm_name = swarm_name;
}
TEST(TestResults, TestSynchronization)
{
Results model;
model.swarm_name = swarm_name;
WaitForSynchronize(model);
EXPECT_EQ(model.count, n_rows);
}
TEST(TestResults, TestFilterValid)
{
Results model;
DeeFilter filter;
model.swarm_name = swarm_name;
WaitForSynchronize(model);
dee_filter_new_for_any_column(2, g_variant_new_uint32(1), &filter);
glib::Object<DeeModel> filter_model(dee_filter_model_new(model.model(), &filter));
unsigned int i = 0;
for (ResultIterator iter(filter_model); !iter.IsLast(); ++iter)
{
EXPECT_EQ((*iter).category_index(), 1);
i++;
}
EXPECT_EQ(i, 50);
}
TEST(TestResults, TestRowsValid)
{
Results model;
model.swarm_name = swarm_name;
WaitForSynchronize(model);
ResultIterator iter(model.model);
unsigned int i = 0;
for (Result result : model)
{
//Result adaptor = *iter;
unity::glib::String tmp(g_strdup_printf("Result%d", i));
string value = tmp.Str();
EXPECT_EQ(result.uri(), value);
EXPECT_EQ(result.icon_hint(), value);
EXPECT_EQ(result.category_index(), (i / 50));
EXPECT_EQ(result.mimetype(), value);
EXPECT_EQ(result.name(), value);
EXPECT_EQ(result.comment(), value);
EXPECT_EQ(result.dnd_uri(), value);
i++;
}
//test reading a subset
i = 20;
for (auto iter = model.begin() + i; iter != model.end(); ++iter)
{
Result result = (*iter);
unity::glib::String tmp(g_strdup_printf("Result%d", i));
string value = tmp.Str();
EXPECT_EQ(result.uri(), value);
i++;
}
// test post incrementor
i = 20;
for (auto iter = model.begin() + i; iter != model.end(); iter++)
{
Result result = (*iter);
unity::glib::String tmp(g_strdup_printf("Result%d", i));
string value = tmp.Str();
EXPECT_EQ(result.uri(), value);
i++;
}
// test equality
EXPECT_TRUE(model.begin() == model.begin());
EXPECT_TRUE(model.begin() != model.end());
EXPECT_FALSE(model.begin().IsLast());
EXPECT_FALSE(model.end().IsFirst());
EXPECT_TRUE(model.begin().IsFirst());
EXPECT_TRUE(model.end().IsLast());
EXPECT_TRUE(model.begin() < model.end());
EXPECT_FALSE(model.end() < model.begin());
EXPECT_TRUE(model.end() > model.begin());
EXPECT_FALSE(model.begin() > model.end());
EXPECT_TRUE(model.begin() <= model.end());
EXPECT_FALSE(model.end() <= model.begin());
EXPECT_TRUE(model.end() >= model.begin());
EXPECT_FALSE(model.begin() >= model.end());
EXPECT_TRUE(model.begin() + 20 > model.begin());
EXPECT_TRUE(model.begin() + 20 > model.begin() + 19);
EXPECT_TRUE(model.end() - 20 < model.end());
EXPECT_TRUE(model.end() - 20 < model.end() - 19);
}
// We're testing the model's ability to store and retrieve random pointers
TEST(TestResults, TestSetGetRenderer)
{
Results model;
model.swarm_name = swarm_name;
WaitForSynchronize(model);
for (unsigned int i = 0; i < n_rows; i++)
{
Result adaptor = model.RowAtIndex(i);
char* value = g_strdup_printf("Renderer%d", i);
adaptor.set_renderer<char*>(value);
}
for (unsigned int i = 0; i < n_rows; i++)
{
Result adaptor = model.RowAtIndex(i);
unity::glib::String value(adaptor.renderer<char*>());
unity::glib::String renderer(g_strdup_printf("Renderer%d", i));
EXPECT_EQ(value.Str(), renderer.Str());
}
}
}
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