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livetrax/libs/audiographer/tests/deinterleaver_test.cc

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#include "utils.h"
#include "audiographer/deinterleaver.h"
using namespace AudioGrapher;
class DeInterleaverTest : public CppUnit::TestFixture
{
CPPUNIT_TEST_SUITE (DeInterleaverTest);
CPPUNIT_TEST (testUninitialized);
CPPUNIT_TEST (testInvalidOutputIndex);
CPPUNIT_TEST (testInvalidInputSize);
CPPUNIT_TEST (testOutputSize);
CPPUNIT_TEST (testZeroInput);
CPPUNIT_TEST_SUITE_END ();
public:
void setUp()
{
channels = 3;
frames_per_channel = 128;
total_frames = channels * frames_per_channel;
random_data = TestUtils::init_random_data (total_frames, 1.0);
deinterleaver.reset (new DeInterleaver<float>());
sink_a.reset (new VectorSink<float>());
sink_b.reset (new VectorSink<float>());
sink_c.reset (new VectorSink<float>());
}
void tearDown()
{
delete [] random_data;
}
void testUninitialized()
{
deinterleaver.reset (new DeInterleaver<float>());
CPPUNIT_ASSERT_THROW (deinterleaver->output(0)->add_output (sink_a), Exception);
}
void testInvalidOutputIndex()
{
deinterleaver->init (3, frames_per_channel);
CPPUNIT_ASSERT_THROW (deinterleaver->output(3)->add_output (sink_a), Exception);
}
void testInvalidInputSize()
{
deinterleaver->init (channels, frames_per_channel);
ProcessContext<float> c (random_data, 0, channels);
// Too many, frames % channels == 0
c.frames() = total_frames + channels;
CPPUNIT_ASSERT_THROW (deinterleaver->process (c), Exception);
// Too many, frames % channels != 0
c.frames() = total_frames + 1;
CPPUNIT_ASSERT_THROW (deinterleaver->process (c), Exception);
// Too few, frames % channels != 0
c.frames() = total_frames - 1;
CPPUNIT_ASSERT_THROW (deinterleaver->process (c), Exception);
}
void assert_outputs (nframes_t expected_frames)
{
nframes_t generated_frames = 0;
generated_frames = sink_a->get_data().size();
CPPUNIT_ASSERT_EQUAL (expected_frames, generated_frames);
generated_frames = sink_b->get_data().size();
CPPUNIT_ASSERT_EQUAL (expected_frames, generated_frames);
generated_frames = sink_c->get_data().size();
CPPUNIT_ASSERT_EQUAL (expected_frames, generated_frames);
}
void testOutputSize()
{
deinterleaver->init (channels, frames_per_channel);
deinterleaver->output (0)->add_output (sink_a);
deinterleaver->output (1)->add_output (sink_b);
deinterleaver->output (2)->add_output (sink_c);
// Test maximum frame input
ProcessContext<float> c (random_data, total_frames, channels);
deinterleaver->process (c);
assert_outputs (frames_per_channel);
// Now with less frames
nframes_t const less_frames = frames_per_channel / 4;
c.frames() = less_frames * channels;
deinterleaver->process (c);
assert_outputs (less_frames);
}
void testZeroInput()
{
deinterleaver->init (channels, frames_per_channel);
deinterleaver->output (0)->add_output (sink_a);
deinterleaver->output (1)->add_output (sink_b);
deinterleaver->output (2)->add_output (sink_c);
// Input zero frames
ProcessContext<float> c (random_data, 0, channels);
deinterleaver->process (c);
// ...and now test regular input
c.frames() = total_frames;
deinterleaver->process (c);
assert_outputs (frames_per_channel);
}
private:
boost::shared_ptr<DeInterleaver<float> > deinterleaver;
boost::shared_ptr<VectorSink<float> > sink_a;
boost::shared_ptr<VectorSink<float> > sink_b;
boost::shared_ptr<VectorSink<float> > sink_c;
float * random_data;
nframes_t frames_per_channel;
nframes_t total_frames;
unsigned int channels;
};
CPPUNIT_TEST_SUITE_REGISTRATION (DeInterleaverTest);