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livetrax/libs/audiographer/tests/general/silence_trimmer_test.cc
Paul Davis 30b087ab3d globally change all use of "frame" to refer to audio into "sample".
Generated by tools/f2s. Some hand-editing will be required in a few places to fix up comments related to timecode
and video in order to keep the legible
2017-09-18 12:39:17 -04:00

181 lines
5.0 KiB
C++

#include "tests/utils.h"
#include "audiographer/general/silence_trimmer.h"
using namespace AudioGrapher;
class SilenceTrimmerTest : public CppUnit::TestFixture
{
CPPUNIT_TEST_SUITE (SilenceTrimmerTest);
CPPUNIT_TEST (testExceptions);
CPPUNIT_TEST (testFullBuffers);
CPPUNIT_TEST (testPartialBuffers);
CPPUNIT_TEST (testAddSilenceBeginning);
CPPUNIT_TEST (testAddSilenceEnd);
CPPUNIT_TEST_SUITE_END ();
public:
void setUp()
{
samples = 128;
random_data = TestUtils::init_random_data(samples);
random_data[0] = 0.5;
random_data[samples - 1] = 0.5;
zero_data = new float[samples];
memset(zero_data, 0, samples * sizeof(float));
half_random_data = TestUtils::init_random_data(samples);
memset(half_random_data, 0, (samples / 2) * sizeof(float));
trimmer.reset (new SilenceTrimmer<float> (samples / 2));
sink.reset (new AppendingVectorSink<float>());
trimmer->set_trim_beginning (true);
trimmer->set_trim_end (true);
}
void tearDown()
{
delete [] random_data;
delete [] zero_data;
delete [] half_random_data;
}
void testFullBuffers()
{
trimmer->add_output (sink);
{
ProcessContext<float> c (zero_data, samples, 1);
trimmer->process (c);
samplecnt_t samples_processed = sink->get_data().size();
CPPUNIT_ASSERT_EQUAL ((samplecnt_t) 0, samples_processed);
}
{
ProcessContext<float> c (random_data, samples, 1);
trimmer->process (c);
samplecnt_t samples_processed = sink->get_data().size();
CPPUNIT_ASSERT_EQUAL (samples, samples_processed);
CPPUNIT_ASSERT (TestUtils::array_equals (sink->get_array(), random_data, samples));
}
{
ProcessContext<float> c (zero_data, samples, 1);
trimmer->process (c);
samplecnt_t samples_processed = sink->get_data().size();
CPPUNIT_ASSERT_EQUAL (samples, samples_processed);
}
{
ProcessContext<float> c (random_data, samples, 1);
trimmer->process (c);
samplecnt_t samples_processed = sink->get_data().size();
CPPUNIT_ASSERT_EQUAL (3 * samples, samples_processed);
CPPUNIT_ASSERT (TestUtils::array_equals (sink->get_array(), random_data, samples));
CPPUNIT_ASSERT (TestUtils::array_equals (&sink->get_array()[samples], zero_data, samples));
CPPUNIT_ASSERT (TestUtils::array_equals (&sink->get_array()[2 * samples], random_data, samples));
}
{
ProcessContext<float> c (zero_data, samples, 1);
trimmer->process (c);
samplecnt_t samples_processed = sink->get_data().size();
CPPUNIT_ASSERT_EQUAL (3 * samples, samples_processed);
}
}
void testPartialBuffers()
{
trimmer->add_output (sink);
trimmer->reset (samples / 4);
trimmer->set_trim_beginning (true);
trimmer->set_trim_end (true);
{
ProcessContext<float> c (half_random_data, samples, 1);
trimmer->process (c);
samplecnt_t samples_processed = sink->get_data().size();
CPPUNIT_ASSERT_EQUAL (samples / 2, samples_processed);
CPPUNIT_ASSERT (TestUtils::array_equals (sink->get_array(), &half_random_data[samples / 2], samples / 2));
}
{
ProcessContext<float> c (zero_data, samples, 1);
trimmer->process (c);
samplecnt_t samples_processed = sink->get_data().size();
CPPUNIT_ASSERT_EQUAL (samples / 2, samples_processed);
}
{
ProcessContext<float> c (half_random_data, samples, 1);
trimmer->process (c);
samplecnt_t samples_processed = sink->get_data().size();
CPPUNIT_ASSERT_EQUAL (2 * samples + samples / 2, samples_processed);
CPPUNIT_ASSERT (TestUtils::array_equals (&sink->get_array()[samples + samples / 2], half_random_data, samples));
}
}
void testExceptions()
{
{
CPPUNIT_ASSERT_THROW (trimmer->reset (0), Exception);
}
}
void testAddSilenceBeginning()
{
trimmer->add_output (sink);
samplecnt_t silence = samples / 2;
trimmer->add_silence_to_beginning (silence);
{
ProcessContext<float> c (random_data, samples, 1);
trimmer->process (c);
}
CPPUNIT_ASSERT (TestUtils::array_equals (sink->get_array(), zero_data, silence));
CPPUNIT_ASSERT (TestUtils::array_equals (&sink->get_array()[silence], random_data, samples));
}
void testAddSilenceEnd()
{
trimmer->add_output (sink);
samplecnt_t silence = samples / 3;
trimmer->add_silence_to_end (silence);
{
ProcessContext<float> c (random_data, samples, 1);
trimmer->process (c);
}
{
ProcessContext<float> c (random_data, samples, 1);
c.set_flag (ProcessContext<float>::EndOfInput);
trimmer->process (c);
}
samplecnt_t samples_processed = sink->get_data().size();
samplecnt_t total_samples = 2 * samples + silence;
CPPUNIT_ASSERT_EQUAL (total_samples, samples_processed);
CPPUNIT_ASSERT (TestUtils::array_equals (sink->get_array(), random_data, samples));
CPPUNIT_ASSERT (TestUtils::array_equals (&sink->get_array()[samples], random_data, samples));
CPPUNIT_ASSERT (TestUtils::array_equals (&sink->get_array()[samples * 2], zero_data, silence));
}
private:
boost::shared_ptr<SilenceTrimmer<float> > trimmer;
boost::shared_ptr<AppendingVectorSink<float> > sink;
float * random_data;
float * zero_data;
float * half_random_data;
samplecnt_t samples;
};
CPPUNIT_TEST_SUITE_REGISTRATION (SilenceTrimmerTest);