X-Git-Url: https://git.carlh.net/gitweb/?a=blobdiff_plain;f=test%2Fsilence_padding_test.cc;h=30f7e106e3494acd385790e8b681f3f13deca43b;hb=e60bb3e51bd1508b149e6b8f6608f09b5196ae26;hp=0e0695c033b0b90af3f9d8ca92c12b5350c20883;hpb=b1f84f5635e4ebbd98882b39e5c5b19f62fe006e;p=dcpomatic.git diff --git a/test/silence_padding_test.cc b/test/silence_padding_test.cc index 0e0695c03..30f7e106e 100644 --- a/test/silence_padding_test.cc +++ b/test/silence_padding_test.cc @@ -1,5 +1,5 @@ /* - Copyright (C) 2013 Carl Hetherington + Copyright (C) 2013-2014 Carl Hetherington 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 @@ -17,13 +17,17 @@ */ +/** @file test/silence_padding_test.cc + * @brief Test the padding (with silence) of a mono source to a 6-channel DCP. + */ + #include -#include -#include -#include -#include -#include -#include +#include +#include +#include +#include +#include +#include #include "lib/sndfile_content.h" #include "lib/film.h" #include "lib/dcp_content_type.h" @@ -34,11 +38,12 @@ using std::string; using boost::lexical_cast; using boost::shared_ptr; -static void test_silence_padding (int channels) +static void +test_silence_padding (int channels) { string const film_name = "silence_padding_test_" + lexical_cast (channels); shared_ptr film = new_test_film (film_name); - film->set_dcp_content_type (DCPContentType::from_dci_name ("FTR")); + film->set_dcp_content_type (DCPContentType::from_isdcf_name ("FTR")); film->set_container (Ratio::from_id ("185")); film->set_name (film_name); @@ -58,51 +63,51 @@ static void test_silence_padding (int channels) shared_ptr sound_asset = check.cpls().front()->reels().front()->main_sound (); BOOST_CHECK (sound_asset); - BOOST_CHECK (sound_asset->mxf()->channels () == channels); + BOOST_CHECK_EQUAL (sound_asset->asset()->channels (), channels); /* Sample index in the DCP */ int n = 0; /* DCP sound asset frame */ int frame = 0; - while (n < sound_asset->mxf()->intrinsic_duration()) { - shared_ptr sound_frame = sound_asset->mxf()->get_frame (frame++); + while (n < sound_asset->asset()->intrinsic_duration()) { + shared_ptr sound_frame = sound_asset->asset()->get_frame (frame++); uint8_t const * d = sound_frame->data (); - - for (int i = 0; i < sound_frame->size(); i += (3 * sound_asset->mxf()->channels())) { - if (sound_asset->mxf()->channels() > 0) { + for (int i = 0; i < sound_frame->size(); i += (3 * sound_asset->asset()->channels())) { + + if (sound_asset->asset()->channels() > 0) { /* L should be silent */ int const sample = d[i + 0] | (d[i + 1] << 8); BOOST_CHECK_EQUAL (sample, 0); } - if (sound_asset->mxf()->channels() > 1) { + if (sound_asset->asset()->channels() > 1) { /* R should be silent */ int const sample = d[i + 2] | (d[i + 3] << 8); BOOST_CHECK_EQUAL (sample, 0); } - - if (sound_asset->mxf()->channels() > 2) { + + if (sound_asset->asset()->channels() > 2) { /* Mono input so it will appear on centre */ int const sample = d[i + 7] | (d[i + 8] << 8); BOOST_CHECK_EQUAL (sample, n); } - if (sound_asset->mxf()->channels() > 3) { + if (sound_asset->asset()->channels() > 3) { /* Lfe should be silent */ int const sample = d[i + 9] | (d[i + 10] << 8); BOOST_CHECK_EQUAL (sample, 0); } - if (sound_asset->mxf()->channels() > 4) { + if (sound_asset->asset()->channels() > 4) { /* Ls should be silent */ int const sample = d[i + 11] | (d[i + 12] << 8); BOOST_CHECK_EQUAL (sample, 0); } - if (sound_asset->mxf()->channels() > 5) { + if (sound_asset->asset()->channels() > 5) { /* Rs should be silent */ int const sample = d[i + 13] | (d[i + 14] << 8); BOOST_CHECK_EQUAL (sample, 0); @@ -111,12 +116,12 @@ static void test_silence_padding (int channels) ++n; } } - + } BOOST_AUTO_TEST_CASE (silence_padding_test) { - for (int i = 1; i < MAX_AUDIO_CHANNELS; ++i) { + for (int i = 1; i < MAX_DCP_AUDIO_CHANNELS; ++i) { test_silence_padding (i); } }