mirror of
https://github.com/mpv-player/mpv
synced 2024-12-29 02:22:19 +00:00
9db818279a
This reworks all of mpv's unit tests so they are compiled as separate executables (optional) and run via meson test. Because most of the tests are dependant on mpv's internals, existing compiled objects are leveraged to create static libs and used when necessary. As an aside, a function was moved into video/out/gpu/utils for sanity's sake (otherwise most of vo would have been needed). As a plus, meson multithreads running tests automatically and also the output no longer pollutes the source directory. There are tests that can break due to ffmpeg changes, so they require a specific minimum libavutil version to be built.
219 lines
7.5 KiB
C
219 lines
7.5 KiB
C
#include "audio/chmap.h"
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#include "audio/chmap_sel.h"
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#include "config.h"
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#include "test_utils.h"
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#if HAVE_AV_CHANNEL_LAYOUT
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#include "audio/chmap_avchannel.h"
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#endif
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#define LAYOUTS(...) (char*[]){__VA_ARGS__, NULL}
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static void test_sel(const char *input, const char *expected_selection,
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char **layouts)
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{
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struct mp_chmap_sel s = {0};
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struct mp_chmap input_map;
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struct mp_chmap expected_map;
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assert_true(mp_chmap_from_str(&input_map, bstr0(input)));
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assert_true(mp_chmap_from_str(&expected_map, bstr0(expected_selection)));
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for (int n = 0; layouts[n]; n++) {
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struct mp_chmap tmp;
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assert_true(mp_chmap_from_str(&tmp, bstr0(layouts[n])));
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int count = s.num_chmaps;
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mp_chmap_sel_add_map(&s, &tmp);
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assert_true(s.num_chmaps > count); // assure validity and max. count
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}
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assert_true(mp_chmap_sel_fallback(&s, &input_map));
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// We convert expected_map to a chmap and then back to a string to avoid
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// problems with ambiguous layouts.
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assert_string_equal(mp_chmap_to_str(&input_map),
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mp_chmap_to_str(&expected_map));
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}
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#if HAVE_AV_CHANNEL_LAYOUT
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static bool layout_matches(const AVChannelLayout *av_layout,
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const struct mp_chmap *mp_layout,
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bool require_default_unspec)
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{
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if (!mp_chmap_is_valid(mp_layout) ||
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!av_channel_layout_check(av_layout) ||
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av_layout->nb_channels != mp_layout->num ||
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mp_layout->num > MP_NUM_CHANNELS)
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return false;
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switch (av_layout->order) {
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case AV_CHANNEL_ORDER_UNSPEC:
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{
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if (!require_default_unspec)
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return true;
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// mp_chmap essentially does not have a concept of "unspecified"
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// so we check if the mp layout matches the default layout for such
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// channel count.
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struct mp_chmap default_layout = { 0 };
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mp_chmap_from_channels(&default_layout, mp_layout->num);
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return mp_chmap_equals(mp_layout, &default_layout);
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}
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case AV_CHANNEL_ORDER_NATIVE:
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return av_layout->u.mask == mp_chmap_to_lavc(mp_layout);
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default:
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// TODO: handle custom layouts
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return false;
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}
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return true;
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}
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static void test_mp_chmap_to_av_channel_layout(void)
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{
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mp_ch_layout_tuple *mapping_array = NULL;
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void *iter = NULL;
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bool anything_failed = false;
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printf("Testing mp_chmap -> AVChannelLayout conversions\n");
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while ((mapping_array = mp_iterate_builtin_layouts(&iter))) {
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const char *mapping_name = (*mapping_array)[0];
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const char *mapping_str = (*mapping_array)[1];
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struct mp_chmap mp_layout = { 0 };
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AVChannelLayout av_layout = { 0 };
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char layout_desc[128] = {0};
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assert_true(mp_chmap_from_str(&mp_layout, bstr0(mapping_str)));
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mp_chmap_to_av_layout(&av_layout, &mp_layout);
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assert_false(av_channel_layout_describe(&av_layout,
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layout_desc, 128) < 0);
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bool success =
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(strcmp(layout_desc, mp_chmap_to_str(&mp_layout)) == 0 ||
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layout_matches(&av_layout, &mp_layout, false));
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if (!success)
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anything_failed = true;
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printf("%s: %s (%s) -> %s\n",
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success ? "Success" : "Failure",
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mapping_str, mapping_name, layout_desc);
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av_channel_layout_uninit(&av_layout);
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}
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assert_false(anything_failed);
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}
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static void test_av_channel_layout_to_mp_chmap(void)
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{
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const AVChannelLayout *av_layout = NULL;
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void *iter = NULL;
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bool anything_failed = false;
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printf("Testing AVChannelLayout -> mp_chmap conversions\n");
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while ((av_layout = av_channel_layout_standard(&iter))) {
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struct mp_chmap mp_layout = { 0 };
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char layout_desc[128] = {0};
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assert_false(av_channel_layout_describe(av_layout,
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layout_desc, 128) < 0);
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bool ret = mp_chmap_from_av_layout(&mp_layout, av_layout);
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if (!ret) {
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bool too_many_channels =
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av_layout->nb_channels > MP_NUM_CHANNELS;
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printf("Conversion from '%s' to mp_chmap failed (%s)!\n",
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layout_desc,
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too_many_channels ?
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"channel count was over max, ignoring" :
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"unexpected, failing");
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// we should for now only fail with things such as 22.2
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// due to mp_chmap being currently limited to 16 channels
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assert_true(too_many_channels);
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continue;
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}
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bool success =
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(strcmp(layout_desc, mp_chmap_to_str(&mp_layout)) == 0 ||
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layout_matches(av_layout, &mp_layout, true));
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if (!success)
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anything_failed = true;
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printf("%s: %s -> %s\n",
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success ? "Success" : "Failure",
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layout_desc, mp_chmap_to_str(&mp_layout));
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}
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assert_false(anything_failed);
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}
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#endif
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int main(void)
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{
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struct mp_chmap a;
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struct mp_chmap b;
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struct mp_chmap_sel s = {0};
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test_sel("5.1", "7.1", LAYOUTS("7.1"));
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test_sel("7.1", "5.1", LAYOUTS("5.1"));
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test_sel("7.1(wide-side)", "7.1", LAYOUTS("7.1"));
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test_sel("7.1(wide-side)", "5.1(side)", LAYOUTS("7.1", "5.1(side)"));
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test_sel("3.1", "5.1", LAYOUTS("7.1", "5.1", "2.1", "stereo", "mono"));
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test_sel("5.1", "7.1(rear)", LAYOUTS("7.1(rear)"));
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test_sel("5.1(side)", "5.1", LAYOUTS("5.1", "7.1"));
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test_sel("5.1", "7.1(alsa)", LAYOUTS("7.1(alsa)"));
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test_sel("mono", "stereo", LAYOUTS("stereo", "5.1"));
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test_sel("stereo", "stereo", LAYOUTS("stereo", "5.1"));
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test_sel("5.1(side)", "7.1(rear)", LAYOUTS("stereo", "7.1(rear)"));
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test_sel("7.1", "fl-fr-lfe-fc-bl-br-flc-frc",
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LAYOUTS("fl-fr-lfe-fc-bl-br-flc-frc", "3.0(back)"));
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mp_chmap_set_unknown(&a, 2);
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mp_chmap_from_str(&b, bstr0("5.1"));
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mp_chmap_sel_add_map(&s, &a);
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assert_false(mp_chmap_sel_fallback(&s, &b));
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assert_string_equal(mp_chmap_to_str(&b), "5.1");
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test_sel("quad", "quad(side)", LAYOUTS("quad(side)", "stereo"));
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test_sel("quad", "quad(side)", LAYOUTS("quad(side)", "7.0"));
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test_sel("quad", "quad(side)", LAYOUTS("7.0", "quad(side)"));
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test_sel("quad", "7.1(wide-side)", LAYOUTS("7.1(wide-side)", "stereo"));
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test_sel("quad", "7.1(wide-side)", LAYOUTS("stereo", "7.1(wide-side)"));
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test_sel("quad", "fl-fr-sl-sr",
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LAYOUTS("fl-fr-fc-bl-br", "fl-fr-sl-sr"));
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test_sel("quad", "fl-fr-bl-br-na-na-na-na",
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LAYOUTS("fl-fr-bl-br-na-na-na-na", "quad(side)", "stereo"));
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test_sel("quad", "fl-fr-bl-br-na-na-na-na",
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LAYOUTS("stereo", "quad(side)", "fl-fr-bl-br-na-na-na-na"));
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test_sel("fl-fr-fc-lfe-sl-sr", "fl-fr-lfe-fc-bl-br-na-na",
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LAYOUTS("fl-fr-lfe-fc-bl-br-na-na", "fl-fr-lfe-fc-bl-br-sdl-sdr"));
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test_sel("fl-fr-fc-lfe-sl-sr", "fl-fr-lfe-fc-bl-br-na-na",
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LAYOUTS("fl-fr-lfe-fc-bl-br-sdl-sdr", "fl-fr-lfe-fc-bl-br-na-na"));
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test_sel("na-fl-fr", "na-fl-fr", LAYOUTS("na-fl-fr-na", "fl-na-fr", "na-fl-fr",
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"fl-fr-na-na", "na-na-fl-fr"));
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mp_chmap_from_str(&a, bstr0("3.1"));
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mp_chmap_from_str(&b, bstr0("2.1"));
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assert_int_equal(mp_chmap_diffn(&a, &b), 1);
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mp_chmap_from_str(&b, bstr0("6.1(back)"));
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assert_int_equal(mp_chmap_diffn(&a, &b), 0);
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assert_int_equal(mp_chmap_diffn(&b, &a), 3);
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#if HAVE_AV_CHANNEL_LAYOUT
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test_av_channel_layout_to_mp_chmap();
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test_mp_chmap_to_av_channel_layout();
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#endif
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return 0;
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}
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