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mpv/test/chmap_sel.c
wm4 3560a50029 audio: redo channel map fallback selection
Instead of somehow having 4 different cases with each their own weight,
do it with a single function that decides which channel layout is the
better fallback.

This is simpler, and also introduces new (fixed) semantics. The new test
added to test/chmap_sel.c actually works now. This is a mixed case with
no perfect upmix or downmix, but the better choice is the one which
loses the least channels from the original layout.

One test also changes. If the input is 7.1(wide-side), and the available
layouts are 7.1 and 5.1(side), the latter is now chosen instead of the
former. This makes sense: both layouts contain 6 out of 8 channels from
the original layout, but the 5.1(side) one is smaller. This follows the
general logic. The 7.1 layout has FLC/RLC speakers instead of BL/BR,
and judging by the names, "front left center" is completely different
from "back left". If these should be exchangeable, a separate exception
would have to be added.
2015-05-08 19:33:17 +02:00

107 lines
3.7 KiB
C

#include "test_helpers.h"
#include "audio/chmap_sel.h"
#define LAYOUTS(...) (char*[]){__VA_ARGS__, NULL}
static void test_sel(const char *input, const char *expected_selection,
char **layouts)
{
struct mp_chmap_sel s = {0};
struct mp_chmap input_map;
struct mp_chmap expected_map;
assert_true(mp_chmap_from_str(&input_map, bstr0(input)));
assert_true(mp_chmap_from_str(&expected_map, bstr0(expected_selection)));
for (int n = 0; layouts[n]; n++) {
struct mp_chmap tmp;
assert_true(mp_chmap_from_str(&tmp, bstr0(layouts[n])));
int count = s.num_chmaps;
mp_chmap_sel_add_map(&s, &tmp);
assert_true(s.num_chmaps > count); // assure validity and max. count
}
assert_true(mp_chmap_sel_fallback(&s, &input_map));
// We convert expected_map to a chmap and then back to a string to avoid
// problems with ambiguous layouts.
assert_string_equal(mp_chmap_to_str(&input_map),
mp_chmap_to_str(&expected_map));
}
static void test_mp_chmap_sel_fallback_upmix(void **state) {
test_sel("5.1", "7.1", LAYOUTS("7.1"));
}
static void test_mp_chmap_sel_fallback_downmix(void **state) {
test_sel("7.1", "5.1", LAYOUTS("5.1"));
}
static void test_mp_chmap_sel_fallback_incompatible(void **state) {
test_sel("7.1(wide-side)", "7.1", LAYOUTS("7.1"));
}
static void test_mp_chmap_sel_fallback_prefer_compatible(void **state) {
test_sel("7.1(wide-side)", "5.1(side)", LAYOUTS("7.1", "5.1(side)"));
}
static void test_mp_chmap_sel_fallback_prefer_closest_upmix(void **state) {
test_sel("3.1", "5.1", LAYOUTS("7.1", "5.1", "2.1", "stereo", "mono"));
}
static void test_mp_chmap_sel_fallback_use_replacements(void **state) {
test_sel("5.1", "7.1(rear)", LAYOUTS("7.1(rear)"));
}
static void test_mp_chmap_sel_fallback_works_on_alsa_chmaps(void **state) {
test_sel("5.1", "7.1(alsa)", LAYOUTS("7.1(alsa)"));
}
static void test_mp_chmap_sel_fallback_mono_to_stereo(void **state) {
test_sel("mono", "stereo", LAYOUTS("stereo", "5.1"));
}
static void test_mp_chmap_sel_fallback_stereo_to_stereo(void **state) {
test_sel("stereo", "stereo", LAYOUTS("stereo", "5.1"));
}
static void test_mp_chmap_sel_fallback_no_downmix(void **state) {
test_sel("5.1(side)", "7.1(rear)", LAYOUTS("stereo", "7.1(rear)"));
}
static void test_mp_chmap_sel_fallback_minimal_downmix(void **state) {
test_sel("7.1", "fl-fr-lfe-fc-bl-br-flc-frc",
LAYOUTS("fl-fr-lfe-fc-bl-br-flc-frc", "3.0(back)"));
}
static void test_mp_chmap_sel_fallback_reject_unknown(void **state) {
struct mp_chmap a;
struct mp_chmap b;
struct mp_chmap_sel s = {0};
mp_chmap_set_unknown(&a, 2);
mp_chmap_from_str(&b, bstr0("5.1"));
mp_chmap_sel_add_map(&s, &a);
assert_false(mp_chmap_sel_fallback(&s, &b));
assert_string_equal(mp_chmap_to_str(&b), "5.1");
}
int main(void) {
const UnitTest tests[] = {
unit_test(test_mp_chmap_sel_fallback_upmix),
unit_test(test_mp_chmap_sel_fallback_downmix),
unit_test(test_mp_chmap_sel_fallback_incompatible),
unit_test(test_mp_chmap_sel_fallback_prefer_compatible),
unit_test(test_mp_chmap_sel_fallback_prefer_closest_upmix),
unit_test(test_mp_chmap_sel_fallback_use_replacements),
unit_test(test_mp_chmap_sel_fallback_works_on_alsa_chmaps),
unit_test(test_mp_chmap_sel_fallback_mono_to_stereo),
unit_test(test_mp_chmap_sel_fallback_stereo_to_stereo),
unit_test(test_mp_chmap_sel_fallback_no_downmix),
unit_test(test_mp_chmap_sel_fallback_minimal_downmix),
unit_test(test_mp_chmap_sel_fallback_reject_unknown),
};
return run_tests(tests);
}