2019-11-09 00:50:46 +00:00
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#include <libavcodec/avcodec.h>
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#include "scale_test.h"
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#include "video/image_writer.h"
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#include "video/sws_utils.h"
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static struct mp_image *gen_repack_test_img(int w, int h, int bytes, bool rgb,
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bool alpha)
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{
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struct mp_regular_imgfmt planar_desc = {
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.component_type = MP_COMPONENT_TYPE_UINT,
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.component_size = bytes,
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.forced_csp = rgb ? MP_CSP_RGB : 0,
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.num_planes = alpha ? 4 : 3,
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.planes = {
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{1, {rgb ? 2 : 1}},
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{1, {rgb ? 3 : 2}},
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{1, {rgb ? 1 : 3}},
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{1, {4}},
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},
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};
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int mpfmt = mp_find_regular_imgfmt(&planar_desc);
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assert(mpfmt);
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struct mp_image *mpi = mp_image_alloc(mpfmt, w, h);
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assert(mpi);
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// Well, I have no idea what makes a good test image. So here's some crap.
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// This contains bars/tiles of solid colors. For each of R/G/B, it toggles
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// though 0/100% range, so 2*2*2 = 8 combinations (16 with alpha).
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int b_h = 16, b_w = 16;
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for (int y = 0; y < h; y++) {
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for (int p = 0; p < mpi->num_planes; p++) {
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void *line = mpi->planes[p] + mpi->stride[p] * (ptrdiff_t)y;
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for (int x = 0; x < w; x += b_w) {
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unsigned i = x / b_w + y / b_h * 2;
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int c = ((i >> p) & 1);
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if (bytes == 1) {
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c *= (1 << 8) - 1;
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for (int xs = x; xs < x + b_w; xs++)
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((uint8_t *)line)[xs] = c;
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} else if (bytes == 2) {
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c *= (1 << 16) - 1;
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for (int xs = x; xs < x + b_w; xs++)
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((uint16_t *)line)[xs] = c;
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}
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}
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}
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}
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return mpi;
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}
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static void dump_image(struct scale_test *stest, const char *name,
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struct mp_image *img)
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{
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char *path = mp_tprintf(4096, "%s/%s.png", stest->ctx->out_path, name);
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struct image_writer_opts opts = image_writer_opts_defaults;
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opts.format = AV_CODEC_ID_PNG;
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if (!write_image(img, &opts, path, stest->ctx->global, stest->ctx->log)) {
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MP_FATAL(stest->ctx, "Failed to write '%s'.\n", path);
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abort();
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}
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}
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// Compare 2 images (same format and size) for exact pixel data match.
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// Does generally not work with formats that include undefined padding.
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// Does not work with non-byte aligned formats.
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static void assert_imgs_equal(struct scale_test *stest, FILE *f,
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struct mp_image *ref, struct mp_image *new)
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{
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assert(ref->imgfmt == new->imgfmt);
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assert(ref->w == new->w);
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assert(ref->h == new->h);
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assert(ref->fmt.flags & MP_IMGFLAG_BYTE_ALIGNED);
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2020-05-17 12:57:13 +00:00
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assert(ref->fmt.bpp[0]);
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2019-11-09 00:50:46 +00:00
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for (int p = 0; p < ref->num_planes; p++) {
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for (int y = 0; y < ref->h; y++) {
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void *line_r = ref->planes[p] + ref->stride[p] * (ptrdiff_t)y;
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void *line_o = new->planes[p] + new->stride[p] * (ptrdiff_t)y;
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2020-05-17 12:57:13 +00:00
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size_t size = mp_image_plane_bytes(ref, p, 0, new->w);
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2019-11-09 00:50:46 +00:00
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bool ok = memcmp(line_r, line_o, size) == 0;
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if (!ok) {
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stest->fail += 1;
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char *fn_a = mp_tprintf(80, "img%d_ref", stest->fail);
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char *fn_b = mp_tprintf(80, "img%d_new", stest->fail);
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fprintf(f, "Images mismatching, dumping to %s/%s\n", fn_a, fn_b);
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dump_image(stest, fn_a, ref);
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dump_image(stest, fn_b, new);
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return;
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}
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}
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}
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}
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void repack_test_run(struct scale_test *stest)
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{
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char *logname = mp_tprintf(80, "%s.log", stest->test_name);
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FILE *f = test_open_out(stest->ctx, logname);
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if (!stest->sws) {
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init_imgfmts_list();
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stest->sws = mp_sws_alloc(stest);
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stest->img_repack_rgb8 = gen_repack_test_img(256, 128, 1, true, false);
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stest->img_repack_rgba8 = gen_repack_test_img(256, 128, 1, true, true);
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stest->img_repack_rgb16 = gen_repack_test_img(256, 128, 2, true, false);
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stest->img_repack_rgba16 = gen_repack_test_img(256, 128, 2, true, true);
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talloc_steal(stest, stest->img_repack_rgb8);
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talloc_steal(stest, stest->img_repack_rgba8);
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talloc_steal(stest, stest->img_repack_rgb16);
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talloc_steal(stest, stest->img_repack_rgba16);
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}
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for (int a = 0; a < num_imgfmts; a++) {
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int mpfmt = imgfmts[a];
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struct mp_imgfmt_desc fmtdesc = mp_imgfmt_get_desc(mpfmt);
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2020-05-17 12:57:13 +00:00
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struct mp_regular_imgfmt rdesc;
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if (!mp_get_regular_imgfmt(&rdesc, mpfmt)) {
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int ofmt = mp_find_other_endian(mpfmt);
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if (!mp_get_regular_imgfmt(&rdesc, ofmt))
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continue;
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}
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if (rdesc.num_planes > 1 || rdesc.forced_csp != MP_CSP_RGB)
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2019-11-09 00:50:46 +00:00
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continue;
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struct mp_image *test_img = NULL;
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bool alpha = fmtdesc.flags & MP_IMGFLAG_ALPHA;
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2020-05-17 12:57:13 +00:00
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bool hidepth = rdesc.component_size > 1;
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2019-11-09 00:50:46 +00:00
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if (alpha) {
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test_img = hidepth ? stest->img_repack_rgba16 : stest->img_repack_rgba8;
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} else {
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test_img = hidepth ? stest->img_repack_rgb16 : stest->img_repack_rgb8;
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}
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if (test_img->imgfmt == mpfmt)
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continue;
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if (!stest->fns->supports_fmts(stest->fns_priv, mpfmt, test_img->imgfmt))
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continue;
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if (!mp_sws_supports_formats(stest->sws, mpfmt, test_img->imgfmt))
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continue;
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fprintf(f, "%s using %s\n", mp_imgfmt_to_name(mpfmt),
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mp_imgfmt_to_name(test_img->imgfmt));
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struct mp_image *dst = mp_image_alloc(mpfmt, test_img->w, test_img->h);
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assert(dst);
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// This tests packing.
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bool ok = stest->fns->scale(stest->fns_priv, dst, test_img);
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assert(ok);
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// Cross-check with swscale in the other direction.
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// (Mostly so we don't have to worry about padding.)
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struct mp_image *src2 =
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mp_image_alloc(test_img->imgfmt, test_img->w, test_img->h);
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assert(src2);
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ok = mp_sws_scale(stest->sws, src2, dst) >= 0;
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assert_imgs_equal(stest, f, test_img, src2);
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// Assume the other conversion direction also works.
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assert(stest->fns->supports_fmts(stest->fns_priv, test_img->imgfmt, mpfmt));
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struct mp_image *back = mp_image_alloc(test_img->imgfmt, dst->w, dst->h);
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assert(back);
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// This tests unpacking.
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ok = stest->fns->scale(stest->fns_priv, back, dst);
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assert(ok);
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assert_imgs_equal(stest, f, test_img, back);
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talloc_free(back);
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talloc_free(src2);
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talloc_free(dst);
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}
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fclose(f);
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assert_text_files_equal(stest->ctx, logname, logname,
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"This can fail if FFmpeg adds or removes pixfmts.");
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}
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