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common.c
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common.c
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#include "tests.h"
static int irand()
{
return rand() - RAND_MAX / 2;
}
int main()
{
pl_log log = pl_test_logger();
pl_log_update(log, NULL);
pl_log_destroy(&log);
// Test some misc helper functions
struct pl_rect2d rc2 = {
irand(), irand(),
irand(), irand(),
};
struct pl_rect3d rc3 = {
irand(), irand(), irand(),
irand(), irand(), irand(),
};
pl_rect2d_normalize(&rc2);
REQUIRE(rc2.x1 >= rc2.x0);
REQUIRE(rc2.y1 >= rc2.y0);
pl_rect3d_normalize(&rc3);
REQUIRE(rc3.x1 >= rc3.x0);
REQUIRE(rc3.y1 >= rc3.y0);
REQUIRE(rc3.z1 >= rc3.z0);
struct pl_rect2df rc2f = {
RANDOM, RANDOM,
RANDOM, RANDOM,
};
struct pl_rect3df rc3f = {
RANDOM, RANDOM, RANDOM,
RANDOM, RANDOM, RANDOM,
};
pl_rect2df_normalize(&rc2f);
REQUIRE(rc2.x1 >= rc2.x0);
REQUIRE(rc2.y1 >= rc2.y0);
pl_rect3df_normalize(&rc3f);
REQUIRE(rc3.x1 >= rc3.x0);
REQUIRE(rc3.y1 >= rc3.y0);
REQUIRE(rc3.z1 >= rc3.z0);
struct pl_rect2d rc2r = pl_rect2df_round(&rc2f);
struct pl_rect3d rc3r = pl_rect3df_round(&rc3f);
REQUIRE(fabs(rc2r.x0 - rc2f.x0) <= 0.5);
REQUIRE(fabs(rc2r.x1 - rc2f.x1) <= 0.5);
REQUIRE(fabs(rc2r.y0 - rc2f.y0) <= 0.5);
REQUIRE(fabs(rc2r.y1 - rc2f.y1) <= 0.5);
REQUIRE(fabs(rc3r.x0 - rc3f.x0) <= 0.5);
REQUIRE(fabs(rc3r.x1 - rc3f.x1) <= 0.5);
REQUIRE(fabs(rc3r.y0 - rc3f.y0) <= 0.5);
REQUIRE(fabs(rc3r.y1 - rc3f.y1) <= 0.5);
REQUIRE(fabs(rc3r.z0 - rc3f.z0) <= 0.5);
REQUIRE(fabs(rc3r.z1 - rc3f.z1) <= 0.5);
struct pl_transform3x3 tr = {
.mat = {{
{ RANDOM, RANDOM, RANDOM },
{ RANDOM, RANDOM, RANDOM },
{ RANDOM, RANDOM, RANDOM },
}},
.c = { RANDOM, RANDOM, RANDOM },
};
struct pl_transform3x3 tr2 = tr;
float scale = 1.0 + RANDOM;
pl_transform3x3_scale(&tr2, scale);
pl_transform3x3_invert(&tr2);
pl_transform3x3_invert(&tr2);
pl_transform3x3_scale(&tr2, 1.0 / scale);
for (int i = 0; i < 3; i++) {
for (int j = 0; j < 3; j++) {
printf("%f %f\n", tr.mat.m[i][j], tr2.mat.m[i][j]);
REQUIRE(feq(tr.mat.m[i][j], tr2.mat.m[i][j], 1e-4));
}
REQUIRE(feq(tr.c[i], tr2.c[i], 1e-4));
}
// Test aspect ratio code
const struct pl_rect2df rc1080p = {0, 0, 1920, 1080};
const struct pl_rect2df rc43 = {0, 0, 1024, 768};
struct pl_rect2df rc;
REQUIRE(feq(pl_rect2df_aspect(&rc1080p), 16.0/9.0, 1e-8));
REQUIRE(feq(pl_rect2df_aspect(&rc43), 4.0/3.0, 1e-8));
#define pl_rect2df_midx(rc) (((rc).x0 + (rc).x1) / 2.0)
#define pl_rect2df_midy(rc) (((rc).y0 + (rc).y1) / 2.0)
for (float aspect = 0.2; aspect < 3.0; aspect += 0.4) {
for (float scan = 0.0; scan <= 1.0; scan += 0.5) {
rc = rc1080p;
pl_rect2df_aspect_set(&rc, aspect, scan);
printf("aspect %.2f, panscan %.1f: {%f %f} -> {%f %f}\n",
aspect, scan, rc.x0, rc.y0, rc.x1, rc.y1);
REQUIRE(feq(pl_rect2df_aspect(&rc), aspect, 1e-6));
REQUIRE(feq(pl_rect2df_midx(rc), pl_rect2df_midx(rc1080p), 1e-6));
REQUIRE(feq(pl_rect2df_midy(rc), pl_rect2df_midy(rc1080p), 1e-6));
}
}
rc = rc1080p;
pl_rect2df_aspect_fit(&rc, &rc43, 0.0);
REQUIRE(feq(pl_rect2df_aspect(&rc), pl_rect2df_aspect(&rc43), 1e-6));
REQUIRE(feq(pl_rect2df_midx(rc), pl_rect2df_midx(rc1080p), 1e-6));
REQUIRE(feq(pl_rect2df_midy(rc), pl_rect2df_midy(rc1080p), 1e-6));
REQUIRE(feq(pl_rect_w(rc), pl_rect_w(rc43), 1e-6));
REQUIRE(feq(pl_rect_h(rc), pl_rect_h(rc43), 1e-6));
rc = rc43;
pl_rect2df_aspect_fit(&rc, &rc1080p, 0.0);
REQUIRE(feq(pl_rect2df_aspect(&rc), pl_rect2df_aspect(&rc1080p), 1e-6));
REQUIRE(feq(pl_rect2df_midx(rc), pl_rect2df_midx(rc43), 1e-6));
REQUIRE(feq(pl_rect2df_midy(rc), pl_rect2df_midy(rc43), 1e-6));
REQUIRE(feq(pl_rect_w(rc), pl_rect_w(rc43), 1e-6));
rc = (struct pl_rect2df) { 1920, 1080, 0, 0 };
pl_rect2df_offset(&rc, 50, 100);
REQUIRE(feq(rc.x0, 1870, 1e-6));
REQUIRE(feq(rc.x1, -50, 1e-6));
REQUIRE(feq(rc.y0, 980, 1e-6));
REQUIRE(feq(rc.y1, -100, 1e-6));
}