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daedalus-fourier/tests/test_intra_pred_16x16.c
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claude-noether cb3aef3dac h264: promote remaining intra prediction modes (17) to public API 
Follows PR #26 (Intra_4x4 luma) with the same promotion pattern for
the rest of the intra prediction primitive set:

  Intra_16x16 luma   (4 modes, PR #13) — V/H/DC/Plane
  Intra_8x8  chroma  (4 modes, PR #14) — DC/H/V/Plane (4:2:0)
  Intra_8x8  luma    (9 modes, PRs #21 + #22) — High profile,
                                                 with 1-2-1 pre-filter

3 file moves via `git mv`, ~17 function renames stripping the `_ref`
suffix.  Test binaries rewired to link daedalus_core instead of
compiling the (now moved) ref files directly.  No code change — pure
plumbing for substitution-arc consumers.

26 intra prediction modes total now in the public API after this PR.

Verified on hertz:

  test_intra_pred_16x16:    5/5  PASS
  test_intra_pred_chroma8x8: 5/5  PASS
  test_intra_pred_8x8_luma: 11/11 PASS

All via public symbols (test binaries linked against daedalus_core).

Unblocks marfrit-packages substitution arc patch 0014 — wires
H264PredContext.pred4x4[], pred16x16[], pred8x8[], pred8x8l[]
through daedalus alongside the existing IDCT / deblock / qpel / DC
Hadamard substitutions.

After 0014 lands, the libavcodec.so built by marfrit-packages will
have EVERY hot-path pixel-math kernel of an H.264 8-bit 4:2:0
decode routing through daedalus — the substitution arc is feature-
complete for the campaign target (Pi 5 Firefox YouTube playback).
2026-05-25 15:37:44 +02:00

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/*
* Tests the 4 H.264 Intra_16x16 luma prediction modes against
* spec-derived expected patterns. Same layout as the 4x4 test:
* a buffer that holds the 16x16 output plus 1-pixel top/left
* context and 1-pixel top-left corner.
*
* row 0: [tl][t0..t15]
* row 1: [l0][output row 0]
* row 2: [l1][output row 1]
* ...
* row 16: [l15][output row 15]
*
* Buffer dimensions: 17 rows × 17 cols, total 289 bytes.
* dst (passed to the pred fns) points at row 1 col 1.
*/
#include <stdint.h>
#include <stddef.h>
#include <stdio.h>
#include <string.h>
extern void daedalus_h264_pred_16x16_vertical(uint8_t *dst, ptrdiff_t stride);
extern void daedalus_h264_pred_16x16_horizontal(uint8_t *dst, ptrdiff_t stride);
extern void daedalus_h264_pred_16x16_dc(uint8_t *dst, ptrdiff_t stride);
extern void daedalus_h264_pred_16x16_plane(uint8_t *dst, ptrdiff_t stride);
#define STRIDE 17
#define ROWS 17
static void set_ctx(uint8_t buf[ROWS][STRIDE], int tl,
const int t[16], const int l[16])
{
for (int r = 0; r < ROWS; r++)
for (int c = 0; c < STRIDE; c++) buf[r][c] = 0xff;
buf[0][0] = (uint8_t) tl;
for (int c = 0; c < 16; c++) buf[0][1 + c] = (uint8_t) t[c];
for (int r = 0; r < 16; r++) buf[1 + r][0] = (uint8_t) l[r];
}
static int check(const uint8_t buf[ROWS][STRIDE], const char *name,
uint8_t (*expect_at)(int r, int c, void *), void *cookie)
{
int diff = 0;
int first_r = 0, first_c = 0, first_got = 0, first_exp = 0;
for (int r = 0; r < 16; r++) {
for (int c = 0; c < 16; c++) {
uint8_t got = buf[1 + r][1 + c];
uint8_t exp = expect_at(r, c, cookie);
if (got != exp) {
if (diff == 0) {
first_r = r; first_c = c;
first_got = got; first_exp = exp;
}
diff++;
}
}
}
if (diff == 0)
printf(" %-30s PASS\n", name);
else
printf(" %-30s FAIL (%d/256 wrong, first r=%d c=%d got=%u exp=%u)\n",
name, diff, first_r, first_c, first_got, first_exp);
return diff == 0 ? 0 : 1;
}
/* Expectation helpers for each mode. */
static uint8_t expect_uniform(int r, int c, void *cookie)
{ (void)r; (void)c; return *(uint8_t *)cookie; }
struct vertical_ctx { const int *t; };
static uint8_t expect_vertical(int r, int c, void *cookie)
{ (void)r; return (uint8_t) ((struct vertical_ctx *)cookie)->t[c]; }
struct horizontal_ctx { const int *l; };
static uint8_t expect_horizontal(int r, int c, void *cookie)
{ (void)c; return (uint8_t) ((struct horizontal_ctx *)cookie)->l[r]; }
int main(void)
{
int fail = 0;
/* --- Mode 0 Vertical: each col = top[col] --- */
{
uint8_t buf[ROWS][STRIDE];
int t[16], l[16];
for (int i = 0; i < 16; i++) { t[i] = 10 + i; l[i] = 0; }
set_ctx(buf, 0, t, l);
daedalus_h264_pred_16x16_vertical(&buf[1][1], STRIDE);
struct vertical_ctx vc = { t };
fail |= check(buf, "Vertical (mode 0)", expect_vertical, &vc);
}
/* --- Mode 1 Horizontal: each row = left[row] --- */
{
uint8_t buf[ROWS][STRIDE];
int t[16] = {0}, l[16];
for (int i = 0; i < 16; i++) l[i] = 50 + i;
set_ctx(buf, 0, t, l);
daedalus_h264_pred_16x16_horizontal(&buf[1][1], STRIDE);
struct horizontal_ctx hc = { l };
fail |= check(buf, "Horizontal (mode 1)", expect_horizontal, &hc);
}
/* --- Mode 2 DC: ((sum + 16) >> 5) --- */
/* All top = 2, all left = 6: sum = 32 + 96 = 128, +16 = 144,
* >>5 = 144/32 = 4. */
{
uint8_t buf[ROWS][STRIDE];
int t[16], l[16];
for (int i = 0; i < 16; i++) { t[i] = 2; l[i] = 6; }
set_ctx(buf, 99, t, l);
daedalus_h264_pred_16x16_dc(&buf[1][1], STRIDE);
uint8_t exp_val = 4;
fail |= check(buf, "DC (mode 2)", expect_uniform, &exp_val);
}
/* --- Mode 3 Plane: uniform neighbours → uniform output --- */
/* H=V=0 when neighbours are uniform. a = 16*(p+p) = 32p.
* pred[y][x] = (32p + 0 + 0 + 16) >> 5 = (32p + 16) >> 5 = p
* (exact integer for any p, since 32p/32 = p and +16/32 = 0).
* Verifies the orientation-free portion of the formula. */
{
uint8_t buf[ROWS][STRIDE];
int t[16], l[16];
for (int i = 0; i < 16; i++) { t[i] = 100; l[i] = 100; }
set_ctx(buf, 100, t, l); /* uniform tl too — H/V sums actually zero */
daedalus_h264_pred_16x16_plane(&buf[1][1], STRIDE);
uint8_t exp_val = 100;
fail |= check(buf, "Plane (mode 3, uniform)", expect_uniform, &exp_val);
}
/* --- Mode 3 Plane: gradient sanity ---
* Top row = 0..15 (gradient), left col = 0..15, tl = 0.
* H = sum_{i=0..7} (i+1) * (t[8+i] - t[6-i] for i<7; or t[15]-tl=15 for i=7)
* = 1*(8-6) + 2*(9-5) + 3*(10-4) + 4*(11-3) + 5*(12-2) + 6*(13-1)
* + 7*(14-0) + 8*(15-0)
* = 2 + 8 + 18 + 32 + 50 + 72 + 98 + 120 = 400
* V = same shape on left col = 400
* b = (5*400 + 32) >> 6 = 2032 >> 6 = 31
* c = (5*400 + 32) >> 6 = 31
* a = 16 * (l[15] + t[15]) = 16 * (15 + 15) = 480
* pred[0][0] = (480 + 31*(-7) + 31*(-7) + 16) >> 5
* = (480 - 217 - 217 + 16) >> 5
* = 62 >> 5 = 1
* pred[15][15] = (480 + 31*8 + 31*8 + 16) >> 5
* = (480 + 248 + 248 + 16) >> 5
* = 992 >> 5 = 31
* Just spot-check those two corners. */
{
uint8_t buf[ROWS][STRIDE];
int t[16], l[16];
for (int i = 0; i < 16; i++) { t[i] = i; l[i] = i; }
set_ctx(buf, 0, t, l);
daedalus_h264_pred_16x16_plane(&buf[1][1], STRIDE);
uint8_t tl_actual = buf[1 + 0][1 + 0];
uint8_t br_actual = buf[1 + 15][1 + 15];
int spot_fail = 0;
if (tl_actual != 1) { fprintf(stderr, "Plane gradient pred[0][0] = %u, expected 1\n", tl_actual); spot_fail = 1; }
if (br_actual != 31) { fprintf(stderr, "Plane gradient pred[15][15] = %u, expected 31\n", br_actual); spot_fail = 1; }
if (!spot_fail) printf(" %-30s PASS (corners 1, 31)\n", "Plane (mode 3, gradient)");
else printf(" %-30s FAIL\n", "Plane (mode 3, gradient)");
fail |= spot_fail;
}
if (fail == 0) printf("\nALL Intra_16x16 mode references PASS\n");
else fprintf(stderr, "\n%d test(s) FAILED\n", fail);
return fail ? 1 : 0;
}
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