1cabdff1aSopenharmony_ci/* 2cabdff1aSopenharmony_ci * Copyright (c) 2015 Ronald S. Bultje <rsbultje@gmail.com> 3cabdff1aSopenharmony_ci * 4cabdff1aSopenharmony_ci * This file is part of FFmpeg. 5cabdff1aSopenharmony_ci * 6cabdff1aSopenharmony_ci * FFmpeg is free software; you can redistribute it and/or modify 7cabdff1aSopenharmony_ci * it under the terms of the GNU General Public License as published by 8cabdff1aSopenharmony_ci * the Free Software Foundation; either version 2 of the License, or 9cabdff1aSopenharmony_ci * (at your option) any later version. 10cabdff1aSopenharmony_ci * 11cabdff1aSopenharmony_ci * FFmpeg is distributed in the hope that it will be useful, 12cabdff1aSopenharmony_ci * but WITHOUT ANY WARRANTY; without even the implied warranty of 13cabdff1aSopenharmony_ci * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the 14cabdff1aSopenharmony_ci * GNU General Public License for more details. 15cabdff1aSopenharmony_ci * 16cabdff1aSopenharmony_ci * You should have received a copy of the GNU General Public License along 17cabdff1aSopenharmony_ci * with FFmpeg; if not, write to the Free Software Foundation, Inc., 18cabdff1aSopenharmony_ci * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. 19cabdff1aSopenharmony_ci */ 20cabdff1aSopenharmony_ci 21cabdff1aSopenharmony_ci#include <math.h> 22cabdff1aSopenharmony_ci#include <string.h> 23cabdff1aSopenharmony_ci#include "checkasm.h" 24cabdff1aSopenharmony_ci#include "libavcodec/vp9data.h" 25cabdff1aSopenharmony_ci#include "libavcodec/vp9.h" 26cabdff1aSopenharmony_ci#include "libavutil/common.h" 27cabdff1aSopenharmony_ci#include "libavutil/internal.h" 28cabdff1aSopenharmony_ci#include "libavutil/intreadwrite.h" 29cabdff1aSopenharmony_ci#include "libavutil/mathematics.h" 30cabdff1aSopenharmony_ci#include "libavutil/mem_internal.h" 31cabdff1aSopenharmony_ci 32cabdff1aSopenharmony_cistatic const uint32_t pixel_mask[3] = { 0xffffffff, 0x03ff03ff, 0x0fff0fff }; 33cabdff1aSopenharmony_ci#define SIZEOF_PIXEL ((bit_depth + 7) / 8) 34cabdff1aSopenharmony_ci 35cabdff1aSopenharmony_ci#define randomize_buffers() \ 36cabdff1aSopenharmony_ci do { \ 37cabdff1aSopenharmony_ci uint32_t mask = pixel_mask[(bit_depth - 8) >> 1]; \ 38cabdff1aSopenharmony_ci int k; \ 39cabdff1aSopenharmony_ci for (k = -4; k < SIZEOF_PIXEL * FFMAX(8, size); k += 4) { \ 40cabdff1aSopenharmony_ci uint32_t r = rnd() & mask; \ 41cabdff1aSopenharmony_ci AV_WN32A(a + k, r); \ 42cabdff1aSopenharmony_ci } \ 43cabdff1aSopenharmony_ci for (k = 0; k < size * SIZEOF_PIXEL; k += 4) { \ 44cabdff1aSopenharmony_ci uint32_t r = rnd() & mask; \ 45cabdff1aSopenharmony_ci AV_WN32A(l + k, r); \ 46cabdff1aSopenharmony_ci } \ 47cabdff1aSopenharmony_ci } while (0) 48cabdff1aSopenharmony_ci 49cabdff1aSopenharmony_cistatic void check_ipred(void) 50cabdff1aSopenharmony_ci{ 51cabdff1aSopenharmony_ci LOCAL_ALIGNED_32(uint8_t, a_buf, [64 * 2]); 52cabdff1aSopenharmony_ci uint8_t *a = &a_buf[32 * 2]; 53cabdff1aSopenharmony_ci LOCAL_ALIGNED_32(uint8_t, l, [32 * 2]); 54cabdff1aSopenharmony_ci LOCAL_ALIGNED_32(uint8_t, dst0, [32 * 32 * 2]); 55cabdff1aSopenharmony_ci LOCAL_ALIGNED_32(uint8_t, dst1, [32 * 32 * 2]); 56cabdff1aSopenharmony_ci VP9DSPContext dsp; 57cabdff1aSopenharmony_ci int tx, mode, bit_depth; 58cabdff1aSopenharmony_ci declare_func_emms(AV_CPU_FLAG_MMX | AV_CPU_FLAG_MMXEXT, void, uint8_t *dst, ptrdiff_t stride, 59cabdff1aSopenharmony_ci const uint8_t *left, const uint8_t *top); 60cabdff1aSopenharmony_ci static const char *const mode_names[N_INTRA_PRED_MODES] = { 61cabdff1aSopenharmony_ci [VERT_PRED] = "vert", 62cabdff1aSopenharmony_ci [HOR_PRED] = "hor", 63cabdff1aSopenharmony_ci [DC_PRED] = "dc", 64cabdff1aSopenharmony_ci [DIAG_DOWN_LEFT_PRED] = "diag_downleft", 65cabdff1aSopenharmony_ci [DIAG_DOWN_RIGHT_PRED] = "diag_downright", 66cabdff1aSopenharmony_ci [VERT_RIGHT_PRED] = "vert_right", 67cabdff1aSopenharmony_ci [HOR_DOWN_PRED] = "hor_down", 68cabdff1aSopenharmony_ci [VERT_LEFT_PRED] = "vert_left", 69cabdff1aSopenharmony_ci [HOR_UP_PRED] = "hor_up", 70cabdff1aSopenharmony_ci [TM_VP8_PRED] = "tm", 71cabdff1aSopenharmony_ci [LEFT_DC_PRED] = "dc_left", 72cabdff1aSopenharmony_ci [TOP_DC_PRED] = "dc_top", 73cabdff1aSopenharmony_ci [DC_128_PRED] = "dc_128", 74cabdff1aSopenharmony_ci [DC_127_PRED] = "dc_127", 75cabdff1aSopenharmony_ci [DC_129_PRED] = "dc_129", 76cabdff1aSopenharmony_ci }; 77cabdff1aSopenharmony_ci 78cabdff1aSopenharmony_ci for (bit_depth = 8; bit_depth <= 12; bit_depth += 2) { 79cabdff1aSopenharmony_ci ff_vp9dsp_init(&dsp, bit_depth, 0); 80cabdff1aSopenharmony_ci for (tx = 0; tx < 4; tx++) { 81cabdff1aSopenharmony_ci int size = 4 << tx; 82cabdff1aSopenharmony_ci 83cabdff1aSopenharmony_ci for (mode = 0; mode < N_INTRA_PRED_MODES; mode++) { 84cabdff1aSopenharmony_ci if (check_func(dsp.intra_pred[tx][mode], "vp9_%s_%dx%d_%dbpp", 85cabdff1aSopenharmony_ci mode_names[mode], size, size, bit_depth)) { 86cabdff1aSopenharmony_ci randomize_buffers(); 87cabdff1aSopenharmony_ci call_ref(dst0, size * SIZEOF_PIXEL, l, a); 88cabdff1aSopenharmony_ci call_new(dst1, size * SIZEOF_PIXEL, l, a); 89cabdff1aSopenharmony_ci if (memcmp(dst0, dst1, size * size * SIZEOF_PIXEL)) 90cabdff1aSopenharmony_ci fail(); 91cabdff1aSopenharmony_ci bench_new(dst1, size * SIZEOF_PIXEL,l, a); 92cabdff1aSopenharmony_ci } 93cabdff1aSopenharmony_ci } 94cabdff1aSopenharmony_ci } 95cabdff1aSopenharmony_ci } 96cabdff1aSopenharmony_ci report("ipred"); 97cabdff1aSopenharmony_ci} 98cabdff1aSopenharmony_ci 99cabdff1aSopenharmony_ci#undef randomize_buffers 100cabdff1aSopenharmony_ci 101cabdff1aSopenharmony_ci#define randomize_buffers() \ 102cabdff1aSopenharmony_ci do { \ 103cabdff1aSopenharmony_ci uint32_t mask = pixel_mask[(bit_depth - 8) >> 1]; \ 104cabdff1aSopenharmony_ci for (y = 0; y < sz; y++) { \ 105cabdff1aSopenharmony_ci for (x = 0; x < sz * SIZEOF_PIXEL; x += 4) { \ 106cabdff1aSopenharmony_ci uint32_t r = rnd() & mask; \ 107cabdff1aSopenharmony_ci AV_WN32A(dst + y * sz * SIZEOF_PIXEL + x, r); \ 108cabdff1aSopenharmony_ci AV_WN32A(src + y * sz * SIZEOF_PIXEL + x, rnd() & mask); \ 109cabdff1aSopenharmony_ci } \ 110cabdff1aSopenharmony_ci for (x = 0; x < sz; x++) { \ 111cabdff1aSopenharmony_ci if (bit_depth == 8) { \ 112cabdff1aSopenharmony_ci coef[y * sz + x] = src[y * sz + x] - dst[y * sz + x]; \ 113cabdff1aSopenharmony_ci } else { \ 114cabdff1aSopenharmony_ci ((int32_t *) coef)[y * sz + x] = \ 115cabdff1aSopenharmony_ci ((uint16_t *) src)[y * sz + x] - \ 116cabdff1aSopenharmony_ci ((uint16_t *) dst)[y * sz + x]; \ 117cabdff1aSopenharmony_ci } \ 118cabdff1aSopenharmony_ci } \ 119cabdff1aSopenharmony_ci } \ 120cabdff1aSopenharmony_ci } while(0) 121cabdff1aSopenharmony_ci 122cabdff1aSopenharmony_ci// wht function copied from libvpx 123cabdff1aSopenharmony_cistatic void fwht_1d(double *out, const double *in, int sz) 124cabdff1aSopenharmony_ci{ 125cabdff1aSopenharmony_ci double t0 = in[0] + in[1]; 126cabdff1aSopenharmony_ci double t3 = in[3] - in[2]; 127cabdff1aSopenharmony_ci double t4 = trunc((t0 - t3) * 0.5); 128cabdff1aSopenharmony_ci double t1 = t4 - in[1]; 129cabdff1aSopenharmony_ci double t2 = t4 - in[2]; 130cabdff1aSopenharmony_ci 131cabdff1aSopenharmony_ci out[0] = t0 - t2; 132cabdff1aSopenharmony_ci out[1] = t2; 133cabdff1aSopenharmony_ci out[2] = t3 + t1; 134cabdff1aSopenharmony_ci out[3] = t1; 135cabdff1aSopenharmony_ci} 136cabdff1aSopenharmony_ci 137cabdff1aSopenharmony_ci// standard DCT-II 138cabdff1aSopenharmony_cistatic void fdct_1d(double *out, const double *in, int sz) 139cabdff1aSopenharmony_ci{ 140cabdff1aSopenharmony_ci int k, n; 141cabdff1aSopenharmony_ci 142cabdff1aSopenharmony_ci for (k = 0; k < sz; k++) { 143cabdff1aSopenharmony_ci out[k] = 0.0; 144cabdff1aSopenharmony_ci for (n = 0; n < sz; n++) 145cabdff1aSopenharmony_ci out[k] += in[n] * cos(M_PI * (2 * n + 1) * k / (sz * 2.0)); 146cabdff1aSopenharmony_ci } 147cabdff1aSopenharmony_ci out[0] *= M_SQRT1_2; 148cabdff1aSopenharmony_ci} 149cabdff1aSopenharmony_ci 150cabdff1aSopenharmony_ci// see "Towards jointly optimal spatial prediction and adaptive transform in 151cabdff1aSopenharmony_ci// video/image coding", by J. Han, A. Saxena, and K. Rose 152cabdff1aSopenharmony_ci// IEEE Proc. ICASSP, pp. 726-729, Mar. 2010. 153cabdff1aSopenharmony_cistatic void fadst4_1d(double *out, const double *in, int sz) 154cabdff1aSopenharmony_ci{ 155cabdff1aSopenharmony_ci int k, n; 156cabdff1aSopenharmony_ci 157cabdff1aSopenharmony_ci for (k = 0; k < sz; k++) { 158cabdff1aSopenharmony_ci out[k] = 0.0; 159cabdff1aSopenharmony_ci for (n = 0; n < sz; n++) 160cabdff1aSopenharmony_ci out[k] += in[n] * sin(M_PI * (n + 1) * (2 * k + 1) / (sz * 2.0 + 1.0)); 161cabdff1aSopenharmony_ci } 162cabdff1aSopenharmony_ci} 163cabdff1aSopenharmony_ci 164cabdff1aSopenharmony_ci// see "A Butterfly Structured Design of The Hybrid Transform Coding Scheme", 165cabdff1aSopenharmony_ci// by Jingning Han, Yaowu Xu, and Debargha Mukherjee 166cabdff1aSopenharmony_ci// http://static.googleusercontent.com/media/research.google.com/en//pubs/archive/41418.pdf 167cabdff1aSopenharmony_cistatic void fadst_1d(double *out, const double *in, int sz) 168cabdff1aSopenharmony_ci{ 169cabdff1aSopenharmony_ci int k, n; 170cabdff1aSopenharmony_ci 171cabdff1aSopenharmony_ci for (k = 0; k < sz; k++) { 172cabdff1aSopenharmony_ci out[k] = 0.0; 173cabdff1aSopenharmony_ci for (n = 0; n < sz; n++) 174cabdff1aSopenharmony_ci out[k] += in[n] * sin(M_PI * (2 * n + 1) * (2 * k + 1) / (sz * 4.0)); 175cabdff1aSopenharmony_ci } 176cabdff1aSopenharmony_ci} 177cabdff1aSopenharmony_ci 178cabdff1aSopenharmony_citypedef void (*ftx1d_fn)(double *out, const double *in, int sz); 179cabdff1aSopenharmony_cistatic void ftx_2d(double *out, const double *in, enum TxfmMode tx, 180cabdff1aSopenharmony_ci enum TxfmType txtp, int sz) 181cabdff1aSopenharmony_ci{ 182cabdff1aSopenharmony_ci static const double scaling_factors[5][4] = { 183cabdff1aSopenharmony_ci { 4.0, 16.0 * M_SQRT1_2 / 3.0, 16.0 * M_SQRT1_2 / 3.0, 32.0 / 9.0 }, 184cabdff1aSopenharmony_ci { 2.0, 2.0, 2.0, 2.0 }, 185cabdff1aSopenharmony_ci { 1.0, 1.0, 1.0, 1.0 }, 186cabdff1aSopenharmony_ci { 0.25 }, 187cabdff1aSopenharmony_ci { 4.0 } 188cabdff1aSopenharmony_ci }; 189cabdff1aSopenharmony_ci static const ftx1d_fn ftx1d_tbl[5][4][2] = { 190cabdff1aSopenharmony_ci { 191cabdff1aSopenharmony_ci { fdct_1d, fdct_1d }, 192cabdff1aSopenharmony_ci { fadst4_1d, fdct_1d }, 193cabdff1aSopenharmony_ci { fdct_1d, fadst4_1d }, 194cabdff1aSopenharmony_ci { fadst4_1d, fadst4_1d }, 195cabdff1aSopenharmony_ci }, { 196cabdff1aSopenharmony_ci { fdct_1d, fdct_1d }, 197cabdff1aSopenharmony_ci { fadst_1d, fdct_1d }, 198cabdff1aSopenharmony_ci { fdct_1d, fadst_1d }, 199cabdff1aSopenharmony_ci { fadst_1d, fadst_1d }, 200cabdff1aSopenharmony_ci }, { 201cabdff1aSopenharmony_ci { fdct_1d, fdct_1d }, 202cabdff1aSopenharmony_ci { fadst_1d, fdct_1d }, 203cabdff1aSopenharmony_ci { fdct_1d, fadst_1d }, 204cabdff1aSopenharmony_ci { fadst_1d, fadst_1d }, 205cabdff1aSopenharmony_ci }, { 206cabdff1aSopenharmony_ci { fdct_1d, fdct_1d }, 207cabdff1aSopenharmony_ci }, { 208cabdff1aSopenharmony_ci { fwht_1d, fwht_1d }, 209cabdff1aSopenharmony_ci }, 210cabdff1aSopenharmony_ci }; 211cabdff1aSopenharmony_ci double temp[1024]; 212cabdff1aSopenharmony_ci double scaling_factor = scaling_factors[tx][txtp]; 213cabdff1aSopenharmony_ci int i, j; 214cabdff1aSopenharmony_ci 215cabdff1aSopenharmony_ci // cols 216cabdff1aSopenharmony_ci for (i = 0; i < sz; ++i) { 217cabdff1aSopenharmony_ci double temp_out[32]; 218cabdff1aSopenharmony_ci 219cabdff1aSopenharmony_ci ftx1d_tbl[tx][txtp][0](temp_out, &in[i * sz], sz); 220cabdff1aSopenharmony_ci // scale and transpose 221cabdff1aSopenharmony_ci for (j = 0; j < sz; ++j) 222cabdff1aSopenharmony_ci temp[j * sz + i] = temp_out[j] * scaling_factor; 223cabdff1aSopenharmony_ci } 224cabdff1aSopenharmony_ci 225cabdff1aSopenharmony_ci // rows 226cabdff1aSopenharmony_ci for (i = 0; i < sz; i++) 227cabdff1aSopenharmony_ci ftx1d_tbl[tx][txtp][1](&out[i * sz], &temp[i * sz], sz); 228cabdff1aSopenharmony_ci} 229cabdff1aSopenharmony_ci 230cabdff1aSopenharmony_cistatic void ftx(int16_t *buf, enum TxfmMode tx, 231cabdff1aSopenharmony_ci enum TxfmType txtp, int sz, int bit_depth) 232cabdff1aSopenharmony_ci{ 233cabdff1aSopenharmony_ci double ind[1024], outd[1024]; 234cabdff1aSopenharmony_ci int n; 235cabdff1aSopenharmony_ci 236cabdff1aSopenharmony_ci emms_c(); 237cabdff1aSopenharmony_ci for (n = 0; n < sz * sz; n++) { 238cabdff1aSopenharmony_ci if (bit_depth == 8) 239cabdff1aSopenharmony_ci ind[n] = buf[n]; 240cabdff1aSopenharmony_ci else 241cabdff1aSopenharmony_ci ind[n] = ((int32_t *) buf)[n]; 242cabdff1aSopenharmony_ci } 243cabdff1aSopenharmony_ci ftx_2d(outd, ind, tx, txtp, sz); 244cabdff1aSopenharmony_ci for (n = 0; n < sz * sz; n++) { 245cabdff1aSopenharmony_ci if (bit_depth == 8) 246cabdff1aSopenharmony_ci buf[n] = lrint(outd[n]); 247cabdff1aSopenharmony_ci else 248cabdff1aSopenharmony_ci ((int32_t *) buf)[n] = lrint(outd[n]); 249cabdff1aSopenharmony_ci } 250cabdff1aSopenharmony_ci} 251cabdff1aSopenharmony_ci 252cabdff1aSopenharmony_cistatic int copy_subcoefs(int16_t *out, const int16_t *in, enum TxfmMode tx, 253cabdff1aSopenharmony_ci enum TxfmType txtp, int sz, int sub, int bit_depth) 254cabdff1aSopenharmony_ci{ 255cabdff1aSopenharmony_ci // copy the topleft coefficients such that the return value (being the 256cabdff1aSopenharmony_ci // coefficient scantable index for the eob token) guarantees that only 257cabdff1aSopenharmony_ci // the topleft $sub out of $sz (where $sz >= $sub) coefficients in both 258cabdff1aSopenharmony_ci // dimensions are non-zero. This leads to braching to specific optimized 259cabdff1aSopenharmony_ci // simd versions (e.g. dc-only) so that we get full asm coverage in this 260cabdff1aSopenharmony_ci // test 261cabdff1aSopenharmony_ci 262cabdff1aSopenharmony_ci int n; 263cabdff1aSopenharmony_ci const int16_t *scan = ff_vp9_scans[tx][txtp]; 264cabdff1aSopenharmony_ci int eob; 265cabdff1aSopenharmony_ci 266cabdff1aSopenharmony_ci for (n = 0; n < sz * sz; n++) { 267cabdff1aSopenharmony_ci int rc = scan[n], rcx = rc % sz, rcy = rc / sz; 268cabdff1aSopenharmony_ci 269cabdff1aSopenharmony_ci // find eob for this sub-idct 270cabdff1aSopenharmony_ci if (rcx >= sub || rcy >= sub) 271cabdff1aSopenharmony_ci break; 272cabdff1aSopenharmony_ci 273cabdff1aSopenharmony_ci // copy coef 274cabdff1aSopenharmony_ci if (bit_depth == 8) { 275cabdff1aSopenharmony_ci out[rc] = in[rc]; 276cabdff1aSopenharmony_ci } else { 277cabdff1aSopenharmony_ci AV_COPY32(&out[rc * 2], &in[rc * 2]); 278cabdff1aSopenharmony_ci } 279cabdff1aSopenharmony_ci } 280cabdff1aSopenharmony_ci 281cabdff1aSopenharmony_ci eob = n; 282cabdff1aSopenharmony_ci 283cabdff1aSopenharmony_ci for (; n < sz * sz; n++) { 284cabdff1aSopenharmony_ci int rc = scan[n]; 285cabdff1aSopenharmony_ci 286cabdff1aSopenharmony_ci // zero 287cabdff1aSopenharmony_ci if (bit_depth == 8) { 288cabdff1aSopenharmony_ci out[rc] = 0; 289cabdff1aSopenharmony_ci } else { 290cabdff1aSopenharmony_ci AV_ZERO32(&out[rc * 2]); 291cabdff1aSopenharmony_ci } 292cabdff1aSopenharmony_ci } 293cabdff1aSopenharmony_ci 294cabdff1aSopenharmony_ci return eob; 295cabdff1aSopenharmony_ci} 296cabdff1aSopenharmony_ci 297cabdff1aSopenharmony_cistatic int is_zero(const int16_t *c, int sz) 298cabdff1aSopenharmony_ci{ 299cabdff1aSopenharmony_ci int n; 300cabdff1aSopenharmony_ci 301cabdff1aSopenharmony_ci for (n = 0; n < sz / sizeof(int16_t); n += 2) 302cabdff1aSopenharmony_ci if (AV_RN32A(&c[n])) 303cabdff1aSopenharmony_ci return 0; 304cabdff1aSopenharmony_ci 305cabdff1aSopenharmony_ci return 1; 306cabdff1aSopenharmony_ci} 307cabdff1aSopenharmony_ci 308cabdff1aSopenharmony_ci#define SIZEOF_COEF (2 * ((bit_depth + 7) / 8)) 309cabdff1aSopenharmony_ci 310cabdff1aSopenharmony_cistatic void check_itxfm(void) 311cabdff1aSopenharmony_ci{ 312cabdff1aSopenharmony_ci LOCAL_ALIGNED_32(uint8_t, src, [32 * 32 * 2]); 313cabdff1aSopenharmony_ci LOCAL_ALIGNED_32(uint8_t, dst, [32 * 32 * 2]); 314cabdff1aSopenharmony_ci LOCAL_ALIGNED_32(uint8_t, dst0, [32 * 32 * 2]); 315cabdff1aSopenharmony_ci LOCAL_ALIGNED_32(uint8_t, dst1, [32 * 32 * 2]); 316cabdff1aSopenharmony_ci LOCAL_ALIGNED_32(int16_t, coef, [32 * 32 * 2]); 317cabdff1aSopenharmony_ci LOCAL_ALIGNED_32(int16_t, subcoef0, [32 * 32 * 2]); 318cabdff1aSopenharmony_ci LOCAL_ALIGNED_32(int16_t, subcoef1, [32 * 32 * 2]); 319cabdff1aSopenharmony_ci declare_func_emms(AV_CPU_FLAG_MMX | AV_CPU_FLAG_MMXEXT, void, uint8_t *dst, ptrdiff_t stride, int16_t *block, int eob); 320cabdff1aSopenharmony_ci VP9DSPContext dsp; 321cabdff1aSopenharmony_ci int y, x, tx, txtp, bit_depth, sub; 322cabdff1aSopenharmony_ci static const char *const txtp_types[N_TXFM_TYPES] = { 323cabdff1aSopenharmony_ci [DCT_DCT] = "dct_dct", [DCT_ADST] = "adst_dct", 324cabdff1aSopenharmony_ci [ADST_DCT] = "dct_adst", [ADST_ADST] = "adst_adst" 325cabdff1aSopenharmony_ci }; 326cabdff1aSopenharmony_ci 327cabdff1aSopenharmony_ci for (bit_depth = 8; bit_depth <= 12; bit_depth += 2) { 328cabdff1aSopenharmony_ci ff_vp9dsp_init(&dsp, bit_depth, 0); 329cabdff1aSopenharmony_ci 330cabdff1aSopenharmony_ci for (tx = TX_4X4; tx <= N_TXFM_SIZES /* 4 = lossless */; tx++) { 331cabdff1aSopenharmony_ci int sz = 4 << (tx & 3); 332cabdff1aSopenharmony_ci int n_txtps = tx < TX_32X32 ? N_TXFM_TYPES : 1; 333cabdff1aSopenharmony_ci 334cabdff1aSopenharmony_ci for (txtp = 0; txtp < n_txtps; txtp++) { 335cabdff1aSopenharmony_ci // skip testing sub-IDCTs for WHT or ADST since they don't 336cabdff1aSopenharmony_ci // implement it in any of the SIMD functions. If they do, 337cabdff1aSopenharmony_ci // consider changing this to ensure we have complete test 338cabdff1aSopenharmony_ci // coverage. Test sub=1 for dc-only, then 2, 4, 8, 12, etc, 339cabdff1aSopenharmony_ci // since the arm version can distinguish them at that level. 340cabdff1aSopenharmony_ci for (sub = (txtp == 0 && tx < 4) ? 1 : sz; sub <= sz; 341cabdff1aSopenharmony_ci sub < 4 ? (sub <<= 1) : (sub += 4)) { 342cabdff1aSopenharmony_ci if (check_func(dsp.itxfm_add[tx][txtp], 343cabdff1aSopenharmony_ci "vp9_inv_%s_%dx%d_sub%d_add_%d", 344cabdff1aSopenharmony_ci tx == 4 ? "wht_wht" : txtp_types[txtp], 345cabdff1aSopenharmony_ci sz, sz, sub, bit_depth)) { 346cabdff1aSopenharmony_ci int eob; 347cabdff1aSopenharmony_ci 348cabdff1aSopenharmony_ci randomize_buffers(); 349cabdff1aSopenharmony_ci ftx(coef, tx, txtp, sz, bit_depth); 350cabdff1aSopenharmony_ci 351cabdff1aSopenharmony_ci if (sub < sz) { 352cabdff1aSopenharmony_ci eob = copy_subcoefs(subcoef0, coef, tx, txtp, 353cabdff1aSopenharmony_ci sz, sub, bit_depth); 354cabdff1aSopenharmony_ci } else { 355cabdff1aSopenharmony_ci eob = sz * sz; 356cabdff1aSopenharmony_ci memcpy(subcoef0, coef, sz * sz * SIZEOF_COEF); 357cabdff1aSopenharmony_ci } 358cabdff1aSopenharmony_ci 359cabdff1aSopenharmony_ci memcpy(dst0, dst, sz * sz * SIZEOF_PIXEL); 360cabdff1aSopenharmony_ci memcpy(dst1, dst, sz * sz * SIZEOF_PIXEL); 361cabdff1aSopenharmony_ci memcpy(subcoef1, subcoef0, sz * sz * SIZEOF_COEF); 362cabdff1aSopenharmony_ci call_ref(dst0, sz * SIZEOF_PIXEL, subcoef0, eob); 363cabdff1aSopenharmony_ci call_new(dst1, sz * SIZEOF_PIXEL, subcoef1, eob); 364cabdff1aSopenharmony_ci if (memcmp(dst0, dst1, sz * sz * SIZEOF_PIXEL) || 365cabdff1aSopenharmony_ci !is_zero(subcoef0, sz * sz * SIZEOF_COEF) || 366cabdff1aSopenharmony_ci !is_zero(subcoef1, sz * sz * SIZEOF_COEF)) 367cabdff1aSopenharmony_ci fail(); 368cabdff1aSopenharmony_ci 369cabdff1aSopenharmony_ci bench_new(dst, sz * SIZEOF_PIXEL, coef, eob); 370cabdff1aSopenharmony_ci } 371cabdff1aSopenharmony_ci } 372cabdff1aSopenharmony_ci } 373cabdff1aSopenharmony_ci } 374cabdff1aSopenharmony_ci } 375cabdff1aSopenharmony_ci report("itxfm"); 376cabdff1aSopenharmony_ci} 377cabdff1aSopenharmony_ci 378cabdff1aSopenharmony_ci#undef randomize_buffers 379cabdff1aSopenharmony_ci 380cabdff1aSopenharmony_ci#define setpx(a,b,c) \ 381cabdff1aSopenharmony_ci do { \ 382cabdff1aSopenharmony_ci if (SIZEOF_PIXEL == 1) { \ 383cabdff1aSopenharmony_ci buf0[(a) + (b) * jstride] = av_clip_uint8(c); \ 384cabdff1aSopenharmony_ci } else { \ 385cabdff1aSopenharmony_ci ((uint16_t *)buf0)[(a) + (b) * jstride] = av_clip_uintp2(c, bit_depth); \ 386cabdff1aSopenharmony_ci } \ 387cabdff1aSopenharmony_ci } while (0) 388cabdff1aSopenharmony_ci 389cabdff1aSopenharmony_ci// c can be an assignment and must not be put under () 390cabdff1aSopenharmony_ci#define setdx(a,b,c,d) setpx(a,b,c-(d)+(rnd()%((d)*2+1))) 391cabdff1aSopenharmony_ci#define setsx(a,b,c,d) setdx(a,b,c,(d) << (bit_depth - 8)) 392cabdff1aSopenharmony_cistatic void randomize_loopfilter_buffers(int bidx, int lineoff, int str, 393cabdff1aSopenharmony_ci int bit_depth, int dir, const int *E, 394cabdff1aSopenharmony_ci const int *F, const int *H, const int *I, 395cabdff1aSopenharmony_ci uint8_t *buf0, uint8_t *buf1) 396cabdff1aSopenharmony_ci{ 397cabdff1aSopenharmony_ci uint32_t mask = (1 << bit_depth) - 1; 398cabdff1aSopenharmony_ci int off = dir ? lineoff : lineoff * 16; 399cabdff1aSopenharmony_ci int istride = dir ? 1 : 16; 400cabdff1aSopenharmony_ci int jstride = dir ? str : 1; 401cabdff1aSopenharmony_ci int i, j; 402cabdff1aSopenharmony_ci for (i = 0; i < 2; i++) /* flat16 */ { 403cabdff1aSopenharmony_ci int idx = off + i * istride, p0, q0; 404cabdff1aSopenharmony_ci setpx(idx, 0, q0 = rnd() & mask); 405cabdff1aSopenharmony_ci setsx(idx, -1, p0 = q0, E[bidx] >> 2); 406cabdff1aSopenharmony_ci for (j = 1; j < 8; j++) { 407cabdff1aSopenharmony_ci setsx(idx, -1 - j, p0, F[bidx]); 408cabdff1aSopenharmony_ci setsx(idx, j, q0, F[bidx]); 409cabdff1aSopenharmony_ci } 410cabdff1aSopenharmony_ci } 411cabdff1aSopenharmony_ci for (i = 2; i < 4; i++) /* flat8 */ { 412cabdff1aSopenharmony_ci int idx = off + i * istride, p0, q0; 413cabdff1aSopenharmony_ci setpx(idx, 0, q0 = rnd() & mask); 414cabdff1aSopenharmony_ci setsx(idx, -1, p0 = q0, E[bidx] >> 2); 415cabdff1aSopenharmony_ci for (j = 1; j < 4; j++) { 416cabdff1aSopenharmony_ci setsx(idx, -1 - j, p0, F[bidx]); 417cabdff1aSopenharmony_ci setsx(idx, j, q0, F[bidx]); 418cabdff1aSopenharmony_ci } 419cabdff1aSopenharmony_ci for (j = 4; j < 8; j++) { 420cabdff1aSopenharmony_ci setpx(idx, -1 - j, rnd() & mask); 421cabdff1aSopenharmony_ci setpx(idx, j, rnd() & mask); 422cabdff1aSopenharmony_ci } 423cabdff1aSopenharmony_ci } 424cabdff1aSopenharmony_ci for (i = 4; i < 6; i++) /* regular */ { 425cabdff1aSopenharmony_ci int idx = off + i * istride, p2, p1, p0, q0, q1, q2; 426cabdff1aSopenharmony_ci setpx(idx, 0, q0 = rnd() & mask); 427cabdff1aSopenharmony_ci setsx(idx, 1, q1 = q0, I[bidx]); 428cabdff1aSopenharmony_ci setsx(idx, 2, q2 = q1, I[bidx]); 429cabdff1aSopenharmony_ci setsx(idx, 3, q2, I[bidx]); 430cabdff1aSopenharmony_ci setsx(idx, -1, p0 = q0, E[bidx] >> 2); 431cabdff1aSopenharmony_ci setsx(idx, -2, p1 = p0, I[bidx]); 432cabdff1aSopenharmony_ci setsx(idx, -3, p2 = p1, I[bidx]); 433cabdff1aSopenharmony_ci setsx(idx, -4, p2, I[bidx]); 434cabdff1aSopenharmony_ci for (j = 4; j < 8; j++) { 435cabdff1aSopenharmony_ci setpx(idx, -1 - j, rnd() & mask); 436cabdff1aSopenharmony_ci setpx(idx, j, rnd() & mask); 437cabdff1aSopenharmony_ci } 438cabdff1aSopenharmony_ci } 439cabdff1aSopenharmony_ci for (i = 6; i < 8; i++) /* off */ { 440cabdff1aSopenharmony_ci int idx = off + i * istride; 441cabdff1aSopenharmony_ci for (j = 0; j < 8; j++) { 442cabdff1aSopenharmony_ci setpx(idx, -1 - j, rnd() & mask); 443cabdff1aSopenharmony_ci setpx(idx, j, rnd() & mask); 444cabdff1aSopenharmony_ci } 445cabdff1aSopenharmony_ci } 446cabdff1aSopenharmony_ci} 447cabdff1aSopenharmony_ci#define randomize_buffers(bidx, lineoff, str) \ 448cabdff1aSopenharmony_ci randomize_loopfilter_buffers(bidx, lineoff, str, bit_depth, dir, \ 449cabdff1aSopenharmony_ci E, F, H, I, buf0, buf1) 450cabdff1aSopenharmony_ci 451cabdff1aSopenharmony_cistatic void check_loopfilter(void) 452cabdff1aSopenharmony_ci{ 453cabdff1aSopenharmony_ci LOCAL_ALIGNED_32(uint8_t, base0, [32 + 16 * 16 * 2]); 454cabdff1aSopenharmony_ci LOCAL_ALIGNED_32(uint8_t, base1, [32 + 16 * 16 * 2]); 455cabdff1aSopenharmony_ci VP9DSPContext dsp; 456cabdff1aSopenharmony_ci int dir, wd, wd2, bit_depth; 457cabdff1aSopenharmony_ci static const char *const dir_name[2] = { "h", "v" }; 458cabdff1aSopenharmony_ci static const int E[2] = { 20, 28 }, I[2] = { 10, 16 }; 459cabdff1aSopenharmony_ci static const int H[2] = { 7, 11 }, F[2] = { 1, 1 }; 460cabdff1aSopenharmony_ci declare_func_emms(AV_CPU_FLAG_MMX | AV_CPU_FLAG_MMXEXT, void, uint8_t *dst, ptrdiff_t stride, int E, int I, int H); 461cabdff1aSopenharmony_ci 462cabdff1aSopenharmony_ci for (bit_depth = 8; bit_depth <= 12; bit_depth += 2) { 463cabdff1aSopenharmony_ci ff_vp9dsp_init(&dsp, bit_depth, 0); 464cabdff1aSopenharmony_ci 465cabdff1aSopenharmony_ci for (dir = 0; dir < 2; dir++) { 466cabdff1aSopenharmony_ci int midoff = (dir ? 8 * 8 : 8) * SIZEOF_PIXEL; 467cabdff1aSopenharmony_ci int midoff_aligned = (dir ? 8 * 8 : 16) * SIZEOF_PIXEL; 468cabdff1aSopenharmony_ci uint8_t *buf0 = base0 + midoff_aligned; 469cabdff1aSopenharmony_ci uint8_t *buf1 = base1 + midoff_aligned; 470cabdff1aSopenharmony_ci 471cabdff1aSopenharmony_ci for (wd = 0; wd < 3; wd++) { 472cabdff1aSopenharmony_ci // 4/8/16wd_8px 473cabdff1aSopenharmony_ci if (check_func(dsp.loop_filter_8[wd][dir], 474cabdff1aSopenharmony_ci "vp9_loop_filter_%s_%d_8_%dbpp", 475cabdff1aSopenharmony_ci dir_name[dir], 4 << wd, bit_depth)) { 476cabdff1aSopenharmony_ci randomize_buffers(0, 0, 8); 477cabdff1aSopenharmony_ci memcpy(buf1 - midoff, buf0 - midoff, 478cabdff1aSopenharmony_ci 16 * 8 * SIZEOF_PIXEL); 479cabdff1aSopenharmony_ci call_ref(buf0, 16 * SIZEOF_PIXEL >> dir, E[0], I[0], H[0]); 480cabdff1aSopenharmony_ci call_new(buf1, 16 * SIZEOF_PIXEL >> dir, E[0], I[0], H[0]); 481cabdff1aSopenharmony_ci if (memcmp(buf0 - midoff, buf1 - midoff, 16 * 8 * SIZEOF_PIXEL)) 482cabdff1aSopenharmony_ci fail(); 483cabdff1aSopenharmony_ci bench_new(buf1, 16 * SIZEOF_PIXEL >> dir, E[0], I[0], H[0]); 484cabdff1aSopenharmony_ci } 485cabdff1aSopenharmony_ci } 486cabdff1aSopenharmony_ci 487cabdff1aSopenharmony_ci midoff = (dir ? 16 * 8 : 8) * SIZEOF_PIXEL; 488cabdff1aSopenharmony_ci midoff_aligned = (dir ? 16 * 8 : 16) * SIZEOF_PIXEL; 489cabdff1aSopenharmony_ci 490cabdff1aSopenharmony_ci buf0 = base0 + midoff_aligned; 491cabdff1aSopenharmony_ci buf1 = base1 + midoff_aligned; 492cabdff1aSopenharmony_ci 493cabdff1aSopenharmony_ci // 16wd_16px loopfilter 494cabdff1aSopenharmony_ci if (check_func(dsp.loop_filter_16[dir], 495cabdff1aSopenharmony_ci "vp9_loop_filter_%s_16_16_%dbpp", 496cabdff1aSopenharmony_ci dir_name[dir], bit_depth)) { 497cabdff1aSopenharmony_ci randomize_buffers(0, 0, 16); 498cabdff1aSopenharmony_ci randomize_buffers(0, 8, 16); 499cabdff1aSopenharmony_ci memcpy(buf1 - midoff, buf0 - midoff, 16 * 16 * SIZEOF_PIXEL); 500cabdff1aSopenharmony_ci call_ref(buf0, 16 * SIZEOF_PIXEL, E[0], I[0], H[0]); 501cabdff1aSopenharmony_ci call_new(buf1, 16 * SIZEOF_PIXEL, E[0], I[0], H[0]); 502cabdff1aSopenharmony_ci if (memcmp(buf0 - midoff, buf1 - midoff, 16 * 16 * SIZEOF_PIXEL)) 503cabdff1aSopenharmony_ci fail(); 504cabdff1aSopenharmony_ci bench_new(buf1, 16 * SIZEOF_PIXEL, E[0], I[0], H[0]); 505cabdff1aSopenharmony_ci } 506cabdff1aSopenharmony_ci 507cabdff1aSopenharmony_ci for (wd = 0; wd < 2; wd++) { 508cabdff1aSopenharmony_ci for (wd2 = 0; wd2 < 2; wd2++) { 509cabdff1aSopenharmony_ci // mix2 loopfilter 510cabdff1aSopenharmony_ci if (check_func(dsp.loop_filter_mix2[wd][wd2][dir], 511cabdff1aSopenharmony_ci "vp9_loop_filter_mix2_%s_%d%d_16_%dbpp", 512cabdff1aSopenharmony_ci dir_name[dir], 4 << wd, 4 << wd2, bit_depth)) { 513cabdff1aSopenharmony_ci randomize_buffers(0, 0, 16); 514cabdff1aSopenharmony_ci randomize_buffers(1, 8, 16); 515cabdff1aSopenharmony_ci memcpy(buf1 - midoff, buf0 - midoff, 16 * 16 * SIZEOF_PIXEL); 516cabdff1aSopenharmony_ci#define M(a) (((a)[1] << 8) | (a)[0]) 517cabdff1aSopenharmony_ci call_ref(buf0, 16 * SIZEOF_PIXEL, M(E), M(I), M(H)); 518cabdff1aSopenharmony_ci call_new(buf1, 16 * SIZEOF_PIXEL, M(E), M(I), M(H)); 519cabdff1aSopenharmony_ci if (memcmp(buf0 - midoff, buf1 - midoff, 16 * 16 * SIZEOF_PIXEL)) 520cabdff1aSopenharmony_ci fail(); 521cabdff1aSopenharmony_ci bench_new(buf1, 16 * SIZEOF_PIXEL, M(E), M(I), M(H)); 522cabdff1aSopenharmony_ci#undef M 523cabdff1aSopenharmony_ci } 524cabdff1aSopenharmony_ci } 525cabdff1aSopenharmony_ci } 526cabdff1aSopenharmony_ci } 527cabdff1aSopenharmony_ci } 528cabdff1aSopenharmony_ci report("loopfilter"); 529cabdff1aSopenharmony_ci} 530cabdff1aSopenharmony_ci 531cabdff1aSopenharmony_ci#undef setsx 532cabdff1aSopenharmony_ci#undef setpx 533cabdff1aSopenharmony_ci#undef setdx 534cabdff1aSopenharmony_ci#undef randomize_buffers 535cabdff1aSopenharmony_ci 536cabdff1aSopenharmony_ci#define DST_BUF_SIZE (size * size * SIZEOF_PIXEL) 537cabdff1aSopenharmony_ci#define SRC_BUF_STRIDE 72 538cabdff1aSopenharmony_ci#define SRC_BUF_SIZE ((size + 7) * SRC_BUF_STRIDE * SIZEOF_PIXEL) 539cabdff1aSopenharmony_ci#define src (buf + 3 * SIZEOF_PIXEL * (SRC_BUF_STRIDE + 1)) 540cabdff1aSopenharmony_ci 541cabdff1aSopenharmony_ci#define randomize_buffers() \ 542cabdff1aSopenharmony_ci do { \ 543cabdff1aSopenharmony_ci uint32_t mask = pixel_mask[(bit_depth - 8) >> 1]; \ 544cabdff1aSopenharmony_ci int k; \ 545cabdff1aSopenharmony_ci for (k = 0; k < SRC_BUF_SIZE; k += 4) { \ 546cabdff1aSopenharmony_ci uint32_t r = rnd() & mask; \ 547cabdff1aSopenharmony_ci AV_WN32A(buf + k, r); \ 548cabdff1aSopenharmony_ci } \ 549cabdff1aSopenharmony_ci if (op == 1) { \ 550cabdff1aSopenharmony_ci for (k = 0; k < DST_BUF_SIZE; k += 4) { \ 551cabdff1aSopenharmony_ci uint32_t r = rnd() & mask; \ 552cabdff1aSopenharmony_ci AV_WN32A(dst0 + k, r); \ 553cabdff1aSopenharmony_ci AV_WN32A(dst1 + k, r); \ 554cabdff1aSopenharmony_ci } \ 555cabdff1aSopenharmony_ci } \ 556cabdff1aSopenharmony_ci } while (0) 557cabdff1aSopenharmony_ci 558cabdff1aSopenharmony_cistatic void check_mc(void) 559cabdff1aSopenharmony_ci{ 560cabdff1aSopenharmony_ci LOCAL_ALIGNED_32(uint8_t, buf, [72 * 72 * 2]); 561cabdff1aSopenharmony_ci LOCAL_ALIGNED_32(uint8_t, dst0, [64 * 64 * 2]); 562cabdff1aSopenharmony_ci LOCAL_ALIGNED_32(uint8_t, dst1, [64 * 64 * 2]); 563cabdff1aSopenharmony_ci VP9DSPContext dsp; 564cabdff1aSopenharmony_ci int op, hsize, bit_depth, filter, dx, dy; 565cabdff1aSopenharmony_ci declare_func_emms(AV_CPU_FLAG_MMX | AV_CPU_FLAG_MMXEXT, void, uint8_t *dst, ptrdiff_t dst_stride, 566cabdff1aSopenharmony_ci const uint8_t *ref, ptrdiff_t ref_stride, 567cabdff1aSopenharmony_ci int h, int mx, int my); 568cabdff1aSopenharmony_ci static const char *const filter_names[4] = { 569cabdff1aSopenharmony_ci "8tap_smooth", "8tap_regular", "8tap_sharp", "bilin" 570cabdff1aSopenharmony_ci }; 571cabdff1aSopenharmony_ci static const char *const subpel_names[2][2] = { { "", "h" }, { "v", "hv" } }; 572cabdff1aSopenharmony_ci static const char *const op_names[2] = { "put", "avg" }; 573cabdff1aSopenharmony_ci char str[256]; 574cabdff1aSopenharmony_ci 575cabdff1aSopenharmony_ci for (op = 0; op < 2; op++) { 576cabdff1aSopenharmony_ci for (bit_depth = 8; bit_depth <= 12; bit_depth += 2) { 577cabdff1aSopenharmony_ci ff_vp9dsp_init(&dsp, bit_depth, 0); 578cabdff1aSopenharmony_ci for (hsize = 0; hsize < 5; hsize++) { 579cabdff1aSopenharmony_ci int size = 64 >> hsize; 580cabdff1aSopenharmony_ci 581cabdff1aSopenharmony_ci for (filter = 0; filter < 4; filter++) { 582cabdff1aSopenharmony_ci for (dx = 0; dx < 2; dx++) { 583cabdff1aSopenharmony_ci for (dy = 0; dy < 2; dy++) { 584cabdff1aSopenharmony_ci if (dx || dy) { 585cabdff1aSopenharmony_ci snprintf(str, sizeof(str), 586cabdff1aSopenharmony_ci "%s_%s_%d%s", op_names[op], 587cabdff1aSopenharmony_ci filter_names[filter], size, 588cabdff1aSopenharmony_ci subpel_names[dy][dx]); 589cabdff1aSopenharmony_ci } else { 590cabdff1aSopenharmony_ci snprintf(str, sizeof(str), 591cabdff1aSopenharmony_ci "%s%d", op_names[op], size); 592cabdff1aSopenharmony_ci } 593cabdff1aSopenharmony_ci if (check_func(dsp.mc[hsize][filter][op][dx][dy], 594cabdff1aSopenharmony_ci "vp9_%s_%dbpp", str, bit_depth)) { 595cabdff1aSopenharmony_ci int mx = dx ? 1 + (rnd() % 14) : 0; 596cabdff1aSopenharmony_ci int my = dy ? 1 + (rnd() % 14) : 0; 597cabdff1aSopenharmony_ci randomize_buffers(); 598cabdff1aSopenharmony_ci call_ref(dst0, size * SIZEOF_PIXEL, 599cabdff1aSopenharmony_ci src, SRC_BUF_STRIDE * SIZEOF_PIXEL, 600cabdff1aSopenharmony_ci size, mx, my); 601cabdff1aSopenharmony_ci call_new(dst1, size * SIZEOF_PIXEL, 602cabdff1aSopenharmony_ci src, SRC_BUF_STRIDE * SIZEOF_PIXEL, 603cabdff1aSopenharmony_ci size, mx, my); 604cabdff1aSopenharmony_ci if (memcmp(dst0, dst1, DST_BUF_SIZE)) 605cabdff1aSopenharmony_ci fail(); 606cabdff1aSopenharmony_ci 607cabdff1aSopenharmony_ci // simd implementations for each filter of subpel 608cabdff1aSopenharmony_ci // functions are identical 609cabdff1aSopenharmony_ci if (filter >= 1 && filter <= 2) continue; 610cabdff1aSopenharmony_ci // 10/12 bpp for bilin are identical 611cabdff1aSopenharmony_ci if (bit_depth == 12 && filter == 3) continue; 612cabdff1aSopenharmony_ci 613cabdff1aSopenharmony_ci bench_new(dst1, size * SIZEOF_PIXEL, 614cabdff1aSopenharmony_ci src, SRC_BUF_STRIDE * SIZEOF_PIXEL, 615cabdff1aSopenharmony_ci size, mx, my); 616cabdff1aSopenharmony_ci } 617cabdff1aSopenharmony_ci } 618cabdff1aSopenharmony_ci } 619cabdff1aSopenharmony_ci } 620cabdff1aSopenharmony_ci } 621cabdff1aSopenharmony_ci } 622cabdff1aSopenharmony_ci } 623cabdff1aSopenharmony_ci report("mc"); 624cabdff1aSopenharmony_ci} 625cabdff1aSopenharmony_ci 626cabdff1aSopenharmony_civoid checkasm_check_vp9dsp(void) 627cabdff1aSopenharmony_ci{ 628cabdff1aSopenharmony_ci check_ipred(); 629cabdff1aSopenharmony_ci check_itxfm(); 630cabdff1aSopenharmony_ci check_loopfilter(); 631cabdff1aSopenharmony_ci check_mc(); 632cabdff1aSopenharmony_ci} 633