src/third_party/libdav1d/tests/checkasm/msac.c - cobalt - Git at Google

 /*
  * Copyright © 2019, VideoLAN and dav1d authors
  * Copyright © 2019, Two Orioles, LLC
  * All rights reserved.
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions are met:
  *
  * 1. Redistributions of source code must retain the above copyright notice, this
  *    list of conditions and the following disclaimer.
  *
  * 2. Redistributions in binary form must reproduce the above copyright notice,
  *    this list of conditions and the following disclaimer in the documentation
  *    and/or other materials provided with the distribution.
  *
  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
  * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
  * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR
  * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
  * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
  * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
  * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
  * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
  */

 #include "tests/checkasm/checkasm.h"

 #include "src/cpu.h"
 #include "src/msac.h"

 #include <stdio.h>
 #include <string.h>

 #define BUF_SIZE 8192

 /* The normal code doesn't use function pointers */
 typedef unsigned (*decode_symbol_adapt_fn)(MsacContext *s, uint16_t *cdf,
                                            size_t n_symbols);
 typedef unsigned (*decode_adapt_fn)(MsacContext *s, uint16_t *cdf);
 typedef unsigned (*decode_bool_equi_fn)(MsacContext *s);
 typedef unsigned (*decode_bool_fn)(MsacContext *s, unsigned f);

 typedef struct {
     decode_symbol_adapt_fn symbol_adapt4;
     decode_symbol_adapt_fn symbol_adapt8;
     decode_symbol_adapt_fn symbol_adapt16;
     decode_adapt_fn        bool_adapt;
     decode_bool_equi_fn    bool_equi;
     decode_bool_fn         bool;
     decode_adapt_fn        hi_tok;
 } MsacDSPContext;

 static void randomize_cdf(uint16_t *const cdf, const int n) {
     int i;
     for (i = 15; i > n; i--)
         cdf[i] = rnd(); // padding
     cdf[i] = 0;         // count
     do {
         cdf[i - 1] = cdf[i] + rnd() % (32768 - cdf[i] - i) + 1;
     } while (--i > 0);
 }

 /* memcmp() on structs can have weird behavior due to padding etc. */
 static int msac_cmp(const MsacContext *const a, const MsacContext *const b) {
     return a->buf_pos != b->buf_pos || a->buf_end != b->buf_end ||
            a->dif != b->dif || a->rng != b->rng || a->cnt != b->cnt ||
            a->allow_update_cdf != b->allow_update_cdf;
 }

 static void msac_dump(unsigned c_res, unsigned a_res,
                       const MsacContext *const a, const MsacContext *const b,
                       const uint16_t *const cdf_a, const uint16_t *const cdf_b,
                       const int num_cdf)
 {
     if (c_res != a_res)
         fprintf(stderr, "c_res %u a_res %u\n", c_res, a_res);
     if (a->buf_pos != b->buf_pos)
         fprintf(stderr, "buf_pos %p vs %p\n", a->buf_pos, b->buf_pos);
     if (a->buf_end != b->buf_end)
         fprintf(stderr, "buf_end %p vs %p\n", a->buf_end, b->buf_end);
     if (a->dif != b->dif)
         fprintf(stderr, "dif %zx vs %zx\n", a->dif, b->dif);
     if (a->rng != b->rng)
         fprintf(stderr, "rng %u vs %u\n", a->rng, b->rng);
     if (a->cnt != b->cnt)
         fprintf(stderr, "cnt %d vs %d\n", a->cnt, b->cnt);
     if (a->allow_update_cdf)
         fprintf(stderr, "allow_update_cdf %d vs %d\n",
                 a->allow_update_cdf, b->allow_update_cdf);
     if (num_cdf && memcmp(cdf_a, cdf_b, sizeof(*cdf_a) * (num_cdf + 1))) {
         fprintf(stderr, "cdf:\n");
         for (int i = 0; i <= num_cdf; i++)
             fprintf(stderr, " %5u", cdf_a[i]);
         fprintf(stderr, "\n");
         for (int i = 0; i <= num_cdf; i++)
             fprintf(stderr, " %5u", cdf_b[i]);
         fprintf(stderr, "\n");
         for (int i = 0; i <= num_cdf; i++)
             fprintf(stderr, "     %c", cdf_a[i] != cdf_b[i] ? 'x' : '.');
         fprintf(stderr, "\n");
     }
 }

 #define CHECK_SYMBOL_ADAPT(n, n_min, n_max) do {                           \
     if (check_func(c->symbol_adapt##n, "msac_decode_symbol_adapt%d", n)) { \
         for (int cdf_update = 0; cdf_update <= 1; cdf_update++) {          \
             for (int ns = n_min; ns <= n_max; ns++) {                      \
                 dav1d_msac_init(&s_c, buf, BUF_SIZE, !cdf_update);         \
                 s_a = s_c;                                                 \
                 randomize_cdf(cdf[0], ns);                                 \
                 memcpy(cdf[1], cdf[0], sizeof(*cdf));                      \
                 for (int i = 0; i < 64; i++) {                             \
                     unsigned c_res = call_ref(&s_c, cdf[0], ns);           \
                     unsigned a_res = call_new(&s_a, cdf[1], ns);           \
                     if (c_res != a_res || msac_cmp(&s_c, &s_a) ||          \
                         memcmp(cdf[0], cdf[1], sizeof(**cdf) * (ns + 1)))  \
                     {                                                      \
                         if (fail())                                        \
                             msac_dump(c_res, a_res, &s_c, &s_a,            \
                                       cdf[0], cdf[1], ns);                 \
                     }                                                      \
                 }                                                          \
                 if (cdf_update && ns == n - 1)                             \
                     bench_new(&s_a, cdf[1], ns);                           \
             }                                                              \
         }                                                                  \
     }                                                                      \
 } while (0)

 static void check_decode_symbol(MsacDSPContext *const c, uint8_t *const buf) {
     ALIGN_STK_32(uint16_t, cdf, 2, [16]);
     MsacContext s_c, s_a;

     declare_func(unsigned, MsacContext *s, uint16_t *cdf, size_t n_symbols);
     CHECK_SYMBOL_ADAPT( 4, 1,  4);
     CHECK_SYMBOL_ADAPT( 8, 1,  7);
     CHECK_SYMBOL_ADAPT(16, 3, 15);
     report("decode_symbol");
 }

 static void check_decode_bool(MsacDSPContext *const c, uint8_t *const buf) {
     MsacContext s_c, s_a;

     if (check_func(c->bool_adapt, "msac_decode_bool_adapt")) {
         declare_func(unsigned, MsacContext *s, uint16_t *cdf);
         uint16_t cdf[2][2];
         for (int cdf_update = 0; cdf_update <= 1; cdf_update++) {
             dav1d_msac_init(&s_c, buf, BUF_SIZE, !cdf_update);
             s_a = s_c;
             cdf[0][0] = cdf[1][0] = rnd() % 32767 + 1;
             cdf[0][1] = cdf[1][1] = 0;
             for (int i = 0; i < 64; i++) {
                 unsigned c_res = call_ref(&s_c, cdf[0]);
                 unsigned a_res = call_new(&s_a, cdf[1]);
                 if (c_res != a_res || msac_cmp(&s_c, &s_a) ||
                     memcmp(cdf[0], cdf[1], sizeof(*cdf)))
                 {
                     if (fail())
                         msac_dump(c_res, a_res, &s_c, &s_a, cdf[0], cdf[1], 1);
                 }
             }
             if (cdf_update)
                 bench_new(&s_a, cdf[1]);
         }
     }

     if (check_func(c->bool_equi, "msac_decode_bool_equi")) {
         declare_func(unsigned, MsacContext *s);
         dav1d_msac_init(&s_c, buf, BUF_SIZE, 1);
         s_a = s_c;
         for (int i = 0; i < 64; i++) {
             unsigned c_res = call_ref(&s_c);
             unsigned a_res = call_new(&s_a);
             if (c_res != a_res || msac_cmp(&s_c, &s_a)) {
                 if (fail())
                     msac_dump(c_res, a_res, &s_c, &s_a, NULL, NULL, 0);
             }
         }
         bench_new(&s_a);
     }

     if (check_func(c->bool, "msac_decode_bool")) {
         declare_func(unsigned, MsacContext *s, unsigned f);
         dav1d_msac_init(&s_c, buf, BUF_SIZE, 1);
         s_a = s_c;
         for (int i = 0; i < 64; i++) {
             const unsigned f = rnd() & 0x7fff;
             unsigned c_res = call_ref(&s_c, f);
             unsigned a_res = call_new(&s_a, f);
             if (c_res != a_res || msac_cmp(&s_c, &s_a)) {
                 if (fail())
                     msac_dump(c_res, a_res, &s_c, &s_a, NULL, NULL, 0);
             }
         }
         bench_new(&s_a, 16384);
     }

     report("decode_bool");
 }

 static void check_decode_hi_tok(MsacDSPContext *const c, uint8_t *const buf) {
     ALIGN_STK_16(uint16_t, cdf, 2, [16]);
     MsacContext s_c, s_a;

     if (check_func(c->hi_tok, "msac_decode_hi_tok")) {
         declare_func(unsigned, MsacContext *s, uint16_t *cdf);
         for (int cdf_update = 0; cdf_update <= 1; cdf_update++) {
             dav1d_msac_init(&s_c, buf, BUF_SIZE, !cdf_update);
             s_a = s_c;
             randomize_cdf(cdf[0], 3);
             memcpy(cdf[1], cdf[0], sizeof(*cdf));
             for (int i = 0; i < 64; i++) {
                 unsigned c_res = call_ref(&s_c, cdf[0]);
                 unsigned a_res = call_new(&s_a, cdf[1]);
                 if (c_res != a_res || msac_cmp(&s_c, &s_a) ||
                     memcmp(cdf[0], cdf[1], sizeof(*cdf)))
                 {
                     if (fail())
                         msac_dump(c_res, a_res, &s_c, &s_a, cdf[0], cdf[1], 3);
                     break;
                 }
             }
             if (cdf_update)
                 bench_new(&s_a, cdf[1]);
         }
     }
     report("decode_hi_tok");
 }

 void checkasm_check_msac(void) {
     MsacDSPContext c;
     c.symbol_adapt4  = dav1d_msac_decode_symbol_adapt_c;
     c.symbol_adapt8  = dav1d_msac_decode_symbol_adapt_c;
     c.symbol_adapt16 = dav1d_msac_decode_symbol_adapt_c;
     c.bool_adapt     = dav1d_msac_decode_bool_adapt_c;
     c.bool_equi      = dav1d_msac_decode_bool_equi_c;
     c.bool           = dav1d_msac_decode_bool_c;
     c.hi_tok         = dav1d_msac_decode_hi_tok_c;

 #if ARCH_AARCH64 && HAVE_ASM
     if (dav1d_get_cpu_flags() & DAV1D_ARM_CPU_FLAG_NEON) {
         c.symbol_adapt4  = dav1d_msac_decode_symbol_adapt4_neon;
         c.symbol_adapt8  = dav1d_msac_decode_symbol_adapt8_neon;
         c.symbol_adapt16 = dav1d_msac_decode_symbol_adapt16_neon;
         c.bool_adapt     = dav1d_msac_decode_bool_adapt_neon;
         c.bool_equi      = dav1d_msac_decode_bool_equi_neon;
         c.bool           = dav1d_msac_decode_bool_neon;
     }
 #elif ARCH_X86 && HAVE_ASM
     if (dav1d_get_cpu_flags() & DAV1D_X86_CPU_FLAG_SSE2) {
         c.symbol_adapt4  = dav1d_msac_decode_symbol_adapt4_sse2;
         c.symbol_adapt8  = dav1d_msac_decode_symbol_adapt8_sse2;
         c.symbol_adapt16 = dav1d_msac_decode_symbol_adapt16_sse2;
         c.bool_adapt     = dav1d_msac_decode_bool_adapt_sse2;
         c.bool_equi      = dav1d_msac_decode_bool_equi_sse2;
         c.bool           = dav1d_msac_decode_bool_sse2;
         c.hi_tok         = dav1d_msac_decode_hi_tok_sse2;
     }
 #endif

     uint8_t buf[BUF_SIZE];
     for (int i = 0; i < BUF_SIZE; i++)
         buf[i] = rnd();

     check_decode_symbol(&c, buf);
     check_decode_bool(&c, buf);
     check_decode_hi_tok(&c, buf);
 }
	/*
	* Copyright © 2019, VideoLAN and dav1d authors
	* Copyright © 2019, Two Orioles, LLC
	* All rights reserved.
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions are met:
	*
	* 1. Redistributions of source code must retain the above copyright notice, this
	* list of conditions and the following disclaimer.
	*
	* 2. Redistributions in binary form must reproduce the above copyright notice,
	* this list of conditions and the following disclaimer in the documentation
	* and/or other materials provided with the distribution.
	*
	* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
	* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
	* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
	* DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR
	* ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
	* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
	* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
	* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
	* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
	*/

	#include "tests/checkasm/checkasm.h"

	#include "src/cpu.h"
	#include "src/msac.h"

	#include <stdio.h>
	#include <string.h>

	#define BUF_SIZE 8192

	/* The normal code doesn't use function pointers */
	typedef unsigned (decode_symbol_adapt_fn)(MsacContext s, uint16_t *cdf,
	size_t n_symbols);
	typedef unsigned (decode_adapt_fn)(MsacContext s, uint16_t *cdf);
	typedef unsigned (decode_bool_equi_fn)(MsacContext s);
	typedef unsigned (decode_bool_fn)(MsacContext s, unsigned f);

	typedef struct {
	decode_symbol_adapt_fn symbol_adapt4;
	decode_symbol_adapt_fn symbol_adapt8;
	decode_symbol_adapt_fn symbol_adapt16;
	decode_adapt_fn bool_adapt;
	decode_bool_equi_fn bool_equi;
	decode_bool_fn bool;
	decode_adapt_fn hi_tok;
	} MsacDSPContext;

	static void randomize_cdf(uint16_t *const cdf, const int n) {
	int i;
	for (i = 15; i > n; i--)
	cdf[i] = rnd(); // padding
	cdf[i] = 0; // count
	do {
	cdf[i - 1] = cdf[i] + rnd() % (32768 - cdf[i] - i) + 1;
	} while (--i > 0);
	}

	/* memcmp() on structs can have weird behavior due to padding etc. */
	static int msac_cmp(const MsacContext const a, const MsacContext const b) {
	return a->buf_pos != b->buf_pos \|\| a->buf_end != b->buf_end \|\|
	a->dif != b->dif \|\| a->rng != b->rng \|\| a->cnt != b->cnt \|\|
	a->allow_update_cdf != b->allow_update_cdf;
	}

	static void msac_dump(unsigned c_res, unsigned a_res,
	const MsacContext const a, const MsacContext const b,
	const uint16_t const cdf_a, const uint16_t const cdf_b,
	const int num_cdf)
	{
	if (c_res != a_res)
	fprintf(stderr, "c_res %u a_res %u\n", c_res, a_res);
	if (a->buf_pos != b->buf_pos)
	fprintf(stderr, "buf_pos %p vs %p\n", a->buf_pos, b->buf_pos);
	if (a->buf_end != b->buf_end)
	fprintf(stderr, "buf_end %p vs %p\n", a->buf_end, b->buf_end);
	if (a->dif != b->dif)
	fprintf(stderr, "dif %zx vs %zx\n", a->dif, b->dif);
	if (a->rng != b->rng)
	fprintf(stderr, "rng %u vs %u\n", a->rng, b->rng);
	if (a->cnt != b->cnt)
	fprintf(stderr, "cnt %d vs %d\n", a->cnt, b->cnt);
	if (a->allow_update_cdf)
	fprintf(stderr, "allow_update_cdf %d vs %d\n",
	a->allow_update_cdf, b->allow_update_cdf);
	if (num_cdf && memcmp(cdf_a, cdf_b, sizeof(cdf_a) (num_cdf + 1))) {
	fprintf(stderr, "cdf:\n");
	for (int i = 0; i <= num_cdf; i++)
	fprintf(stderr, " %5u", cdf_a[i]);
	fprintf(stderr, "\n");
	for (int i = 0; i <= num_cdf; i++)
	fprintf(stderr, " %5u", cdf_b[i]);
	fprintf(stderr, "\n");
	for (int i = 0; i <= num_cdf; i++)
	fprintf(stderr, " %c", cdf_a[i] != cdf_b[i] ? 'x' : '.');
	fprintf(stderr, "\n");
	}
	}

	#define CHECK_SYMBOL_ADAPT(n, n_min, n_max) do { \
	if (check_func(c->symbol_adapt##n, "msac_decode_symbol_adapt%d", n)) { \
	for (int cdf_update = 0; cdf_update <= 1; cdf_update++) { \
	for (int ns = n_min; ns <= n_max; ns++) { \
	dav1d_msac_init(&s_c, buf, BUF_SIZE, !cdf_update); \
	s_a = s_c; \
	randomize_cdf(cdf[0], ns); \
	memcpy(cdf[1], cdf[0], sizeof(*cdf)); \
	for (int i = 0; i < 64; i++) { \
	unsigned c_res = call_ref(&s_c, cdf[0], ns); \
	unsigned a_res = call_new(&s_a, cdf[1], ns); \
	if (c_res != a_res \|\| msac_cmp(&s_c, &s_a) \|\| \
	memcmp(cdf[0], cdf[1], sizeof(*cdf) (ns + 1))) \
	{ \
	if (fail()) \
	msac_dump(c_res, a_res, &s_c, &s_a, \
	cdf[0], cdf[1], ns); \
	} \
	} \
	if (cdf_update && ns == n - 1) \
	bench_new(&s_a, cdf[1], ns); \
	} \
	} \
	} \
	} while (0)

	static void check_decode_symbol(MsacDSPContext const c, uint8_t const buf) {
	ALIGN_STK_32(uint16_t, cdf, 2, [16]);
	MsacContext s_c, s_a;

	declare_func(unsigned, MsacContext s, uint16_t cdf, size_t n_symbols);
	CHECK_SYMBOL_ADAPT( 4, 1, 4);
	CHECK_SYMBOL_ADAPT( 8, 1, 7);
	CHECK_SYMBOL_ADAPT(16, 3, 15);
	report("decode_symbol");
	}

	static void check_decode_bool(MsacDSPContext const c, uint8_t const buf) {
	MsacContext s_c, s_a;

	if (check_func(c->bool_adapt, "msac_decode_bool_adapt")) {
	declare_func(unsigned, MsacContext s, uint16_t cdf);
	uint16_t cdf[2][2];
	for (int cdf_update = 0; cdf_update <= 1; cdf_update++) {
	dav1d_msac_init(&s_c, buf, BUF_SIZE, !cdf_update);
	s_a = s_c;
	cdf[0][0] = cdf[1][0] = rnd() % 32767 + 1;
	cdf[0][1] = cdf[1][1] = 0;
	for (int i = 0; i < 64; i++) {
	unsigned c_res = call_ref(&s_c, cdf[0]);
	unsigned a_res = call_new(&s_a, cdf[1]);
	if (c_res != a_res \|\| msac_cmp(&s_c, &s_a) \|\|
	memcmp(cdf[0], cdf[1], sizeof(*cdf)))
	{
	if (fail())
	msac_dump(c_res, a_res, &s_c, &s_a, cdf[0], cdf[1], 1);
	}
	}
	if (cdf_update)
	bench_new(&s_a, cdf[1]);
	}
	}

	if (check_func(c->bool_equi, "msac_decode_bool_equi")) {
	declare_func(unsigned, MsacContext *s);
	dav1d_msac_init(&s_c, buf, BUF_SIZE, 1);
	s_a = s_c;
	for (int i = 0; i < 64; i++) {
	unsigned c_res = call_ref(&s_c);
	unsigned a_res = call_new(&s_a);
	if (c_res != a_res \|\| msac_cmp(&s_c, &s_a)) {
	if (fail())
	msac_dump(c_res, a_res, &s_c, &s_a, NULL, NULL, 0);
	}
	}
	bench_new(&s_a);
	}

	if (check_func(c->bool, "msac_decode_bool")) {
	declare_func(unsigned, MsacContext *s, unsigned f);
	dav1d_msac_init(&s_c, buf, BUF_SIZE, 1);
	s_a = s_c;
	for (int i = 0; i < 64; i++) {
	const unsigned f = rnd() & 0x7fff;
	unsigned c_res = call_ref(&s_c, f);
	unsigned a_res = call_new(&s_a, f);
	if (c_res != a_res \|\| msac_cmp(&s_c, &s_a)) {
	if (fail())
	msac_dump(c_res, a_res, &s_c, &s_a, NULL, NULL, 0);
	}
	}
	bench_new(&s_a, 16384);
	}

	report("decode_bool");
	}

	static void check_decode_hi_tok(MsacDSPContext const c, uint8_t const buf) {
	ALIGN_STK_16(uint16_t, cdf, 2, [16]);
	MsacContext s_c, s_a;

	if (check_func(c->hi_tok, "msac_decode_hi_tok")) {
	declare_func(unsigned, MsacContext s, uint16_t cdf);
	for (int cdf_update = 0; cdf_update <= 1; cdf_update++) {
	dav1d_msac_init(&s_c, buf, BUF_SIZE, !cdf_update);
	s_a = s_c;
	randomize_cdf(cdf[0], 3);
	memcpy(cdf[1], cdf[0], sizeof(*cdf));
	for (int i = 0; i < 64; i++) {
	unsigned c_res = call_ref(&s_c, cdf[0]);
	unsigned a_res = call_new(&s_a, cdf[1]);
	if (c_res != a_res \|\| msac_cmp(&s_c, &s_a) \|\|
	memcmp(cdf[0], cdf[1], sizeof(*cdf)))
	{
	if (fail())
	msac_dump(c_res, a_res, &s_c, &s_a, cdf[0], cdf[1], 3);
	break;
	}
	}
	if (cdf_update)
	bench_new(&s_a, cdf[1]);
	}
	}
	report("decode_hi_tok");
	}

	void checkasm_check_msac(void) {
	MsacDSPContext c;
	c.symbol_adapt4 = dav1d_msac_decode_symbol_adapt_c;
	c.symbol_adapt8 = dav1d_msac_decode_symbol_adapt_c;
	c.symbol_adapt16 = dav1d_msac_decode_symbol_adapt_c;
	c.bool_adapt = dav1d_msac_decode_bool_adapt_c;
	c.bool_equi = dav1d_msac_decode_bool_equi_c;
	c.bool = dav1d_msac_decode_bool_c;
	c.hi_tok = dav1d_msac_decode_hi_tok_c;

	#if ARCH_AARCH64 && HAVE_ASM
	if (dav1d_get_cpu_flags() & DAV1D_ARM_CPU_FLAG_NEON) {
	c.symbol_adapt4 = dav1d_msac_decode_symbol_adapt4_neon;
	c.symbol_adapt8 = dav1d_msac_decode_symbol_adapt8_neon;
	c.symbol_adapt16 = dav1d_msac_decode_symbol_adapt16_neon;
	c.bool_adapt = dav1d_msac_decode_bool_adapt_neon;
	c.bool_equi = dav1d_msac_decode_bool_equi_neon;
	c.bool = dav1d_msac_decode_bool_neon;
	}
	#elif ARCH_X86 && HAVE_ASM
	if (dav1d_get_cpu_flags() & DAV1D_X86_CPU_FLAG_SSE2) {
	c.symbol_adapt4 = dav1d_msac_decode_symbol_adapt4_sse2;
	c.symbol_adapt8 = dav1d_msac_decode_symbol_adapt8_sse2;
	c.symbol_adapt16 = dav1d_msac_decode_symbol_adapt16_sse2;
	c.bool_adapt = dav1d_msac_decode_bool_adapt_sse2;
	c.bool_equi = dav1d_msac_decode_bool_equi_sse2;
	c.bool = dav1d_msac_decode_bool_sse2;
	c.hi_tok = dav1d_msac_decode_hi_tok_sse2;
	}
	#endif

	uint8_t buf[BUF_SIZE];
	for (int i = 0; i < BUF_SIZE; i++)
	buf[i] = rnd();

	check_decode_symbol(&c, buf);
	check_decode_bool(&c, buf);
	check_decode_hi_tok(&c, buf);
	}