av1/decoder/accounting.c - aom - Git at Google

 /*
  * Copyright (c) 2016, Alliance for Open Media. All rights reserved
  *
  * This source code is subject to the terms of the BSD 2 Clause License and
  * the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
  * was not distributed with this source code in the LICENSE file, you can
  * obtain it at www.aomedia.org/license/software. If the Alliance for Open
  * Media Patent License 1.0 was not distributed with this source code in the
  * PATENTS file, you can obtain it at www.aomedia.org/license/patent.
  */

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

 #include "aom/aom_integer.h"
 #include "av1/decoder/accounting.h"

 static int accounting_hash(const char *str) {
   uint32_t val;
   const unsigned char *ustr;
   val = 0;
   ustr = (const unsigned char *)str;
   /* This is about the worst hash one can design, but it should be good enough
      here. */
   while (*ustr) val += *ustr++;
   return val % AOM_ACCOUNTING_HASH_SIZE;
 }

 /* Dictionary lookup based on an open-addressing hash table. */
 int aom_accounting_dictionary_lookup(Accounting *accounting, const char *str) {
   int hash;
   size_t len;
   AccountingDictionary *dictionary;
   dictionary = &accounting->syms.dictionary;
   hash = accounting_hash(str);
   while (accounting->hash_dictionary[hash] != -1) {
     if (strcmp(dictionary->strs[accounting->hash_dictionary[hash]], str) == 0) {
       return accounting->hash_dictionary[hash];
     }
     hash++;
     if (hash == AOM_ACCOUNTING_HASH_SIZE) hash = 0;
   }
   /* No match found. */
   assert(dictionary->num_strs + 1 < MAX_SYMBOL_TYPES);
   accounting->hash_dictionary[hash] = dictionary->num_strs;
   len = strlen(str);
   dictionary->strs[dictionary->num_strs] = malloc(len + 1);
   snprintf(dictionary->strs[dictionary->num_strs], len + 1, "%s", str);
   dictionary->num_strs++;
   return dictionary->num_strs - 1;
 }

 void aom_accounting_init(Accounting *accounting) {
   int i;
   accounting->num_syms_allocated = 1000;
   accounting->syms.syms =
       malloc(sizeof(AccountingSymbol) * accounting->num_syms_allocated);
   accounting->syms.dictionary.num_strs = 0;
   assert(AOM_ACCOUNTING_HASH_SIZE > 2 * MAX_SYMBOL_TYPES);
   for (i = 0; i < AOM_ACCOUNTING_HASH_SIZE; i++)
     accounting->hash_dictionary[i] = -1;
   aom_accounting_reset(accounting);
 }

 void aom_accounting_reset(Accounting *accounting) {
   accounting->syms.num_syms = 0;
   accounting->syms.num_binary_syms = 0;
   accounting->syms.num_multi_syms = 0;
   accounting->context.x = -1;
   accounting->context.y = -1;
   accounting->last_tell_frac = 0;
 }

 void aom_accounting_clear(Accounting *accounting) {
   int i;
   AccountingDictionary *dictionary;
   free(accounting->syms.syms);
   dictionary = &accounting->syms.dictionary;
   for (i = 0; i < dictionary->num_strs; i++) {
     free(dictionary->strs[i]);
   }
 }

 void aom_accounting_set_context(Accounting *accounting, int16_t x, int16_t y) {
   accounting->context.x = x;
   accounting->context.y = y;
 }

 void aom_accounting_record(Accounting *accounting, const char *str,
                            uint32_t bits) {
   AccountingSymbol sym;
   // Reuse previous symbol if it has the same context and symbol id.
   if (accounting->syms.num_syms) {
     AccountingSymbol *last_sym;
     last_sym = &accounting->syms.syms[accounting->syms.num_syms - 1];
     if (memcmp(&last_sym->context, &accounting->context,
                sizeof(AccountingSymbolContext)) == 0) {
       uint32_t id;
       id = aom_accounting_dictionary_lookup(accounting, str);
       if (id == last_sym->id) {
         last_sym->bits += bits;
         last_sym->samples++;
         return;
       }
     }
   }
   sym.context = accounting->context;
   sym.samples = 1;
   sym.bits = bits;
   sym.id = aom_accounting_dictionary_lookup(accounting, str);
   assert(sym.id <= 255);
   if (accounting->syms.num_syms == accounting->num_syms_allocated) {
     accounting->num_syms_allocated *= 2;
     accounting->syms.syms =
         realloc(accounting->syms.syms,
                 sizeof(AccountingSymbol) * accounting->num_syms_allocated);
     assert(accounting->syms.syms != NULL);
   }
   accounting->syms.syms[accounting->syms.num_syms++] = sym;
 }

 void aom_accounting_dump(Accounting *accounting) {
   int i;
   AccountingSymbol *sym;
   printf("\n----- Number of recorded syntax elements = %d -----\n",
          accounting->syms.num_syms);
   printf("----- Total number of symbol calls = %d (%d binary) -----\n",
          accounting->syms.num_multi_syms + accounting->syms.num_binary_syms,
          accounting->syms.num_binary_syms);
   for (i = 0; i < accounting->syms.num_syms; i++) {
     sym = &accounting->syms.syms[i];
     printf("%s x: %d, y: %d bits: %f samples: %d\n",
            accounting->syms.dictionary.strs[sym->id], sym->context.x,
            sym->context.y, (float)sym->bits / 8.0, sym->samples);
   }
 }
	/*
	* Copyright (c) 2016, Alliance for Open Media. All rights reserved
	*
	* This source code is subject to the terms of the BSD 2 Clause License and
	* the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
	* was not distributed with this source code in the LICENSE file, you can
	* obtain it at www.aomedia.org/license/software. If the Alliance for Open
	* Media Patent License 1.0 was not distributed with this source code in the
	* PATENTS file, you can obtain it at www.aomedia.org/license/patent.
	*/

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

	#include "aom/aom_integer.h"
	#include "av1/decoder/accounting.h"

	static int accounting_hash(const char *str) {
	uint32_t val;
	const unsigned char *ustr;
	val = 0;
	ustr = (const unsigned char *)str;
	/* This is about the worst hash one can design, but it should be good enough
	here. */
	while (ustr) val += ustr++;
	return val % AOM_ACCOUNTING_HASH_SIZE;
	}

	/* Dictionary lookup based on an open-addressing hash table. */
	int aom_accounting_dictionary_lookup(Accounting accounting, const char str) {
	int hash;
	size_t len;
	AccountingDictionary *dictionary;
	dictionary = &accounting->syms.dictionary;
	hash = accounting_hash(str);
	while (accounting->hash_dictionary[hash] != -1) {
	if (strcmp(dictionary->strs[accounting->hash_dictionary[hash]], str) == 0) {
	return accounting->hash_dictionary[hash];
	}
	hash++;
	if (hash == AOM_ACCOUNTING_HASH_SIZE) hash = 0;
	}
	/* No match found. */
	assert(dictionary->num_strs + 1 < MAX_SYMBOL_TYPES);
	accounting->hash_dictionary[hash] = dictionary->num_strs;
	len = strlen(str);
	dictionary->strs[dictionary->num_strs] = malloc(len + 1);
	snprintf(dictionary->strs[dictionary->num_strs], len + 1, "%s", str);
	dictionary->num_strs++;
	return dictionary->num_strs - 1;
	}

	void aom_accounting_init(Accounting *accounting) {
	int i;
	accounting->num_syms_allocated = 1000;
	accounting->syms.syms =
	malloc(sizeof(AccountingSymbol) * accounting->num_syms_allocated);
	accounting->syms.dictionary.num_strs = 0;
	assert(AOM_ACCOUNTING_HASH_SIZE > 2 * MAX_SYMBOL_TYPES);
	for (i = 0; i < AOM_ACCOUNTING_HASH_SIZE; i++)
	accounting->hash_dictionary[i] = -1;
	aom_accounting_reset(accounting);
	}

	void aom_accounting_reset(Accounting *accounting) {
	accounting->syms.num_syms = 0;
	accounting->syms.num_binary_syms = 0;
	accounting->syms.num_multi_syms = 0;
	accounting->context.x = -1;
	accounting->context.y = -1;
	accounting->last_tell_frac = 0;
	}

	void aom_accounting_clear(Accounting *accounting) {
	int i;
	AccountingDictionary *dictionary;
	free(accounting->syms.syms);
	dictionary = &accounting->syms.dictionary;
	for (i = 0; i < dictionary->num_strs; i++) {
	free(dictionary->strs[i]);
	}
	}

	void aom_accounting_set_context(Accounting *accounting, int16_t x, int16_t y) {
	accounting->context.x = x;
	accounting->context.y = y;
	}

	void aom_accounting_record(Accounting accounting, const char str,
	uint32_t bits) {
	AccountingSymbol sym;
	// Reuse previous symbol if it has the same context and symbol id.
	if (accounting->syms.num_syms) {
	AccountingSymbol *last_sym;
	last_sym = &accounting->syms.syms[accounting->syms.num_syms - 1];
	if (memcmp(&last_sym->context, &accounting->context,
	sizeof(AccountingSymbolContext)) == 0) {
	uint32_t id;
	id = aom_accounting_dictionary_lookup(accounting, str);
	if (id == last_sym->id) {
	last_sym->bits += bits;
	last_sym->samples++;
	return;
	}
	}
	}
	sym.context = accounting->context;
	sym.samples = 1;
	sym.bits = bits;
	sym.id = aom_accounting_dictionary_lookup(accounting, str);
	assert(sym.id <= 255);
	if (accounting->syms.num_syms == accounting->num_syms_allocated) {
	accounting->num_syms_allocated *= 2;
	accounting->syms.syms =
	realloc(accounting->syms.syms,
	sizeof(AccountingSymbol) * accounting->num_syms_allocated);
	assert(accounting->syms.syms != NULL);
	}
	accounting->syms.syms[accounting->syms.num_syms++] = sym;
	}

	void aom_accounting_dump(Accounting *accounting) {
	int i;
	AccountingSymbol *sym;
	printf("\n----- Number of recorded syntax elements = %d -----\n",
	accounting->syms.num_syms);
	printf("----- Total number of symbol calls = %d (%d binary) -----\n",
	accounting->syms.num_multi_syms + accounting->syms.num_binary_syms,
	accounting->syms.num_binary_syms);
	for (i = 0; i < accounting->syms.num_syms; i++) {
	sym = &accounting->syms.syms[i];
	printf("%s x: %d, y: %d bits: %f samples: %d\n",
	accounting->syms.dictionary.strs[sym->id], sym->context.x,
	sym->context.y, (float)sym->bits / 8.0, sym->samples);
	}
	}