native_client_sdk/src/libraries/xray/hashtable.c - chromium/src - Git at Google

 /* Copyright (c) 2013 The Chromium Authors. All rights reserved.
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file. */


 /* Hashtable for XRay */

 #include <stdint.h>
 #include <stdio.h>
 #include <stdlib.h>
 #include <string.h>
 #include "xray/xray_priv.h"

 #if defined(XRAY)

 struct XRayHashTableEntry {
   void* data;
   uint32_t key;
 };


 struct XRayHashTable {
   int capacity;
   int count;
   struct XRayHashTableEntry* array;
 };


 XRAY_NO_INSTRUMENT void XRayHashTableGrow(struct XRayHashTable* table);
 XRAY_NO_INSTRUMENT uint32_t XRayHashTableHashKey(uint32_t key);
 XRAY_NO_INSTRUMENT void XRayHashTableInit(struct XRayHashTable* table,
     int32_t capacity);

 #define HASH_HISTO 1024
 int g_hash_histo[HASH_HISTO];


 /* Hashes a 32bit key into a 32bit value. */
 uint32_t XRayHashTableHashKey(uint32_t x) {
   uint32_t y = x * 7919;
   uint32_t z;
   size_t c;
   uint8_t* s = (uint8_t*)&y;
   /* based on djb2 hash function */
   uint32_t h = 5381;
   for (c = 0; c < sizeof(y); ++c) {
     z = s[c];
     h = ((h << 5) + h) + z;
   }
   return h;
 }


 int XRayHashTableGetCapacity(struct XRayHashTable* table) {
   return table->capacity;
 }


 int XRayHashTableGetCount(struct XRayHashTable* table) {
   return table->count;
 }


 /* Looks up key in hashtable and returns blind data. */
 void* XRayHashTableLookup(struct XRayHashTable* table, uint32_t key) {
   uint32_t h = XRayHashTableHashKey(key);
   uint32_t m = table->capacity - 1;
   uint32_t j = h & m;
   uint32_t i;
   int z = 1;
   for (i = 0; i < m; ++i) {
     /* An empty entry means the {key, data} isn't in the table. */
     if (NULL == table->array[j].data) {
       ++g_hash_histo[0];
       return NULL;
     }
     /* Search for address */
     if (table->array[j].key == key) {
       if (z >= HASH_HISTO)
         z = HASH_HISTO - 1;
       ++g_hash_histo[z];
       return table->array[j].data;
     }
     j = (j + 1) & m;
     ++z;
   }
   /* Table was full, and there wasn't a match. */
   return NULL;
 }


 /* Inserts key & data into hash table.  No duplicates. */
 void* XRayHashTableInsert(struct XRayHashTable* table,
                           void* data, uint32_t key) {
   uint32_t h = XRayHashTableHashKey(key);
   uint32_t m = table->capacity - 1;
   uint32_t j = h & m;
   uint32_t i;
   for (i = 0; i < m; ++i) {
     /* Take the first empty entry. */
     /* (the key,data isn't already in the table) */
     if (NULL == table->array[j].data) {
       void* ret;
       float ratio;
       table->array[j].data = data;
       table->array[j].key = key;
       ++table->count;
       ret = data;
       ratio = (float)table->count / (float)table->capacity;
       /* Double the capacity of the symtable if we've hit the ratio. */
       if (ratio > XRAY_SYMBOL_TABLE_MAX_RATIO)
         XRayHashTableGrow(table);
       return ret;
     }
     /* If the key is already present, return the data in the table. */
     if (table->array[j].key == key) {
       return table->array[j].data;
     }
     j = (j + 1) & m;
   }
   /* Table was full */
   return NULL;
 }


 void* XRayHashTableAtIndex(struct XRayHashTable* table, int i) {
   if ((i < 0) || (i >= table->capacity))
     return NULL;
   return table->array[i].data;
 }


 /* Grows the hash table by doubling its capacity, */
 /* then re-inserts all the elements into the new table. */
 void XRayHashTableGrow(struct XRayHashTable* table) {
   struct XRayHashTableEntry* old_array = table->array;
   int old_capacity = table->capacity;
   int new_capacity = old_capacity * 2;
   int i;
   printf("XRay: Growing a hash table...\n");
   XRayHashTableInit(table, new_capacity);
   for (i = 0; i < old_capacity; ++i) {
     void* data = old_array[i].data;
     if (NULL != data) {
       uint32_t key = old_array[i].key;
       XRayHashTableInsert(table, data, key);
     }
   }
   XRayFree(old_array);
 }


 void XRayHashTableInit(struct XRayHashTable* table, int32_t capacity) {
   size_t bytes;
   if (0 != (capacity & (capacity - 1))) {
     printf("Xray: Hash table capacity should be a power of 2!\n");
     /* Round capacity up to next power of 2 */
     /* see http://aggregate.org/MAGIC/  */
     capacity--;
     capacity |= capacity >> 1;
     capacity |= capacity >> 2;
     capacity |= capacity >> 4;
     capacity |= capacity >> 8;
     capacity |= capacity >> 16;
     capacity++;
   }
   bytes = sizeof(table->array[0]) * capacity;
   table->capacity = capacity;
   table->count = 0;
   table->array = (struct XRayHashTableEntry*)XRayMalloc(bytes);
 }


 /* Creates & inializes hash table. */
 struct XRayHashTable* XRayHashTableCreate(int capacity) {
   struct XRayHashTable* table;
   table = (struct XRayHashTable*)XRayMalloc(sizeof(*table));
   XRayHashTableInit(table, capacity);
   memset(&g_hash_histo[0], 0, sizeof(g_hash_histo[0]) * HASH_HISTO);
   return table;
 }


 /* Prints hash table performance to file; for debugging. */
 void XRayHashTableHisto(FILE* f) {
   int i;
   for (i = 0; i < HASH_HISTO; ++i) {
     if (0 != g_hash_histo[i])
       fprintf(f, "hash_iterations[%d] = %d\n", i, g_hash_histo[i]);
   }
 }


 /* Frees hash table. */
 /* Note: Does not free what the hash table entries point to. */
 void XRayHashTableFree(struct XRayHashTable* table) {
   XRayFree(table->array);
   table->capacity = 0;
   table->count = 0;
   table->array = NULL;
   XRayFree(table);
 }

 #endif  /* XRAY */
	/* Copyright (c) 2013 The Chromium Authors. All rights reserved.
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file. */


	/* Hashtable for XRay */

	#include <stdint.h>
	#include <stdio.h>
	#include <stdlib.h>
	#include <string.h>
	#include "xray/xray_priv.h"

	#if defined(XRAY)

	struct XRayHashTableEntry {
	void* data;
	uint32_t key;
	};


	struct XRayHashTable {
	int capacity;
	int count;
	struct XRayHashTableEntry* array;
	};


	XRAY_NO_INSTRUMENT void XRayHashTableGrow(struct XRayHashTable* table);
	XRAY_NO_INSTRUMENT uint32_t XRayHashTableHashKey(uint32_t key);
	XRAY_NO_INSTRUMENT void XRayHashTableInit(struct XRayHashTable* table,
	int32_t capacity);

	#define HASH_HISTO 1024
	int g_hash_histo[HASH_HISTO];


	/* Hashes a 32bit key into a 32bit value. */
	uint32_t XRayHashTableHashKey(uint32_t x) {
	uint32_t y = x * 7919;
	uint32_t z;
	size_t c;
	uint8_t* s = (uint8_t*)&y;
	/* based on djb2 hash function */
	uint32_t h = 5381;
	for (c = 0; c < sizeof(y); ++c) {
	z = s[c];
	h = ((h << 5) + h) + z;
	}
	return h;
	}


	int XRayHashTableGetCapacity(struct XRayHashTable* table) {
	return table->capacity;
	}


	int XRayHashTableGetCount(struct XRayHashTable* table) {
	return table->count;
	}


	/* Looks up key in hashtable and returns blind data. */
	void* XRayHashTableLookup(struct XRayHashTable* table, uint32_t key) {
	uint32_t h = XRayHashTableHashKey(key);
	uint32_t m = table->capacity - 1;
	uint32_t j = h & m;
	uint32_t i;
	int z = 1;
	for (i = 0; i < m; ++i) {
	/* An empty entry means the {key, data} isn't in the table. */
	if (NULL == table->array[j].data) {
	++g_hash_histo[0];
	return NULL;
	}
	/* Search for address */
	if (table->array[j].key == key) {
	if (z >= HASH_HISTO)
	z = HASH_HISTO - 1;
	++g_hash_histo[z];
	return table->array[j].data;
	}
	j = (j + 1) & m;
	++z;
	}
	/* Table was full, and there wasn't a match. */
	return NULL;
	}


	/* Inserts key & data into hash table. No duplicates. */
	void* XRayHashTableInsert(struct XRayHashTable* table,
	void* data, uint32_t key) {
	uint32_t h = XRayHashTableHashKey(key);
	uint32_t m = table->capacity - 1;
	uint32_t j = h & m;
	uint32_t i;
	for (i = 0; i < m; ++i) {
	/* Take the first empty entry. */
	/* (the key,data isn't already in the table) */
	if (NULL == table->array[j].data) {
	void* ret;
	float ratio;
	table->array[j].data = data;
	table->array[j].key = key;
	++table->count;
	ret = data;
	ratio = (float)table->count / (float)table->capacity;
	/* Double the capacity of the symtable if we've hit the ratio. */
	if (ratio > XRAY_SYMBOL_TABLE_MAX_RATIO)
	XRayHashTableGrow(table);
	return ret;
	}
	/* If the key is already present, return the data in the table. */
	if (table->array[j].key == key) {
	return table->array[j].data;
	}
	j = (j + 1) & m;
	}
	/* Table was full */
	return NULL;
	}


	void* XRayHashTableAtIndex(struct XRayHashTable* table, int i) {
	if ((i < 0) \|\| (i >= table->capacity))
	return NULL;
	return table->array[i].data;
	}


	/* Grows the hash table by doubling its capacity, */
	/* then re-inserts all the elements into the new table. */
	void XRayHashTableGrow(struct XRayHashTable* table) {
	struct XRayHashTableEntry* old_array = table->array;
	int old_capacity = table->capacity;
	int new_capacity = old_capacity * 2;
	int i;
	printf("XRay: Growing a hash table...\n");
	XRayHashTableInit(table, new_capacity);
	for (i = 0; i < old_capacity; ++i) {
	void* data = old_array[i].data;
	if (NULL != data) {
	uint32_t key = old_array[i].key;
	XRayHashTableInsert(table, data, key);
	}
	}
	XRayFree(old_array);
	}


	void XRayHashTableInit(struct XRayHashTable* table, int32_t capacity) {
	size_t bytes;
	if (0 != (capacity & (capacity - 1))) {
	printf("Xray: Hash table capacity should be a power of 2!\n");
	/* Round capacity up to next power of 2 */
	/* see http://aggregate.org/MAGIC/ */
	capacity--;
	capacity \|= capacity >> 1;
	capacity \|= capacity >> 2;
	capacity \|= capacity >> 4;
	capacity \|= capacity >> 8;
	capacity \|= capacity >> 16;
	capacity++;
	}
	bytes = sizeof(table->array[0]) * capacity;
	table->capacity = capacity;
	table->count = 0;
	table->array = (struct XRayHashTableEntry*)XRayMalloc(bytes);
	}


	/* Creates & inializes hash table. */
	struct XRayHashTable* XRayHashTableCreate(int capacity) {
	struct XRayHashTable* table;
	table = (struct XRayHashTable)XRayMalloc(sizeof(table));
	XRayHashTableInit(table, capacity);
	memset(&g_hash_histo[0], 0, sizeof(g_hash_histo[0]) * HASH_HISTO);
	return table;
	}


	/* Prints hash table performance to file; for debugging. */
	void XRayHashTableHisto(FILE* f) {
	int i;
	for (i = 0; i < HASH_HISTO; ++i) {
	if (0 != g_hash_histo[i])
	fprintf(f, "hash_iterations[%d] = %d\n", i, g_hash_histo[i]);
	}
	}


	/* Frees hash table. */
	/* Note: Does not free what the hash table entries point to. */
	void XRayHashTableFree(struct XRayHashTable* table) {
	XRayFree(table->array);
	table->capacity = 0;
	table->count = 0;
	table->array = NULL;
	XRayFree(table);
	}

	#endif /* XRAY */