📄 sc_hash.cpp
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/***************************************************************************** The following code is derived, directly or indirectly, from the SystemC source code Copyright (c) 1996-2006 by all Contributors. All Rights reserved. The contents of this file are subject to the restrictions and limitations set forth in the SystemC Open Source License Version 2.4 (the "License"); You may not use this file except in compliance with such restrictions and limitations. You may obtain instructions on how to receive a copy of the License at http://www.systemc.org/. Software distributed by Contributors under the License is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License for the specific language governing rights and limitations under the License. *****************************************************************************//***************************************************************************** sc_hash.cpp -- Implementation of a chained hash table with MTF (move-to-front). Original Author: Stan Y. Liao, Synopsys, Inc. *****************************************************************************//***************************************************************************** MODIFICATION LOG - modifiers, enter your name, affiliation, date and changes you are making here. Name, Affiliation, Date: Description of Modification: *****************************************************************************/// $Log: sc_hash.cpp,v $// Revision 1.1.1.1 2006/12/15 20:31:39 acg// SystemC 2.2//// Revision 1.3 2006/01/13 18:53:10 acg// Andy Goodrich: Added $Log command so that CVS comments are reproduced in// the source.//#include <assert.h>#include <cstdlib>#include "sysc/kernel/sc_cmnhdr.h"#include "sysc/utils/sc_hash.h"#include "sysc/utils/sc_mempool.h"namespace sc_core {const double PHASH_DEFAULT_GROW_FACTOR = 2.0;class sc_phash_elem { friend class sc_phash_base; friend class sc_phash_base_iter;private: void* key; void* contents; sc_phash_elem* next; sc_phash_elem( void* k, void* c, sc_phash_elem* n ) : key(k), contents(c), next(n) { } sc_phash_elem() { } ~sc_phash_elem() { } static void* operator new(std::size_t sz) { return sc_mempool::allocate(sz); } static void operator delete(void* p, std::size_t sz) { sc_mempool::release(p, sz); }};sc_phash_base::sc_phash_base( void* def, int size, int density, double grow, bool reorder, unsigned (*hash_fn)(const void*), int (*cmp_fn)(const void*, const void*)){ default_value = def; hash = hash_fn; num_entries = 0; max_density = density; grow_factor = grow; reorder_flag = reorder; if (size <= 0) size = PHASH_DEFAULT_INIT_TABLE_SIZE; else if ((size % 2) == 0) size += 1; num_bins = size; bins = new sc_phash_elem*[size]; for (int i = 0; i < size; ++i) bins[i] = 0; set_cmpr_fn(cmp_fn);}voidsc_phash_base::set_cmpr_fn(cmpr_fn_t c){ cmpr = c;}voidsc_phash_base::set_hash_fn(hash_fn_t h){ hash = h;}sc_phash_base::~sc_phash_base(){ sc_phash_elem* ptr; sc_phash_elem* next; for (int i = 0; i < num_bins; ++i) { ptr = bins[i]; while (ptr != 0) { next = ptr->next; delete ptr; ptr = next; } } delete[] bins;}voidsc_phash_base::rehash(){ sc_phash_elem* ptr; sc_phash_elem* next; sc_phash_elem** old_bins = bins; int old_num_bins = num_bins; unsigned hash_val; num_bins = (int) (grow_factor * old_num_bins); if (num_bins % 2 == 0) ++num_bins; num_entries = 0; bins = new sc_phash_elem*[num_bins]; memset( bins, 0, sizeof(sc_phash_elem*) * num_bins ); for (int i = 0; i < old_num_bins; ++i) { ptr = old_bins[i]; while (ptr != 0) { next = ptr->next; hash_val = do_hash(ptr->key); ptr->next = bins[hash_val]; bins[hash_val] = ptr; ++num_entries; ptr = next; } } delete[] old_bins;}sc_phash_elem*sc_phash_base::find_entry_q( unsigned hash_val, const void* key, sc_phash_elem*** plast ){ sc_phash_elem** last = &(bins[hash_val]); sc_phash_elem* ptr = *last; /* The (ptr->key != key) here is meant by the "q" */ while ((ptr != 0) && (ptr->key != key)) { /* ^^ right here */ last = &(ptr->next); ptr = *last; } if ((ptr != 0) && reorder_flag) { *last = ptr->next; ptr->next = bins[hash_val]; bins[hash_val] = ptr; last = &(bins[hash_val]); } if (plast) *plast = last; return ptr;}sc_phash_elem*sc_phash_base::find_entry_c( unsigned hash_val, const void* key, sc_phash_elem*** plast ){ sc_phash_elem** last = &(bins[hash_val]); sc_phash_elem* ptr = *last; while ((ptr != 0) && ((*cmpr)(ptr->key, key) != 0)) { last = &(ptr->next); ptr = *last; } /* Bring to front */ if ((ptr != 0) && reorder_flag) { *last = ptr->next; ptr->next = bins[hash_val]; bins[hash_val] = ptr; last = &(bins[hash_val]); } if (plast) *plast = last; return ptr;}sc_phash_elem*sc_phash_base::add_direct( void* key, void* contents, unsigned hash_val ){ if (num_entries / num_bins >= max_density) { rehash(); hash_val = do_hash(key); } sc_phash_elem* new_entry = new sc_phash_elem(key, contents, bins[hash_val]); bins[hash_val] = new_entry; ++num_entries; return new_entry;}voidsc_phash_base::erase(){ for (int i = 0; i < num_bins; ++i) { sc_phash_elem* ptr = bins[i]; while (ptr != 0) { sc_phash_elem* next = ptr->next; delete ptr; ptr = next; --num_entries; } bins[i] = 0; } assert(num_entries == 0);}voidsc_phash_base::erase(void (*kfree)(void*)){ for (int i = 0; i < num_bins; ++i) { sc_phash_elem* ptr = bins[i]; while (ptr != 0) { sc_phash_elem* next = ptr->next; (*kfree)(ptr->key); delete ptr; ptr = next; --num_entries; } bins[i] = 0; } assert(num_entries == 0);}voidsc_phash_base::copy( const sc_phash_base* b ){ erase(); iterator iter((sc_phash_base*) b); /* cast away the const */ for ( ; ! iter.empty(); iter++) insert( iter.key(), iter.contents() );}voidsc_phash_base::copy(const sc_phash_base& b, void* (*kdup)(const void*), void (*kfree)(void*)){ erase(kfree); iterator iter((sc_phash_base&) b); for ( ; ! iter.empty(); iter++) insert( (*kdup)(iter.key()), iter.contents() );}intsc_phash_base::insert( void* k, void* c ){ unsigned hash_val = do_hash(k); sc_phash_elem* ptr = find_entry( hash_val, k ); if (ptr == 0) { (void) add_direct(k, c, hash_val); return 0; } else { ptr->contents = c; return 1; }}intsc_phash_base::insert( void* k, void* c, void* (*kdup)(const void*) ){ unsigned hash_val = do_hash(k); sc_phash_elem* ptr = find_entry( hash_val, k ); if (ptr == 0) { (void) add_direct((*kdup)(k), c, hash_val); return 0; } else { ptr->contents = c; return 1; }}intsc_phash_base::insert_if_not_exists( void* k, void* c ){ unsigned hash_val = do_hash(k); sc_phash_elem* ptr = find_entry( hash_val, k ); if (ptr == 0) { (void) add_direct( k, c, hash_val ); return 0; } else return 1;}intsc_phash_base::insert_if_not_exists( void* k, void* c, void* (*kdup)(const void*) ){ unsigned hash_val = do_hash(k); sc_phash_elem* ptr = find_entry( hash_val, k ); if (ptr == 0) { (void) add_direct( (*kdup)(k), c, hash_val ); return 0; } else return 1;}intsc_phash_base::remove( const void* k ){ unsigned hash_val = do_hash(k); sc_phash_elem** last; sc_phash_elem* ptr = find_entry( hash_val, k, &last ); if (ptr == 0) return 0; assert(*last == ptr); *last = ptr->next; delete ptr; --num_entries; return 1;}intsc_phash_base::remove( const void* k, void** pk, void** pc ){ unsigned hash_val = do_hash(k); sc_phash_elem** last; sc_phash_elem* ptr = find_entry( hash_val, k, &last ); if (ptr == 0) { *pk = 0; *pc = 0; return 0; } else { *pk = ptr->key; *pc = ptr->contents; } assert(*last == ptr); *last = ptr->next; delete ptr; --num_entries; return 1;}intsc_phash_base::remove(const void* k, void (*kfree)(void*)){ void* rk; void* rc; if (remove(k, &rk, &rc)) { (*kfree)(rk); return 1; } else return 0;}intsc_phash_base::remove_by_contents( const void* c ){ sc_phash_elem** last; sc_phash_elem* ptr; int num_removed = 0; for (int i = 0; i < num_bins; ++i) { last = &(bins[i]); ptr = *last; while (ptr != 0) { if (ptr->contents != c) { last = &(ptr->next); ptr = *last; } else { *last = ptr->next; delete ptr; ptr = *last; --num_entries; ++num_removed; } } } return num_removed;}intsc_phash_base::remove_by_contents( bool (*predicate)(const void* c, void* arg), void* arg ){ sc_phash_elem** last; sc_phash_elem* ptr; int num_removed = 0; for (int i = 0; i < num_bins; ++i) { last = &(bins[i]); ptr = *last; while (ptr != 0) { if (! (*predicate)(ptr->contents, arg)) { last = &(ptr->next); ptr = *last; } else { *last = ptr->next; delete ptr; ptr = *last; --num_entries; ++num_removed; } } } return num_removed;}intsc_phash_base::remove_by_contents( const void* c, void (*kfree)(void*) ){ sc_phash_elem** last; sc_phash_elem* ptr; int num_removed = 0; for (int i = 0; i < num_bins; ++i) { last = &(bins[i]); ptr = *last; while (ptr != 0) { if (ptr->contents != c) { last = &(ptr->next); ptr = *last; } else { *last = ptr->next; (*kfree)(ptr->key); delete ptr; ptr = *last; --num_entries; ++num_removed; } } } return num_removed;}intsc_phash_base::remove_by_contents( bool (*predicate)(const void*, void*), void* arg, void (*kfree)(void*)){ sc_phash_elem** last; sc_phash_elem* ptr; int num_removed = 0; for (int i = 0; i < num_bins; ++i) { last = &(bins[i]); ptr = *last; while (ptr != 0) { if (! (*predicate)(ptr->contents, arg)) { last = &(ptr->next); ptr = *last; } else { *last = ptr->next; (*kfree)(ptr->key); delete ptr; ptr = *last; --num_entries; ++num_removed; } } } return num_removed;}intsc_phash_base::lookup( const void* k, void** c_ptr ) const{ unsigned hash_val = do_hash(k); sc_phash_elem* ptr = find_entry( hash_val, k ); if (ptr == 0) { if (c_ptr != 0) *c_ptr = default_value; return 0; } else { if (c_ptr != 0) *c_ptr = ptr->contents; return 1; }}void*sc_phash_base::operator[]( const void* key ) const{ void* contents; lookup( key, &contents ); return contents;}/***************************************************************************/voidsc_phash_base_iter::reset( sc_phash_base* t ){ table = t; index = 0; entry = 0; next = 0; for (int i = index; i < table->num_bins; ++i) { if (table->bins[i] != 0) { index = i + 1; last = &(table->bins[i]); entry = *last; next = entry->next; break; } }}boolsc_phash_base_iter::empty() const{ return (entry == 0);}voidsc_phash_base_iter::step(){ if (entry) { last = &(entry->next); } entry = next; if (! entry) { for (int i = index; i < table->num_bins; ++i) { if (table->bins[i] != 0) { index = i + 1; last = &(table->bins[i]); entry = *last; next = entry->next; break; } } } else { next = entry->next; }}voidsc_phash_base_iter::remove(){ delete entry; *last = next; entry = 0; --table->num_entries; step();}voidsc_phash_base_iter::remove(void (*kfree)(void*)){ (*kfree)(entry->key); delete entry; *last = next; entry = 0; --table->num_entries; step();}void*sc_phash_base_iter::key() const{ return entry->key;}void*sc_phash_base_iter::contents() const{ return entry->contents;}void*sc_phash_base_iter::set_contents( void* c ){ return entry->contents = c;}/****************************************************************************/unsigned default_ptr_hash_fn(const void* p){ return ((unsigned long)(p) >> 2) * 2654435789U;}unsigneddefault_int_hash_fn(const void* p){ return (unsigned long)(p) * 3141592661U;}unsigneddefault_str_hash_fn(const void* p){ if (!p) return 0; const char* x = (const char*) p; unsigned int h = 0; unsigned int g; while (*x != 0) { h = (h << 4) + *x++; if ((g = h & 0xf0000000) != 0) h = (h ^ (g >> 24)) ^ g; } return h;}intsc_strhash_cmp( const void* a, const void* b ){ return strcmp( (const char*) a, (const char*) b );}void*sc_strhash_kdup(const void* k){ return strdup((const char*) k);}voidsc_strhash_kfree(void* k){ if (k) free((char*) k);} } // namespace sc_core⌨️ 快捷键说明
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