2011-03-11 17:14:54 +01:00
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#ifndef GCACHE_CACHE_H
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#define GCACHE_CACHE_H
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2012-09-03 11:35:17 +02:00
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#ifdef _MSC_VER
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typedef __int16 int16_t;
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typedef unsigned __int16 uint16_t;
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typedef __int32 int32_t;
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typedef unsigned __int32 uint32_t;
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typedef __int64 int64_t;
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typedef unsigned __int64 uint64_t;
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#else
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#include <stdint.h>
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#endif
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2011-06-09 17:30:16 +02:00
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#include <iostream>
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2011-03-11 17:14:54 +01:00
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#include <limits.h>
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#include <vector>
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2011-11-26 19:08:30 +01:00
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#include <list>
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2011-12-14 18:42:23 +01:00
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#include <wrap/system/multithreading/mt.h>
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2011-12-14 20:22:17 +01:00
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#include <wrap/system/multithreading/atomic_int.h>
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2011-03-11 17:14:54 +01:00
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#include "provider.h"
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2011-06-09 17:30:16 +02:00
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using namespace std;
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2011-03-11 17:14:54 +01:00
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/* this cache system enforce the rule that the items in a cache are always in all the cache below */
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/* two mechanism to remove tokens from the cache:
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1) set token count to something low
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2) set maximum number of tokens in the provider
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*/
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/** Cache virtual base class. You are required to implement the pure virtual functions get, drop and size.
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*/
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2012-05-29 14:14:27 +02:00
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namespace vcg {
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2011-11-29 13:41:28 +01:00
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template <typename Token> class Transfer;
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2011-03-11 17:14:54 +01:00
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template <typename Token>
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class Cache: public Provider<Token> {
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2011-11-26 19:08:30 +01:00
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public:
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2012-05-29 14:14:27 +02:00
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///true if this is the last cache (the one we use the data from)
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bool final;
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//if true the cache will exit at the first opportunity
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bool quit;
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///keeps track of changes (if 1 then something was loaded or dropped
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mt::atomicInt new_data;
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///callback for new_data
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void (*callback)(void *data);
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2011-11-26 19:08:30 +01:00
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2012-05-29 14:14:27 +02:00
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///data is fetched from here
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Provider<Token> *input;
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2011-03-11 17:14:54 +01:00
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2012-05-29 14:14:27 +02:00
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///threads running over cache...
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std::vector<Transfer<Token> *> transfers;
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2011-11-29 13:41:28 +01:00
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2011-11-26 19:08:30 +01:00
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protected:
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2012-05-29 14:14:27 +02:00
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///max space available
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uint64_t s_max;
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///current space used
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uint64_t s_curr;
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2011-03-11 17:14:54 +01:00
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2011-11-26 19:08:30 +01:00
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public:
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2012-05-29 14:14:27 +02:00
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Cache(uint64_t _capacity = INT_MAX):
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final(false), quit(false), new_data(false), input(NULL), s_max(_capacity), s_curr(0) {}
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virtual ~Cache() {}
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void setInputCache(Provider<Token> *p) { input = p; }
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uint64_t capacity() { return s_max; }
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uint64_t size() { return s_curr; }
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void setCapacity(uint64_t c) { s_max = c; }
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///return true if the cache is waiting for priority to change
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bool newData() {
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bool r = new_data.testAndSetOrdered(1, 0); //if changed is 1, r is true
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return r;
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2011-03-11 17:14:54 +01:00
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}
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2012-05-29 14:14:27 +02:00
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///empty the cache. Make sure no resource is locked before calling this.
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/// Require pause or stop before. Ensure there no locked item
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void flush() {
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//std::vector<Token *> tokens;
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{
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for(int i = 0; i < this->heap.size(); i++) {
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Token *token = &(this->heap[i]);
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//tokens.push_back(token);
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s_curr -= drop(token);
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assert(!(token->count >= Token::LOCKED));
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if(final)
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token->count.testAndSetOrdered(Token::READY, Token::CACHE);
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input->heap.push(token);
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}
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this->heap.clear();
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}
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if(!s_curr == 0) {
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std::cerr << "Cache size after flush is not ZERO!\n";
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s_curr = 0;
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}
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2011-03-11 17:14:54 +01:00
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}
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2012-05-29 14:14:27 +02:00
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///empty the cache. Make sure no resource is locked before calling this.
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/// Require pause or stop before. Ensure there no locked item
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template <class FUNCTOR> void flush(FUNCTOR functor) {
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std::vector<Token *> tokens;
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{
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int count = 0;
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mt::mutexlocker locker(&(this->heap_lock));
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for(int k = 0; k < this->heap.size(); k++) {
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Token *token = &this->heap[k];
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if(functor(token)) { //drop it
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tokens.push_back(token);
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s_curr -= drop(token);
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assert(token->count < Token::LOCKED);
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if(final)
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token->count.testAndSetOrdered(Token::READY, Token::CACHE);
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} else
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this->heap.at(count++) = token;
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}
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this->heap.resize(count);
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this->heap_dirty = true;
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}
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{
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mt::mutexlocker locker(&(input->heap_lock));
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for(unsigned int i = 0; i < tokens.size(); i++) {
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input->heap.push(tokens[i]);
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}
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}
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2011-03-11 17:14:54 +01:00
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}
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2012-05-29 14:14:27 +02:00
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virtual void abort() {}
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2011-11-26 19:08:30 +01:00
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protected:
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2012-05-29 14:14:27 +02:00
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///return the space used in the cache by the loaded resource
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virtual int size(Token *token) = 0;
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///returns amount of space used in cache -1 for failed transfer
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virtual int get(Token *token) = 0;
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///return amount removed
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virtual int drop(Token *token) = 0;
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///make sure the get function do not access token after abort is returned.
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2011-11-29 13:41:28 +01:00
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2011-11-26 19:08:30 +01:00
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2011-03-11 17:14:54 +01:00
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2012-05-29 14:14:27 +02:00
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///called in as first thing in run()
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virtual void begin() {}
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virtual void middle() {}
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///called in as last thing in run()
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virtual void end() {}
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2011-03-11 17:14:54 +01:00
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2012-05-29 14:14:27 +02:00
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///[should be protected]
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void run() {
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assert(input);
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/* basic operation of the cache:
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2011-03-11 17:14:54 +01:00
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1) transfer first element of input_cache if
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cache has room OR first element in input as higher priority of last element
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2) make room until eliminating an element would leave space. */
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begin();
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while(!this->quit) {
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input->check_queue.enter(true); //wait for cache below to load something or priorities to change
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if(this->quit) break;
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middle();
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if(unload() || load()) {
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new_data.testAndSetOrdered(0, 1); //if not changed, set as changed
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input->check_queue.open(); //we signal ourselves to check again
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}
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input->check_queue.leave();
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}
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this->quit = false; //in case someone wants to restart;
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end();
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2011-03-11 17:14:54 +01:00
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}
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2012-05-29 14:14:27 +02:00
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/** Checks wether we need to make room in the cache because of:
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2011-11-26 19:08:30 +01:00
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size() - sizeof(lowest priority item) > capacity()
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**/
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bool unload() {
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Token *remove = NULL;
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//make room int the cache checking that:
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//1 we need to make room (capacity < current)
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if(size() > capacity()) {
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mt::mutexlocker locker(&(this->heap_lock));
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//2 we have some element not in the upper caches (heap.size() > 0
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if(this->heap.size()) {
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Token &last = this->heap.min();
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int itemsize = size(&last);
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//3 after removing the item, we are still full (avoids bouncing items)
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if(size() - itemsize > capacity()) {
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//4 item to remove is not locked. (only in last cache. you can't lock object otherwise)
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if(!final) { //not final we can drop when we want
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remove = this->heap.popMin();
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} else {
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last.count.testAndSetOrdered(Token::READY, Token::CACHE);
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if(last.count <= Token::CACHE) { //was not locked and now can't be locked, remove it.
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remove = this->heap.popMin();
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} else { //last item is locked need to reorder stack
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remove = this->heap.popMin();
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this->heap.push(remove);
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cout << "Reordering stack something (what?)\n";
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return true;
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}
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}
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}
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2011-03-11 17:14:54 +01:00
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}
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}
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2012-05-29 14:14:27 +02:00
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if(remove) {
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{
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mt::mutexlocker input_locker(&(input->heap_lock));
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int size = drop(remove);
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assert(size >= 0);
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s_curr -= size;
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input->heap.push(remove);
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}
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return true;
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}
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return false;
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2011-03-11 17:14:54 +01:00
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}
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2011-11-26 19:08:30 +01:00
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2012-05-29 14:14:27 +02:00
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///should be protected
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bool load() {
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Token *insert = NULL;
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Token *last = NULL; //we want to lock only one heap at once to avoid deadlocks.
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2011-03-11 17:14:54 +01:00
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2012-05-29 14:14:27 +02:00
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/* check wether we have room (curr < capacity) or heap is empty.
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2011-03-11 17:14:54 +01:00
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empty heap is bad: we cannot drop anything to make room, and cache above has nothing to get.
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this should not happen if we set correct cache sizes, but if it happens.... */
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2012-05-29 14:14:27 +02:00
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{
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mt::mutexlocker locker(&(this->heap_lock));
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this->rebuild();
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if(size() > capacity() && this->heap.size() > 0) {
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last = &(this->heap.min()); //no room, set last so we might check for a swap.
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}
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}
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2011-03-11 17:14:54 +01:00
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2012-05-29 14:14:27 +02:00
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{
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mt::mutexlocker input_locker(&(input->heap_lock));
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input->rebuild(); //if dirty rebuild
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if(input->heap.size()) { //we need something in input to tranfer.
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Token &first = input->heap.max();
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if(first.count > Token::REMOVE &&
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(!last || first.priority > last->priority)) { //if !last we already decided we want a transfer., otherwise check for a swap
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insert = input->heap.popMax(); //remove item from heap, while we transfer it.
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}
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}
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2011-03-11 17:14:54 +01:00
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}
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2012-05-29 14:14:27 +02:00
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if(insert) { //we want to fetch something
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2011-03-11 17:14:54 +01:00
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2012-05-29 14:14:27 +02:00
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int size = get(insert);
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2011-03-11 17:14:54 +01:00
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2012-05-29 14:14:27 +02:00
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if(size >= 0) { //success
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s_curr += size;
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{
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mt::mutexlocker locker(&(this->heap_lock));
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if(final)
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insert->count.ref(); //now lock is 0 and can be locked
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2011-03-11 17:14:54 +01:00
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2012-05-29 14:14:27 +02:00
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this->heap.push(insert);
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}
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this->check_queue.open(); //we should signal the parent cache that we have a new item
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return true;
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2011-03-11 17:14:54 +01:00
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2012-05-29 14:14:27 +02:00
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} else { //failed transfer put it back, we will keep trying to transfer it...
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mt::mutexlocker input_locker(&(input->heap_lock));
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input->heap.push(insert);
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return false;
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}
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}
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2011-03-11 17:14:54 +01:00
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return false;
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}
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};
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2012-05-29 14:14:27 +02:00
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} //namespace
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2011-12-14 16:34:21 +01:00
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/* TODO use the following class to allow multiple cache transfers at the same time */
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2011-11-29 13:41:28 +01:00
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2011-12-14 16:34:21 +01:00
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/*
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2011-11-29 13:41:28 +01:00
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template<typename Token>
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2011-12-14 18:42:23 +01:00
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class Transfer: public mt::thread {
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2011-11-29 13:41:28 +01:00
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public:
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Transfer(Cache<Token> *_cache): cache(_cache) {}
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private:
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Cache<Token> *cache;
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void run() {
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cache->loop();
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//end();
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}
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};
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2011-12-14 16:34:21 +01:00
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*/
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2011-11-29 13:41:28 +01:00
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2011-03-11 17:14:54 +01:00
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#endif // GCACHE_H
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