SHOGUN: ParseBuffer.h Source File

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00001 /*
00002  * This program is free software; you can redistribute it and/or modify
00003  * it under the terms of the GNU General Public License as published by
00004  * the Free Software Foundation; either version 3 of the License, or
00005  * (at your option) any later version.
00006  *
00007  * Written (W) 2011 Shashwat Lal Das
00008  * Copyright (C) 2011 Berlin Institute of Technology and Max-Planck-Society
00009  */
00010 
00011 #include <shogun/lib/common.h>
00012 #include <shogun/lib/DataType.h>
00013 #include <pthread.h>
00014 
00015 #ifndef __PARSEBUFFER_H__
00016 #define __PARSEBUFFER_H__
00017 
00018 namespace shogun
00019 {
00020 
00023 enum E_IS_EXAMPLE_USED
00024 {
00025     E_EMPTY = 1,
00026     E_NOT_USED = 2,
00027     E_USED = 3
00028 };
00029 
00039 template <class T>
00040 class Example
00041 {
00042 public:
00044     float64_t label;
00046     SGVector<T> fv;
00047 };
00048 
00065 template <class T> class CParseBuffer: public CSGObject
00066 {
00067 public:
00073     CParseBuffer(int32_t size = 1024);
00074 
00079     ~CParseBuffer();
00080 
00087     Example<T>* get_free_example()
00088     {
00089         pthread_mutex_lock(write_lock);
00090         pthread_mutex_lock(&ex_in_use_mutex[ex_write_index]);
00091         while (ex_used[ex_write_index] == E_NOT_USED)
00092             pthread_cond_wait(&ex_in_use_cond[ex_write_index], &ex_in_use_mutex[ex_write_index]);
00093         Example<T>* ex=&ex_ring[ex_write_index];
00094         pthread_mutex_unlock(&ex_in_use_mutex[ex_write_index]);
00095         pthread_mutex_unlock(write_lock);
00096 
00097         return ex;
00098     }
00099 
00108     int32_t write_example(Example<T>* ex);
00109 
00115     Example<T>* return_example_to_read();
00116 
00122     Example<T>* get_unused_example();
00123 
00132     int32_t copy_example(Example<T>* ex);
00133 
00141     void finalize_example(bool free_after_release);
00142 
00152     void set_free_vectors_on_destruct(bool destroy) { free_vectors_on_destruct = destroy; }
00153 
00158     bool get_free_vectors_on_destruct() { return free_vectors_on_destruct; }
00159 
00165     inline virtual const char* get_name() const { return "ParseBuffer"; }
00166 
00167 protected:
00172     inline virtual void inc_read_index()
00173     {
00174         ex_read_index=(ex_read_index + 1) % ring_size;
00175     }
00176 
00181     inline virtual void inc_write_index()
00182     {
00183         ex_write_index=(ex_write_index + 1) % ring_size;
00184     }
00185 
00186 protected:
00187 
00189     int32_t ring_size;
00191     Example<T>* ex_ring;
00192 
00194     E_IS_EXAMPLE_USED* ex_used;
00196     pthread_mutex_t* ex_in_use_mutex;
00198     pthread_cond_t* ex_in_use_cond;
00200     pthread_mutex_t* read_lock;
00202     pthread_mutex_t* write_lock;
00203 
00205     int32_t ex_write_index;
00207     int32_t ex_read_index;
00208 
00210     bool free_vectors_on_destruct;
00211 };
00212 
00213 template <class T> CParseBuffer<T>::CParseBuffer(int32_t size)
00214 {
00215     ring_size = size;
00216     ex_ring = SG_CALLOC(Example<T>, ring_size);
00217     ex_used = SG_MALLOC(E_IS_EXAMPLE_USED, ring_size);
00218     ex_in_use_mutex = SG_MALLOC(pthread_mutex_t, ring_size);
00219     ex_in_use_cond = SG_MALLOC(pthread_cond_t, ring_size);
00220     read_lock = new pthread_mutex_t;
00221     write_lock = new pthread_mutex_t;
00222 
00223     SG_SINFO("Initialized with ring size: %d.\n", ring_size);
00224 
00225     ex_write_index = 0;
00226     ex_read_index = 0;
00227 
00228     for (int32_t i=0; i<ring_size; i++)
00229     {
00230         ex_used[i] = E_EMPTY;
00231         ex_ring[i].fv.vector = new T();
00232         ex_ring[i].fv.vlen = 1;
00233         ex_ring[i].label = FLT_MAX;
00234 
00235         pthread_cond_init(&ex_in_use_cond[i], NULL);
00236         pthread_mutex_init(&ex_in_use_mutex[i], NULL);
00237     }
00238     pthread_mutex_init(read_lock, NULL);
00239     pthread_mutex_init(write_lock, NULL);
00240 
00241     free_vectors_on_destruct = true;
00242 }
00243 
00244 template <class T> CParseBuffer<T>::~CParseBuffer()
00245 {
00246     for (int32_t i=0; i<ring_size; i++)
00247     {
00248         if (ex_ring[i].fv.vector != NULL && free_vectors_on_destruct)
00249             delete ex_ring[i].fv.vector;
00250         pthread_mutex_destroy(&ex_in_use_mutex[i]);
00251         pthread_cond_destroy(&ex_in_use_cond[i]);
00252     }
00253     SG_FREE(ex_ring);
00254     SG_FREE(ex_used);
00255     SG_FREE(ex_in_use_mutex);
00256     SG_FREE(ex_in_use_cond);
00257 
00258     delete read_lock;
00259     delete write_lock;
00260 }
00261 
00262 template <class T>
00263 int32_t CParseBuffer<T>::write_example(Example<T> *ex)
00264 {
00265     ex_ring[ex_write_index].label = ex->label;
00266     ex_ring[ex_write_index].fv.vector = ex->fv.vector;
00267     ex_ring[ex_write_index].fv.vlen = ex->fv.vlen;
00268     ex_used[ex_write_index] = E_NOT_USED;
00269     inc_write_index();
00270 
00271     return 1;
00272 }
00273 
00274 template <class T>
00275 Example<T>* CParseBuffer<T>::return_example_to_read()
00276 {
00277     if (ex_read_index >= 0)
00278         return &ex_ring[ex_read_index];
00279     else
00280         return NULL;
00281 }
00282 
00283 template <class T>
00284 Example<T>* CParseBuffer<T>::get_unused_example()
00285 {
00286     pthread_mutex_lock(read_lock);
00287 
00288     Example<T> *ex;
00289     int32_t current_index = ex_read_index;
00290     // Because read index will change after return_example_to_read
00291 
00292     pthread_mutex_lock(&ex_in_use_mutex[current_index]);
00293 
00294     if (ex_used[current_index] == E_NOT_USED)
00295         ex = return_example_to_read();
00296     else
00297         ex = NULL;
00298 
00299     pthread_mutex_unlock(&ex_in_use_mutex[current_index]);
00300 
00301     pthread_mutex_unlock(read_lock);
00302     return ex;
00303 }
00304 
00305 template <class T>
00306 int32_t CParseBuffer<T>::copy_example(Example<T> *ex)
00307 {
00308     pthread_mutex_lock(write_lock);
00309     int32_t ret;
00310     int32_t current_index = ex_write_index;
00311 
00312     pthread_mutex_lock(&ex_in_use_mutex[current_index]);
00313     while (ex_used[ex_write_index] == E_NOT_USED)
00314     {
00315         pthread_cond_wait(&ex_in_use_cond[ex_write_index], &ex_in_use_mutex[ex_write_index]);
00316     }
00317 
00318     ret = write_example(ex);
00319 
00320     pthread_mutex_unlock(&ex_in_use_mutex[current_index]);
00321     pthread_mutex_unlock(write_lock);
00322 
00323     return ret;
00324 }
00325 
00326 template <class T>
00327 void CParseBuffer<T>::finalize_example(bool free_after_release)
00328 {
00329     pthread_mutex_lock(read_lock);
00330     pthread_mutex_lock(&ex_in_use_mutex[ex_read_index]);
00331     ex_used[ex_read_index] = E_USED;
00332 
00333     if (free_after_release)
00334     {
00335         SG_DEBUG("Freeing object in ring at index %d and address: %p.\n",
00336              ex_read_index, ex_ring[ex_read_index].fv.vector);
00337 
00338         delete ex_ring[ex_read_index].fv.vector;
00339         ex_ring[ex_read_index].fv.vector=NULL;
00340     }
00341 
00342     pthread_cond_signal(&ex_in_use_cond[ex_read_index]);
00343     pthread_mutex_unlock(&ex_in_use_mutex[ex_read_index]);
00344     inc_read_index();
00345 
00346     pthread_mutex_unlock(read_lock);
00347 }
00348 
00349 }
00350 #endif // __PARSEBUFFER_H__