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https://github.com/moses-smt/mosesdecoder.git
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154 lines
4.6 KiB
C++
154 lines
4.6 KiB
C++
// $Id$
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/* ---------------------------------------------------------------- */
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/* Copyright 2005 (c) by RWTH Aachen - Lehrstuhl fuer Informatik VI */
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/* Richard Zens */
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/* ---------------------------------------------------------------- */
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#ifndef moses_ObjectPool_h
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#define moses_ObjectPool_h
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#include <vector>
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#include <deque>
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#include <string>
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#include <iostream>
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#include <iterator>
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#include "Util.h"
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/***
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* template class for pool of objects
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* - useful if many small objects are frequently created and destroyed
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* - allocates memory for N objects at a time
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* - separates memory allocation from constructor/destructor calls
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* - prevents memory leaks
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*/
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template<typename T> class ObjectPool
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{
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public:
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typedef T Object;
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private:
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std::string name;
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size_t idx,dIdx,N;
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std::vector<Object*> data;
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std::vector<size_t> dataSize;
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std::deque<Object*> freeObj;
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int mode;
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public:
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static const int cleanUpOnDestruction=1;
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static const int hasTrivialDestructor=2;
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// constructor arguments:
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// N: initial number of objects to allocate memory at a time
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// m & cleanUpOnDestruction = clean up objects in destructor
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// m & hasTrivialDestructor = the object type has a trivial destructor,
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// i.e. no sub-object uses dynamically allocated memory
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// note: not equivalent to empty destructor
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// -> more efficient (destructor calls can be omitted),
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// note: looks like memory leak, but is not
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ObjectPool(std::string name_="T",size_t N_=100000,int m=cleanUpOnDestruction)
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: name(name_),idx(0),dIdx(0),N(N_),mode(m) {
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allocate();
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}
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// main accesss functions:
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// get pointer to object via default or copy constructor
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Object* get() {
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return new (getPtr()) Object;
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}
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Object* get(const Object& x) {
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return new (getPtr()) Object(x);
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}
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// get pointer to uninitialized memory,
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// WARNING: use only if you know what you are doing !
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// useful for non-default constructors, you have to use placement new
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Object* getPtr() {
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if(freeObj.size()) {
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Object* rv=freeObj.back();
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freeObj.pop_back();
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rv->~Object();
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return rv;
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}
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if(idx==dataSize[dIdx]) {
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idx=0;
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if(++dIdx==data.size()) allocate();
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}
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return data[dIdx]+idx++;
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}
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// return object(s) to pool for reuse
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// note: objects are not destroyed here, but in 'getPtr'/'destroyObjects',
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// otherwise 'destroyObjects' would have to check the freeObj-stack
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// before each destructor call
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void freeObject(Object* x) {
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freeObj.push_back(x);
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}
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template<class fwiter> void freeObjects(fwiter b,fwiter e) {
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for(; b!=e; ++b) this->free(*b);
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}
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// destroy all objects, but do not free memory
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void reset() {
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destroyObjects();
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idx=0;
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dIdx=0;
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freeObj.clear();
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}
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// destroy all objects and free memory
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void cleanUp() {
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reset();
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for(size_t i=0; i<data.size(); ++i) free(data[i]);
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data.clear();
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dataSize.clear();
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}
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~ObjectPool() {
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if(mode & cleanUpOnDestruction) cleanUp();
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}
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void printInfo(std::ostream& out) const {
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out<<"OPOOL ("<<name<<") info: "<<data.size()<<" "<<dataSize.size()<<" "
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<<freeObj.size()<<"\n"<<idx<<" "<<dIdx<<" "<<N<<"\n";
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std::copy(dataSize.begin(),dataSize.end(),
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std::ostream_iterator<size_t>(out," "));
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out<<"\n\n";
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}
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private:
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void destroyObjects() {
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if(mode & hasTrivialDestructor) return;
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for(size_t i=0; i<=dIdx; ++i) {
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size_t lastJ= (i<dIdx ? dataSize[i] : idx);
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for(size_t j=0; j<lastJ; ++j) (data[i]+j)->~Object();
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}
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}
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// allocate memory for a N objects, for follow-up allocations,
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// the block size is doubled every time
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// if allocation fails, block size is reduced by 1/4
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void allocate() {
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try {
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if(dataSize.empty()) dataSize.push_back(N);
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else dataSize.push_back(dataSize.back()*2);
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void *m=malloc(sizeof(Object)*dataSize.back());
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while(!m) {
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dataSize.back()=static_cast<size_t>(dataSize.back()*0.75);
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m=malloc(sizeof(Object)*dataSize.back());
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}
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data.push_back(static_cast<Object*>(m));
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} catch (const std::exception& e) {
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TRACE_ERR("caught std::exception: "<<e.what()
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<<" in ObjectPool::allocate(), name: "<<name<<", last size: "
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<<dataSize.back()<<"\n");
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TRACE_ERR("OPOOL info: "<<data.size()<<" "<<dataSize.size()<<" "
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<<freeObj.size()<<"\n"<<idx<<" "<<dIdx<<" "<<N<<"\n");
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std::copy(dataSize.begin(),dataSize.end(),
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std::ostream_iterator<size_t>(std::cerr," "));
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TRACE_ERR("\n");
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throw;
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}
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}
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};
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#endif
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