mirror of
https://github.com/moses-smt/mosesdecoder.git
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340 lines
7.9 KiB
C++
340 lines
7.9 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_PrefixTree_h
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#define moses_PrefixTree_h
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#include <vector>
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#include <algorithm>
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#include <deque>
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#include "Util.h"
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#include "FilePtr.h"
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#include "File.h"
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namespace Moses
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{
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/** @todo How is this used in the pb binary phrase table?
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*/
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template<typename T,typename D>
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class PrefixTreeSA
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{
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public:
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typedef T Key;
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typedef D Data;
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typedef PrefixTreeSA<T,D> Self;
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typedef std::vector<T> VT;
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typedef std::vector<Self*> VP;
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typedef std::vector<D> VD;
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VT keys;
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VP ptr;
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VD data;
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static Data def;
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public:
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PrefixTreeSA() {}
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~PrefixTreeSA() {
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for(size_t i=0; i<ptr.size(); ++i) delete ptr[i];
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}
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static const Data& getDefault() {
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return def;
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}
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static void setDefault(const Data& x) {
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def=x;
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}
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// insert sequence
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template<typename fwiter> Data& insert(fwiter b,fwiter e) {
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typename VT::iterator i=std::lower_bound(keys.begin(),keys.end(),*b);
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typename VT::iterator kb=keys.begin();
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size_t pos=std::distance(kb,i);
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if(i==keys.end() || *i!=*b) {
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keys.insert(i,*b);
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data.insert(data.begin()+pos,def);
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Self *self = NULL;
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ptr.insert(ptr.begin()+pos, self);
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}
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if(++b!=e) {
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if(!ptr[pos]) ptr[pos]=new Self;
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return ptr[pos]->insert(b,e);
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} else return data[pos];
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}
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// insert container
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template<typename cont> Data& insert(const cont& c) {
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return insert(c.begin(),c.end());
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}
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size_t size() const {
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return keys.size();
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}
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const Key& getKey(size_t i) const {
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return keys[i];
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}
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const Data& getData(size_t i) const {
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return data[i];
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}
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const Self* getPtr(size_t i) const {
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return ptr[i];
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}
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size_t findKey(const Key& k) const {
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typename VT::const_iterator i=std::lower_bound(keys.begin(),keys.end(),k);
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if(i==keys.end() || *i!=k) return keys.size();
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return std::distance(keys.begin(),i);
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}
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// find sequence
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template<typename fwiter> const Data* findPtr(fwiter b,fwiter e) const {
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size_t pos=findKey(*b);
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if(pos==keys.size()) return 0;
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if(++b==e) return &data[pos];
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if(ptr[pos]) return ptr[pos]->findPtr(b,e);
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else return 0;
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}
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// find container
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template<typename cont> const Data* findPtr(const cont& c) const {
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return findPtr(c.begin(),c.end());
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}
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// find sequence
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template<typename fwiter> const Data& find(fwiter b,fwiter e) const {
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if(const Data* p=findPtr(b,e)) return *p;
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else return def;
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}
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// find container
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template<typename cont> const Data& find(const cont& c) const {
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return find(c.begin(),c.end());
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}
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void shrink() {
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ShrinkToFit(keys);
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ShrinkToFit(ptr);
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ShrinkToFit(data);
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}
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};
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template<typename T,typename D> D PrefixTreeSA<T,D>::def;
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/////////////////////////////////////////////////////////////////////////////
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/** @todo How is this used in the pb binary phrase table?
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*/
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template<typename T,typename D>
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class PrefixTreeF
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{
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public:
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typedef T Key;
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typedef D Data;
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private:
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typedef PrefixTreeF<Key,Data> Self;
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public:
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typedef FilePtr<Self> Ptr;
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private:
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typedef std::vector<Key> VK;
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typedef std::vector<Data> VD;
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typedef std::vector<Ptr> VP;
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VK keys;
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VD data;
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VP ptr;
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static Data def;
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OFF_T startPos;
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FILE* f;
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public:
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PrefixTreeF(FILE* f_=0) : f(f_) {
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if(f) read();
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}
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~PrefixTreeF() {
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free();
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}
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void read() {
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startPos=fTell(f);
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fReadVector(f,keys);
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fReadVector(f,data);
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ptr.clear();
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ptr.resize(keys.size());
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std::vector<OFF_T> rawOffs(keys.size());
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size_t bytes_read = fread(&rawOffs[0], sizeof(OFF_T), keys.size(), f);
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UTIL_THROW_IF2(bytes_read != keys.size(), "Read error at " << HERE);
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for(size_t i=0; i<ptr.size(); ++i)
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if (rawOffs[i]) ptr[i].set(f, rawOffs[i]);
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}
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void free() {
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for(typename VP::iterator i=ptr.begin(); i!=ptr.end(); ++i) i->free();
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}
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void reserve(size_t s) {
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keys.reserve(s);
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data.reserve(s);
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ptr.reserve(s);
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}
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template<typename fwiter>
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void changeData(fwiter b,fwiter e,const Data& d) {
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typename VK::const_iterator i=std::lower_bound(keys.begin(),keys.end(),*b);
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if(i==keys.end() || *i!=*b) {
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TRACE_ERR("ERROR: key not found in changeData!\n");
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return;
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}
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typename VK::const_iterator kb=keys.begin();
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size_t pos=std::distance(kb,i);
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if(++b==e) {
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OFF_T p=startPos+keys.size()*sizeof(Key)+2*sizeof(unsigned)+pos*sizeof(Data);
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TRACE_ERR("elem found at pos "<<p<<" old val: "<<data[pos]<<" startpos: "<<startPos<<"\n");
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if(data[pos]!=d) {
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data[pos]=d;
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fSeek(f,p);
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fWrite(f,d);
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}
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return;
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}
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if(ptr[pos]) ptr[pos]->changeData(b,e,d);
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else {
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TRACE_ERR("ERROR: seg not found!in changeData\n");
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}
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}
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void create(const PrefixTreeSA<Key,Data>& psa,const std::string& fname) {
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FILE* f=fOpen(fname.c_str(),"wb");
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create(psa,f);
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fclose(f);
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}
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void create(const PrefixTreeSA<Key,Data>& psa,FILE* f,int verbose=0) {
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setDefault(psa.getDefault());
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typedef std::pair<const PrefixTreeSA<Key,Data>*,OFF_T> P;
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typedef std::deque<P> Queue;
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Queue queue;
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queue.push_back(P(&psa,fTell(f)));
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bool isFirst=1;
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size_t ns=1;
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while(queue.size()) {
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if(verbose && queue.size()>ns) {
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TRACE_ERR("stack size in PF create: "<<queue.size()<<"\n");
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while(ns<queue.size()) ns*=2;
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}
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const P& pp=queue.back();
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const PrefixTreeSA<Key,Data>& p=*pp.first;
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OFF_T pos=pp.second;
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queue.pop_back();
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if(!isFirst) {
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OFF_T curr=fTell(f);
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fSeek(f,pos);
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fWrite(f,curr);
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fSeek(f,curr);
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} else isFirst=0;
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size_t s=0;
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s+=fWriteVector(f,p.keys);
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s+=fWriteVector(f,p.data);
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for(size_t i=0; i<p.ptr.size(); ++i) {
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if(p.ptr[i])
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queue.push_back(P(p.ptr[i],fTell(f)));
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OFF_T ppos=0;
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s+=fWrite(f,ppos);
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}
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}
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}
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size_t size() const {
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return keys.size();
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}
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const Key& getKey(size_t i) const {
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return keys[i];
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}
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const Data& getData(size_t i) const {
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return data[i];
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}
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const Self* getPtr(size_t i) const {
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return ptr[i];
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}
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size_t findKey(const Key& k) const {
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typename VK::const_iterator i=std::lower_bound(keys.begin(),keys.end(),k);
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if(i==keys.end() || *i!=k) return keys.size();
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return std::distance(keys.begin(),i);
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}
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Ptr const* findKeyPtr(const Key& k) const {
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size_t pos=findKey(k);
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return (pos<keys.size() ? &ptr[pos] : 0);
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}
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// find sequence
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template<typename fwiter> const Data* findPtr(fwiter b,fwiter e) const {
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typename VK::const_iterator i=std::lower_bound(keys.begin(),keys.end(),*b);
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if(i==keys.end() || *i!=*b) return 0;
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size_t pos=std::distance(keys.begin(),i);
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if(++b==e) return &data[pos];
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if(ptr[pos]) return ptr[pos]->findPtr(b,e);
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else return 0;
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}
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// find container
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template<typename cont> const Data* findPtr(const cont& c) const {
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return findPtr(c.begin(),c.end());
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}
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// find sequence
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template<typename fwiter> const Data& find(fwiter b,fwiter e) const {
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if(const Data* p=findPtr(b,e)) return *p;
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else return def;
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} //return (p?*p:def);}
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// find container
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template<typename cont> const Data& find(const cont& c) const {
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return find(c.begin(),c.end());
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}
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static void setDefault(const Data& d) {
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def=d;
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}
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static const Data& getDefault() {
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return def;
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}
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void print(std::ostream& out,const std::string s="") const {
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out<<s<<"startpos: "<<startPos<<" size: "<<keys.size()<<"\n";
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for(size_t i=0; i<keys.size(); ++i) {
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out<<s<<i<<" - "<<keys[i]<<" "<<data[i]<<"\n";
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}
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for(size_t i=0; i<ptr.size(); ++i)
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if(ptr[i])
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ptr[i]->print(out,s+" ");
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}
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};
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template<typename T,typename D> D PrefixTreeF<T,D>::def;
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}
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#endif
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