00001
00013 #ifndef BM_H
00014 #define BM_H
00015
00016 #include <map>
00017
00018 #include "../itpp_ext.h"
00019 #include "../bdmroot.h"
00020 #include "../user_info.h"
00021
00022
00023 using namespace libconfig;
00024 using namespace itpp;
00025 using namespace std;
00026
00027 namespace bdm {
00028
00029 typedef std::map<string, int> RVmap;
00030 extern ivec RV_SIZES;
00031 extern Array<string> RV_NAMES;
00032
00034 class str {
00035 public:
00037 ivec ids;
00039 ivec times;
00041 str ( ivec ids0, ivec times0 ) :ids ( ids0 ),times ( times0 ) {
00042 it_assert_debug ( times0.length() ==ids0.length(),"Incompatible input" );
00043 };
00044 };
00045
00084 class RV :public bdmroot {
00085 protected:
00087 int dsize;
00089 int len;
00091 ivec ids;
00093 ivec times;
00094
00095 private:
00097 void init ( Array<std::string> in_names, ivec in_sizes, ivec in_times );
00098 int init ( const string &name, int size );
00099 public:
00102
00104 RV ( Array<std::string> in_names, ivec in_sizes, ivec in_times ) {init ( in_names,in_sizes,in_times );};
00106 RV ( Array<std::string> in_names, ivec in_sizes ) {init ( in_names,in_sizes,zeros_i ( in_names.length() ) );};
00108 RV ( Array<std::string> in_names ) {init ( in_names,ones_i ( in_names.length() ),zeros_i ( in_names.length() ) );}
00110 RV () :dsize ( 0 ),len ( 0 ),ids ( 0 ),times ( 0 ) {};
00112 RV ( string name, int sz, int tm=0 );
00114
00117
00119 friend std::ostream &operator<< ( std::ostream &os, const RV &rv );
00120 int _dsize() const {return dsize;} ;
00122 int countsize() const;
00123 ivec cumsizes() const;
00124 int length() const {return len;} ;
00125 int id ( int at ) const{return ids ( at );};
00126 int size ( int at ) const {return RV_SIZES ( ids ( at ) );};
00127 int time ( int at ) const{return times ( at );};
00128 std::string name ( int at ) const {return RV_NAMES ( ids ( at ) );};
00129 void set_time ( int at, int time0 ) {times ( at ) =time0;};
00131
00132
00133
00136
00138 ivec findself ( const RV &rv2 ) const;
00140 bool equal ( const RV &rv2 ) const;
00142 bool add ( const RV &rv2 );
00144 RV subt ( const RV &rv2 ) const;
00146 RV subselect ( const ivec &ind ) const;
00148 RV operator() ( const ivec &ind ) const {return subselect ( ind );};
00150 RV operator() ( int di1, int di2 ) const {
00151 ivec sz=cumsizes();
00152 int i1=0;
00153 while ( sz ( i1 ) <di1 ) i1++;
00154 int i2=i1;
00155 while ( sz ( i2 ) <di2 ) i2++;
00156 return subselect ( linspace ( i1,i2 ) );
00157 };
00159 void t ( int delta );
00161
00164
00166 str tostr() const;
00169 ivec dataind ( const RV &crv ) const;
00172 void dataind ( const RV &rv2, ivec &selfi, ivec &rv2i ) const;
00174 int mint () const {return min ( times );};
00176
00177
00192 void from_setting( const Setting &root );
00193
00194
00195 };
00196 UIREGISTER(RV);
00197
00199 RV concat ( const RV &rv1, const RV &rv2 );
00200
00202 extern RV RV0;
00203
00205
00206 class fnc :public bdmroot {
00207 protected:
00209 int dimy;
00210 public:
00212 fnc ( ) {};
00214 virtual vec eval ( const vec &cond ) {
00215 return vec ( 0 );
00216 };
00217
00219 virtual void condition ( const vec &val ) {};
00220
00222 int dimension() const{return dimy;}
00223 };
00224
00225 class mpdf;
00226
00228
00229 class epdf : public bdmroot {
00230 protected:
00232 int dim;
00234 RV rv;
00235
00236 public:
00248 epdf() :dim ( 0 ),rv ( ) {};
00249 epdf ( const epdf &e ) :dim ( e.dim ),rv ( e.rv ) {};
00250 epdf ( const RV &rv0 ) {set_rv ( rv0 );};
00251 void set_parameters ( int dim0 ) {dim=dim0;}
00253
00256
00258 virtual vec sample () const {it_error ( "not implemneted" );return vec ( 0 );};
00260 virtual mat sample_m ( int N ) const;
00262 virtual double evallog ( const vec &val ) const {it_error ( "not implemneted" );return 0.0;};
00264 virtual vec evallog_m ( const mat &Val ) const {
00265 vec x ( Val.cols() );
00266 for ( int i=0;i<Val.cols();i++ ) {x ( i ) =evallog ( Val.get_col ( i ) ) ;}
00267 return x;
00268 }
00270 virtual mpdf* condition ( const RV &rv ) const {it_warning ( "Not implemented" ); return NULL;}
00272 virtual epdf* marginal ( const RV &rv ) const {it_warning ( "Not implemented" ); return NULL;}
00274 virtual vec mean() const {it_error ( "not implemneted" );return vec ( 0 );};
00276 virtual vec variance() const {it_error ( "not implemneted" );return vec ( 0 );};
00278 virtual void qbounds ( vec &lb, vec &ub, double percentage=0.95 ) const {
00279 vec mea=mean(); vec std=sqrt ( variance() );
00280 lb = mea-2*std; ub=mea+2*std;
00281 };
00283
00289
00291 void set_rv ( const RV &rv0 ) {rv = rv0; }
00293 bool isnamed() const {bool b= ( dim==rv._dsize() );return b;}
00295 const RV& _rv() const {it_assert_debug ( isnamed(),"" ); return rv;}
00297
00300
00302 int dimension() const {return dim;}
00304
00305 };
00306
00307
00309
00310
00311 class mpdf : public bdmroot {
00312 protected:
00314 int dimc;
00316 RV rvc;
00318 epdf* ep;
00319 public:
00322
00323 mpdf ( ) :dimc ( 0 ),rvc ( ) {};
00325 mpdf ( const mpdf &m ) :dimc ( m.dimc ),rvc ( m.rvc ) {};
00327
00330
00332 virtual vec samplecond ( const vec &cond ) {
00333 this->condition ( cond );
00334 vec temp= ep->sample();
00335 return temp;
00336 };
00338 virtual mat samplecond_m ( const vec &cond, int N ) {
00339 this->condition ( cond );
00340 mat temp ( ep->dimension(),N ); vec smp ( ep->dimension() );
00341 for ( int i=0;i<N;i++ ) {smp=ep->sample() ;temp.set_col ( i, smp );}
00342 return temp;
00343 };
00345 virtual void condition ( const vec &cond ) {it_error ( "Not implemented" );};
00346
00348 virtual double evallogcond ( const vec &dt, const vec &cond ) {
00349 double tmp; this->condition ( cond );tmp = ep->evallog ( dt ); it_assert_debug ( std::isfinite ( tmp ),"Infinite value" ); return tmp;
00350 };
00351
00353 virtual vec evallogcond_m ( const mat &Dt, const vec &cond ) {this->condition ( cond );return ep->evallog_m ( Dt );};
00354
00357
00358 RV _rv() {return ep->_rv();}
00359 RV _rvc() {it_assert_debug ( isnamed(),"" ); return rvc;}
00360 int dimension() {return ep->dimension();}
00361 int dimensionc() {return dimc;}
00362 epdf& _epdf() {return *ep;}
00363 epdf* _e() {return ep;}
00365
00368 void set_rvc ( const RV &rvc0 ) {rvc=rvc0;}
00369 void set_rv ( const RV &rv0 ) {ep->set_rv ( rv0 );}
00370 bool isnamed() {return ( ep->isnamed() ) && ( dimc==rvc._dsize() );}
00372 };
00373
00399 class datalink {
00400 protected:
00402 int downsize;
00404 int upsize;
00406 ivec v2v_up;
00407 public:
00409 datalink () {};
00410 datalink ( const RV &rv, const RV &rv_up ) {set_connection ( rv,rv_up );};
00412 void set_connection ( const RV &rv, const RV &rv_up ) {
00413 downsize = rv._dsize();
00414 upsize = rv_up._dsize();
00415 v2v_up= ( rv.dataind ( rv_up ) );
00416
00417 it_assert_debug ( v2v_up.length() ==downsize,"rv is not fully in rv_up" );
00418 }
00420 void set_connection ( int ds, int us, const ivec &upind ) {
00421 downsize = ds;
00422 upsize = us;
00423 v2v_up= upind;
00424
00425 it_assert_debug ( v2v_up.length() ==downsize,"rv is not fully in rv_up" );
00426 }
00428 vec pushdown ( const vec &val_up ) {
00429 it_assert_debug ( upsize==val_up.length(),"Wrong val_up" );
00430 return get_vec ( val_up,v2v_up );
00431 }
00433 void pushup ( vec &val_up, const vec &val ) {
00434 it_assert_debug ( downsize==val.length(),"Wrong val" );
00435 it_assert_debug ( upsize==val_up.length(),"Wrong val_up" );
00436 set_subvector ( val_up, v2v_up, val );
00437 }
00438 };
00439
00441 class datalink_m2e: public datalink {
00442 protected:
00444 int condsize;
00446 ivec v2c_up;
00448 ivec v2c_lo;
00449
00450 public:
00451 datalink_m2e() {};
00453 void set_connection ( const RV &rv, const RV &rvc, const RV &rv_up ) {
00454 datalink::set_connection ( rv,rv_up );
00455 condsize= rvc._dsize();
00456
00457 rvc.dataind ( rv_up, v2c_lo, v2c_up );
00458 }
00460 vec get_cond ( const vec &val_up ) {
00461 vec tmp ( condsize );
00462 set_subvector ( tmp,v2c_lo,val_up ( v2c_up ) );
00463 return tmp;
00464 }
00465 void pushup_cond ( vec &val_up, const vec &val, const vec &cond ) {
00466 it_assert_debug ( downsize==val.length(),"Wrong val" );
00467 it_assert_debug ( upsize==val_up.length(),"Wrong val_up" );
00468 set_subvector ( val_up, v2v_up, val );
00469 set_subvector ( val_up, v2c_up, cond );
00470 }
00471 };
00474 class datalink_m2m: public datalink_m2e {
00475 protected:
00477 ivec c2c_up;
00479 ivec c2c_lo;
00480 public:
00482 datalink_m2m() {};
00483 void set_connection ( const RV &rv, const RV &rvc, const RV &rv_up, const RV &rvc_up ) {
00484 datalink_m2e::set_connection ( rv, rvc, rv_up );
00485
00486 rvc.dataind ( rvc_up, c2c_lo, c2c_up );
00487 it_assert_debug ( c2c_lo.length() +v2c_lo.length() ==condsize, "cond is not fully given" );
00488 }
00490 vec get_cond ( const vec &val_up, const vec &cond_up ) {
00491 vec tmp ( condsize );
00492 set_subvector ( tmp,v2c_lo,val_up ( v2c_up ) );
00493 set_subvector ( tmp,c2c_lo,cond_up ( c2c_up ) );
00494 return tmp;
00495 }
00497
00498 };
00499
00505 class logger : public bdmroot {
00506 protected:
00508 Array<RV> entries;
00510 Array<string> names;
00511 public:
00513 logger ( ) : entries ( 0 ),names ( 0 ) {}
00514
00517 virtual int add ( const RV &rv, string prefix="" ) {
00518 int id;
00519 if ( rv._dsize() >0 ) {
00520 id=entries.length();
00521 names=concat ( names, prefix);
00522 entries.set_length ( id+1,true );
00523 entries ( id ) = rv;
00524 }
00525 else { id =-1;}
00526 return id;
00527 }
00528
00530 virtual void logit ( int id, const vec &v ) =0;
00532 virtual void logit ( int id, const double &d ) =0;
00533
00535 virtual void step() =0;
00536
00538 virtual void finalize() {};
00539
00541 virtual void init() {};
00542
00543 };
00544
00548 class mepdf : public mpdf {
00549 public:
00551 mepdf ( epdf* em ) :mpdf ( ) {ep= em ;};
00552 mepdf (const epdf* em ) :mpdf ( ) {ep=const_cast<epdf*>( em );};
00553 void condition ( const vec &cond ) {}
00554 };
00555
00558 class compositepdf : public bdmroot{
00559 protected:
00561 Array<mpdf*> mpdfs;
00562 public:
00563 compositepdf():mpdfs(0){};
00564 void set_elements (const Array<mpdf*> A0 ) { mpdfs = A0;};
00566 RV getrv ( bool checkoverlap=false );
00568 void setrvc ( const RV &rv, RV &rvc );
00570 };
00571
00579 class DS : public bdmroot {
00580 protected:
00581 int dtsize;
00582 int utsize;
00584 RV Drv;
00586 RV Urv;
00588 int L_dt, L_ut;
00589 public:
00591 DS() :Drv ( ),Urv ( ) {};
00593 virtual void getdata ( vec &dt ) {it_error ( "abstract class" );};
00595 virtual void getdata ( vec &dt, const ivec &indeces ) {it_error ( "abstract class" );};
00597 virtual void write ( vec &ut ) {it_error ( "abstract class" );};
00599 virtual void write ( vec &ut, const ivec &indeces ) {it_error ( "abstract class" );};
00600
00602 virtual void step() =0;
00603
00605 virtual void log_add ( logger &L ) {
00606 it_assert_debug ( dtsize==Drv._dsize(),"" );
00607 it_assert_debug ( utsize==Urv._dsize(),"" );
00608
00609 L_dt=L.add ( Drv,"" );
00610 L_ut=L.add ( Urv,"" );
00611 }
00613 virtual void logit ( logger &L ) {
00614 vec tmp ( Drv._dsize() +Urv._dsize() );
00615 getdata ( tmp );
00616
00617 L.logit ( L_dt,tmp.left ( Drv._dsize() ) );
00618
00619 L.logit ( L_ut,tmp.mid ( Drv._dsize(), Urv._dsize() ) );
00620 }
00622 virtual RV _drv() const {return concat ( Drv,Urv );}
00624 const RV& _urv() const {return Urv;}
00626 virtual void set_drv (const RV &drv, const RV &urv) { Drv=drv;Urv=urv;}
00627 };
00628
00650 class BM :public bdmroot {
00651 protected:
00653 RV drv;
00655 double ll;
00657 bool evalll;
00658 public:
00661
00662 BM () :ll ( 0 ),evalll ( true ), LIDs ( 4 ), LFlags(4) {
00663 LIDs=-1; LFlags=0; LFlags(0)=1;};
00664 BM ( const BM &B ) : drv ( B.drv ), ll ( B.ll ), evalll ( B.evalll ) {}
00667 virtual BM* _copy_ () const {return NULL;};
00669
00672
00676 virtual void bayes ( const vec &dt ) = 0;
00678 virtual void bayesB ( const mat &Dt );
00681 virtual double logpred ( const vec &dt ) const{it_error ( "Not implemented" );return 0.0;}
00683 vec logpred_m ( const mat &dt ) const{vec tmp ( dt.cols() );for ( int i=0;i<dt.cols();i++ ) {tmp ( i ) =logpred ( dt.get_col ( i ) );}return tmp;}
00684
00686 virtual epdf* epredictor ( ) const {it_error ( "Not implemented" );return NULL;};
00688 virtual mpdf* predictor ( ) const {it_error ( "Not implemented" );return NULL;};
00690
00695
00697 RV rvc;
00699 const RV& _rvc() const {return rvc;}
00700
00702 virtual void condition ( const vec &val ) {it_error ( "Not implemented!" );};
00703
00705
00706
00709
00710 const RV& _drv() const {return drv;}
00711 void set_drv ( const RV &rv ) {drv=rv;}
00712 void set_rv ( const RV &rv ) {const_cast<epdf&> ( posterior() ).set_rv ( rv );}
00713 double _ll() const {return ll;}
00714 void set_evalll ( bool evl0 ) {evalll=evl0;}
00715 virtual const epdf& posterior() const =0;
00716 virtual const epdf* _e() const =0;
00718
00721
00723 virtual void set_options ( const string &opt ) {
00724 LFlags(0)=1;
00725 if ( opt.find ( "logbounds" ) !=string::npos ) {LFlags(1)=1; LFlags(2)=1;}
00726 if ( opt.find ( "logll" ) !=string::npos ) {LFlags(3)=1;}
00727 }
00729 ivec LIDs;
00730
00732 ivec LFlags;
00734 virtual void log_add ( logger &L, const string &name="" ) {
00735
00736 RV r;
00737 if ( posterior().isnamed() ) {r=posterior()._rv();}
00738 else{r=RV ( "est", posterior().dimension() );};
00739
00740
00741 if (LFlags(0)) LIDs ( 0 ) =L.add ( r,name+"mean_" );
00742 if (LFlags(1)) LIDs ( 1 ) =L.add ( r,name+"lb_" );
00743 if (LFlags(2)) LIDs ( 2 ) =L.add ( r,name+"ub_" );
00744 if (LFlags(3)) LIDs ( 3 ) =L.add ( RV("ll",1),name );
00745 }
00746 virtual void logit ( logger &L ) {
00747 L.logit ( LIDs ( 0 ), posterior().mean() );
00748 if ( LFlags(1) || LFlags(2)) {
00749 vec ub,lb;
00750 posterior().qbounds ( lb,ub );
00751 L.logit ( LIDs ( 1 ), lb );
00752 L.logit ( LIDs ( 2 ), ub );
00753 }
00754 if (LFlags(3)) L.logit ( LIDs ( 3 ), ll );
00755 }
00757 };
00758
00759
00760 };
00761 #endif // BM_H
