#ifndef HORUS_UTIL_H #define HORUS_UTIL_H #include #include #include #include #include #include #include #include #include #include #include "Horus.h" using namespace std; namespace Util { template void addToVector (vector&, const vector&); template void addToSet (set&, const vector&); template void addToQueue (queue&, const vector&); template bool contains (const vector&, const T&); template bool contains (const set&, const T&); template bool contains ( const unordered_map&, const K&); template std::string toString (const T&); void toLog (Params&); void fromLog (Params&); double logSum (double, double); void multiply (Params&, const Params&); void multiply (Params&, const Params&, unsigned); void add (Params&, const Params&); void add (Params&, const Params&, unsigned); double factorial (double); unsigned nrCombinations (unsigned, unsigned); unsigned expectedSize (const Ranges&); unsigned getNumberOfDigits (int); bool isInteger (const string&); string parametersToString (const Params&, unsigned = Constants::PRECISION); vector getStateLines (const Vars&); void printHeader (string, std::ostream& os = std::cout); void printSubHeader (string, std::ostream& os = std::cout); void printAsteriskLine (std::ostream& os = std::cout); void printDashedLine (std::ostream& os = std::cout); unsigned maxUnsigned (void); }; template void Util::addToVector (vector& v, const vector& elements) { v.insert (v.end(), elements.begin(), elements.end()); } template void Util::addToSet (set& s, const vector& elements) { s.insert (elements.begin(), elements.end()); } template void Util::addToQueue (queue& q, const vector& elements) { for (unsigned i = 0; i < elements.size(); i++) { q.push (elements[i]); } } template bool Util::contains (const vector& v, const T& e) { return std::find (v.begin(), v.end(), e) != v.end(); } template bool Util::contains (const set& s, const T& e) { return s.find (e) != s.end(); } template bool Util::contains (const unordered_map& m, const K& k) { return m.find (k) != m.end(); } template std::string Util::toString (const T& t) { std::stringstream ss; ss << t; return ss.str(); } template std::ostream& operator << (std::ostream& os, const vector& v) { os << "[" ; for (unsigned i = 0; i < v.size(); i++) { os << ((i != 0) ? ", " : "") << v[i]; } os << "]" ; return os; } namespace { const double INF = -numeric_limits::infinity(); }; inline double Util::logSum (double x, double y) { return log (exp (x) + exp (y)); assert (isfinite (x) && isfinite (y)); // If one value is much smaller than the other, keep the larger value. if (x < (y - log (1e200))) { return y; } if (y < (x - log (1e200))) { return x; } double diff = x - y; assert (isfinite (diff) && isfinite (x) && isfinite (y)); if (!isfinite (exp (diff))) { // difference is too large return x > y ? x : y; } // otherwise return the sum. return y + log (static_cast(1.0) + exp (diff)); } inline void Util::multiply (Params& v1, const Params& v2) { assert (v1.size() == v2.size()); for (unsigned i = 0; i < v1.size(); i++) { v1[i] *= v2[i]; } } inline void Util::multiply (Params& v1, const Params& v2, unsigned repetitions) { for (unsigned count = 0; count < v1.size(); ) { for (unsigned i = 0; i < v2.size(); i++) { for (unsigned r = 0; r < repetitions; r++) { v1[count] *= v2[i]; count ++; } } } } inline void Util::add (Params& v1, const Params& v2) { assert (v1.size() == v2.size()); for (unsigned i = 0; i < v1.size(); i++) { v1[i] += v2[i]; } } inline void Util::add (Params& v1, const Params& v2, unsigned repetitions) { for (unsigned count = 0; count < v1.size(); ) { for (unsigned i = 0; i < v2.size(); i++) { for (unsigned r = 0; r < repetitions; r++) { v1[count] += v2[i]; count ++; } } } } inline unsigned Util::maxUnsigned (void) { return numeric_limits::max(); } namespace LogAware { inline double one() { return Globals::logDomain ? 0.0 : 1.0; } inline double zero() { return Globals::logDomain ? INF : 0.0 ; } inline double addIdenty() { return Globals::logDomain ? INF : 0.0; } inline double multIdenty() { return Globals::logDomain ? 0.0 : 1.0; } inline double withEvidence() { return Globals::logDomain ? 0.0 : 1.0; } inline double noEvidence() { return Globals::logDomain ? INF : 0.0; } inline double tl (double v) { return Globals::logDomain ? log (v) : v; } inline double fl (double v) { return Globals::logDomain ? exp (v) : v; } void normalize (Params&); double getL1Distance (const Params&, const Params&); double getMaxNorm (const Params&, const Params&); double pow (double, unsigned); double pow (double, double); void pow (Params&, unsigned); void pow (Params&, double); }; struct NetInfo { NetInfo (unsigned size, bool loopy, unsigned nIters, double time) { this->size = size; this->loopy = loopy; this->nIters = nIters; this->time = time; } unsigned size; bool loopy; unsigned nIters; double time; }; struct CompressInfo { CompressInfo (unsigned a, unsigned b, unsigned c, unsigned d, unsigned e) { nrGroundVars = a; nrGroundFactors = b; nrClusterVars = c; nrClusterFactors = d; nrNeighborless = e; } unsigned nrGroundVars; unsigned nrGroundFactors; unsigned nrClusterVars; unsigned nrClusterFactors; unsigned nrNeighborless; }; class Statistics { public: static unsigned getSolvedNetworksCounting (void); static void incrementPrimaryNetworksCounting (void); static unsigned getPrimaryNetworksCounting (void); static void updateStatistics (unsigned, bool, unsigned, double); static void printStatistics (void); static void writeStatistics (const char*); static void updateCompressingStatistics ( unsigned, unsigned, unsigned, unsigned, unsigned); private: static string getStatisticString (void); static vector netInfo_; static vector compressInfo_; static unsigned primaryNetCount_; }; #endif // HORUS_UTIL_H