virtual void LoadModel(utils::IStream &fi){ utils::Check(fi.Read(¶m_, sizeof(LayerParam)) != 0, "BiasLayer: LoadModel invalid model file"); bias_.LoadBinary(fi); gbias_.Resize(bias_.shape_); gbias_ = 0.0f; }
virtual void LoadModel(utils::IStream &fi) { utils::Check(fi.Read(¶m_, sizeof(LayerParam)) != 0, "FullConnectLayer:LoadModel invalid model file"); wmat_.LoadBinary(fi); bias_.LoadBinary(fi); // setup gradient weight gwmat_.Resize(wmat_.shape_); gbias_.Resize(bias_.shape_); gwmat_ = 0.0f; gbias_ = 0.0f; }
/*! * \brief load model from stream * \param fi input stream * \param calc_num_feature whether call InitTrainer with calc_num_feature */ inline void LoadModel(utils::IStream &fi, // NOLINT(*) bool calc_num_feature = true) { utils::Check(fi.Read(&mparam, sizeof(ModelParam)) != 0, "BoostLearner: wrong model format"); { // backward compatibility code for compatible with old model type // for new model, Read(&name_obj_) is suffice uint64_t len; utils::Check(fi.Read(&len, sizeof(len)) != 0, "BoostLearner: wrong model format"); if (len >= std::numeric_limits<unsigned>::max()) { int gap; utils::Check(fi.Read(&gap, sizeof(gap)) != 0, "BoostLearner: wrong model format"); len = len >> static_cast<uint64_t>(32UL); } if (len != 0) { name_obj_.resize(len); utils::Check(fi.Read(&name_obj_[0], len) != 0, "BoostLearner: wrong model format"); } }
/*! * \brief load from binary stream * \param fs input file stream * \param silent whether print information during loading * \param fname file name, used to print message */ inline void LoadBinary(utils::IStream &fs, bool silent = false, const char *fname = NULL) { int magic; utils::Check(fs.Read(&magic, sizeof(magic)) != 0, "invalid input file format"); utils::Check(magic == kMagic, "invalid format,magic number mismatch"); info.LoadBinary(fs); FMatrixS::LoadBinary(fs, &row_ptr_, &row_data_); fmat.LoadColAccess(fs); if (!silent) { printf("%lux%lu matrix with %lu entries is loaded", info.num_row(), info.num_col(), row_data_.size()); if (fname != NULL) { printf(" from %s\n", fname); } else { printf("\n"); } if (info.group_ptr.size() != 0) { printf("data contains %u groups\n", (unsigned)info.group_ptr.size()-1); } } }
// load model from file inline void LoadModel(utils::IStream &fi) { // NOLINT(*) XGBOOST_STATIC_ASSERT(sizeof(Param) % sizeof(uint64_t) == 0) utils::Assert(fi.Read(¶m, sizeof(Param)) != 0, "Load LinearBooster"); fi.Read(&weight); }
// load model from file inline void LoadModel(utils::IStream &fi) { utils::Assert(fi.Read(¶m, sizeof(Param)) != 0, "Load LinearBooster"); fi.Read(&weight); }
inline static int ReadInt(utils::IStream &fi) { unsigned char buf[4]; utils::Assert(fi.Read(buf, sizeof(buf)) == 1, "Failed to read an int\n"); return int(buf[0] << 24 | buf[1] << 16 | buf[2] << 8 | buf[3]); }