/**
   * Initialize the ModelBuilder, validating all arguments and preparing the training frame. This
   * call is expected to be overridden in the subclasses and each subclass will start with
   * "super.init();". This call is made by the front-end whenever the GUI is clicked, and needs to
   * be fast; heavy-weight prep needs to wait for the trainModel() call.
   */
  @Override
  public void init(boolean expensive) {
    super.init(expensive);

    if ((_parms.start_column != null) && !_parms.start_column.isInt())
      error("start_column", "start time must be null or of type integer");

    if (!_parms.stop_column.isInt()) error("stop_column", "stop time must be of type integer");

    if (!_parms.event_column.isInt() && !_parms.event_column.isCategorical())
      error("event_column", "event must be of type integer or factor");

    if (Double.isNaN(_parms.lre_min) || _parms.lre_min <= 0)
      error("lre_min", "lre_min must be a positive number");

    if (_parms.iter_max < 1) error("iter_max", "iter_max must be a positive integer");

    final int MAX_TIME_BINS = 10000;
    final long min_time =
        (_parms.start_column == null)
            ? (long) _parms.stop_column.min()
            : (long) _parms.start_column.min() + 1;
    final int n_time = (int) (_parms.stop_column.max() - min_time + 1);
    if (n_time < 1) error("start_column", "start times must be strictly less than stop times");
    if (n_time > MAX_TIME_BINS)
      error(
          "stop_column",
          "number of distinct stop times is "
              + n_time
              + "; maximum number allowed is "
              + MAX_TIME_BINS);
  }
Esempio n. 2
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  /**
   * Initialize the ModelBuilder, validating all arguments and preparing the training frame. This
   * call is expected to be overridden in the subclasses and each subclass will start with
   * "super.init();". This call is made by the front-end whenever the GUI is clicked, and needs to
   * be fast; heavy-weight prep needs to wait for the trainModel() call.
   *
   * <p>Validate the requested ntrees; precompute actual ntrees. Validate the number of classes to
   * predict on; validate a checkpoint.
   */
  @Override
  public void init(boolean expensive) {
    super.init(expensive);
    if (H2O.ARGS.client && _parms._build_tree_one_node)
      error("_build_tree_one_node", "Cannot run on a single node in client mode");
    if (_vresponse != null) _vresponse_key = _vresponse._key;
    if (_response != null) _response_key = _response._key;
    if (_nclass > SharedTreeModel.SharedTreeParameters.MAX_SUPPORTED_LEVELS)
      error("_nclass", "Too many levels in response column!");

    if (_parms._min_rows < 0) error("_min_rows", "Requested min_rows must be greater than 0");

    if (_parms._ntrees < 0 || _parms._ntrees > 100000)
      error("_ntrees", "Requested ntrees must be between 1 and 100000");
    _ntrees = _parms._ntrees; // Total trees in final model
    if (_parms._checkpoint) { // Asking to continue from checkpoint?
      Value cv = DKV.get(_parms._model_id);
      if (cv != null) { // Look for prior model
        M checkpointModel = cv.get();
        if (_parms._ntrees < checkpointModel._output._ntrees + 1)
          error(
              "_ntrees",
              "Requested ntrees must be between "
                  + checkpointModel._output._ntrees
                  + 1
                  + " and 100000");
        _ntrees = _parms._ntrees - checkpointModel._output._ntrees; // Needed trees
      }
    }
    if (_parms._nbins <= 1) error("_nbins", "_nbins must be > 1.");
    if (_parms._nbins >= 1 << 16) error("_nbins", "_nbins must be < " + (1 << 16));
    if (_parms._nbins_cats <= 1) error("_nbins_cats", "_nbins_cats must be > 1.");
    if (_parms._nbins_cats >= 1 << 16) error("_nbins_cats", "_nbins_cats must be < " + (1 << 16));
    if (_parms._max_depth <= 0) error("_max_depth", "_max_depth must be > 0.");
    if (_parms._min_rows <= 0) error("_min_rows", "_min_rows must be > 0.");
    if (_parms._distribution == Distributions.Family.tweedie) {
      _parms._distribution.tweedie.p = _parms._tweedie_power;
    }
    if (_train != null) {
      double sumWeights =
          _train.numRows() * (hasWeightCol() ? _train.vec(_parms._weights_column).mean() : 1);
      if (sumWeights
          < 2 * _parms._min_rows) // Need at least 2*min_rows weighted rows to split even once
      error(
            "_min_rows",
            "The dataset size is too small to split for min_rows="
                + _parms._min_rows
                + ": must have at least "
                + 2 * _parms._min_rows
                + " (weighted) rows, but have only "
                + sumWeights
                + ".");
    }
    if (_train != null) _ncols = _train.numCols() - 1 - numSpecialCols();
  }
Esempio n. 3
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  /**
   * Initialize the ModelBuilder, validating all arguments and preparing the training frame. This
   * call is expected to be overridden in the subclasses and each subclass will start with
   * "super.init();". This call is made by the front-end whenever the GUI is clicked, and needs to
   * be fast; heavy-weight prep needs to wait for the trainModel() call.
   *
   * <p>Validate the requested ntrees; precompute actual ntrees. Validate the number of classes to
   * predict on; validate a checkpoint.
   */
  @Override
  public void init(boolean expensive) {
    super.init(expensive);
    if (H2O.ARGS.client && _parms._build_tree_one_node)
      error("_build_tree_one_node", "Cannot run on a single node in client mode");
    if (_vresponse != null) _vresponse_key = _vresponse._key;
    if (_response != null) _response_key = _response._key;

    if (_parms._min_rows < 0) error("_min_rows", "Requested min_rows must be greater than 0");

    if (_parms._ntrees < 0 || _parms._ntrees > MAX_NTREES)
      error("_ntrees", "Requested ntrees must be between 1 and " + MAX_NTREES);
    _ntrees = _parms._ntrees; // Total trees in final model
    if (_parms.hasCheckpoint()) { // Asking to continue from checkpoint?
      Value cv = DKV.get(_parms._checkpoint);
      if (cv != null) { // Look for prior model
        M checkpointModel = cv.get();
        try {
          _parms.validateWithCheckpoint(checkpointModel._parms);
        } catch (H2OIllegalArgumentException e) {
          error(e.values.get("argument").toString(), e.values.get("value").toString());
        }
        if (_parms._ntrees < checkpointModel._output._ntrees + 1)
          error(
              "_ntrees",
              "If checkpoint is specified then requested ntrees must be higher than "
                  + (checkpointModel._output._ntrees + 1));

        // Compute number of trees to build for this checkpoint
        _ntrees = _parms._ntrees - checkpointModel._output._ntrees; // Needed trees
      }
    }
    if (_parms._nbins <= 1) error("_nbins", "_nbins must be > 1.");
    if (_parms._nbins >= 1 << 16) error("_nbins", "_nbins must be < " + (1 << 16));
    if (_parms._nbins_cats <= 1) error("_nbins_cats", "_nbins_cats must be > 1.");
    if (_parms._nbins_cats >= 1 << 16) error("_nbins_cats", "_nbins_cats must be < " + (1 << 16));
    if (_parms._max_depth <= 0) error("_max_depth", "_max_depth must be > 0.");
    if (_parms._min_rows <= 0) error("_min_rows", "_min_rows must be > 0.");
    if (_train != null) {
      double sumWeights =
          _train.numRows() * (hasWeightCol() ? _train.vec(_parms._weights_column).mean() : 1);
      if (sumWeights
          < 2 * _parms._min_rows) // Need at least 2*min_rows weighted rows to split even once
      error(
            "_min_rows",
            "The dataset size is too small to split for min_rows="
                + _parms._min_rows
                + ": must have at least "
                + 2 * _parms._min_rows
                + " (weighted) rows, but have only "
                + sumWeights
                + ".");
    }
    if (_train != null) _ncols = _train.numCols() - 1 - numSpecialCols();
  }