Github user feynmanliang commented on a diff in the pull request: https://github.com/apache/spark/pull/10743#discussion_r50041066 --- Diff: mllib/src/main/scala/org/apache/spark/ml/classification/LogisticRegression.scala --- @@ -276,113 +276,123 @@ class LogisticRegression @Since("1.2.0") ( val numClasses = histogram.length val numFeatures = summarizer.mean.size - if (numInvalid != 0) { - val msg = s"Classification labels should be in {0 to ${numClasses - 1} " + - s"Found $numInvalid invalid labels." - logError(msg) - throw new SparkException(msg) - } - - if (numClasses > 2) { - val msg = s"Currently, LogisticRegression with ElasticNet in ML package only supports " + - s"binary classification. Found $numClasses in the input dataset." - logError(msg) - throw new SparkException(msg) - } + val (coefficients, intercept, objectiveHistory) = { + if (numInvalid != 0) { + val msg = s"Classification labels should be in {0 to ${numClasses - 1} " + + s"Found $numInvalid invalid labels." + logError(msg) + throw new SparkException(msg) + } - val featuresMean = summarizer.mean.toArray - val featuresStd = summarizer.variance.toArray.map(math.sqrt) + if (numClasses > 2) { + val msg = s"Currently, LogisticRegression with ElasticNet in ML package only supports " + + s"binary classification. Found $numClasses in the input dataset." + logError(msg) + throw new SparkException(msg) + } else if ($(fitIntercept) && numClasses == 2 && histogram(0) == 0.0) { + logWarning(s"All labels are one and fitIntercept=true, so the coefficients will be " + + s"zeros and the intercept will be positive infinity; as a result, " + + s"training is not needed.") + (Vectors.sparse(numFeatures, Seq()), Double.PositiveInfinity, Array.empty[Double]) + } else if ($(fitIntercept) && numClasses == 1) { + logWarning(s"All labels are one and fitIntercept=true, so the coefficients will be " + + s"zeros and the intercept will be negative infinity; as a result, " + + s"training is not needed.") + (Vectors.sparse(numFeatures, Seq()), Double.NegativeInfinity, Array.empty[Double]) + } else { + val featuresMean = summarizer.mean.toArray + val featuresStd = summarizer.variance.toArray.map(math.sqrt) - val regParamL1 = $(elasticNetParam) * $(regParam) - val regParamL2 = (1.0 - $(elasticNetParam)) * $(regParam) + val regParamL1 = $(elasticNetParam) * $(regParam) + val regParamL2 = (1.0 - $(elasticNetParam)) * $(regParam) - val costFun = new LogisticCostFun(instances, numClasses, $(fitIntercept), $(standardization), - featuresStd, featuresMean, regParamL2) + val costFun = new LogisticCostFun(instances, numClasses, $(fitIntercept), + $(standardization), featuresStd, featuresMean, regParamL2) - val optimizer = if ($(elasticNetParam) == 0.0 || $(regParam) == 0.0) { - new BreezeLBFGS[BDV[Double]]($(maxIter), 10, $(tol)) - } else { - def regParamL1Fun = (index: Int) => { - // Remove the L1 penalization on the intercept - if (index == numFeatures) { - 0.0 + val optimizer = if ($(elasticNetParam) == 0.0 || $(regParam) == 0.0) { + new BreezeLBFGS[BDV[Double]]($(maxIter), 10, $(tol)) } else { - if ($(standardization)) { - regParamL1 - } else { - // If `standardization` is false, we still standardize the data - // to improve the rate of convergence; as a result, we have to - // perform this reverse standardization by penalizing each component - // differently to get effectively the same objective function when - // the training dataset is not standardized. - if (featuresStd(index) != 0.0) regParamL1 / featuresStd(index) else 0.0 + def regParamL1Fun = (index: Int) => { + // Remove the L1 penalization on the intercept + if (index == numFeatures) { + 0.0 + } else { + if ($(standardization)) { + regParamL1 + } else { + // If `standardization` is false, we still standardize the data + // to improve the rate of convergence; as a result, we have to + // perform this reverse standardization by penalizing each component + // differently to get effectively the same objective function when + // the training dataset is not standardized. + if (featuresStd(index) != 0.0) regParamL1 / featuresStd(index) else 0.0 + } + } } + new BreezeOWLQN[Int, BDV[Double]]($(maxIter), 10, regParamL1Fun, $(tol)) } - } - new BreezeOWLQN[Int, BDV[Double]]($(maxIter), 10, regParamL1Fun, $(tol)) - } - - val initialCoefficientsWithIntercept = - Vectors.zeros(if ($(fitIntercept)) numFeatures + 1 else numFeatures) - - if ($(fitIntercept)) { - /* - For binary logistic regression, when we initialize the coefficients as zeros, - it will converge faster if we initialize the intercept such that - it follows the distribution of the labels. - - {{{ - P(0) = 1 / (1 + \exp(b)), and - P(1) = \exp(b) / (1 + \exp(b)) - }}}, hence - {{{ - b = \log{P(1) / P(0)} = \log{count_1 / count_0} - }}} - */ - initialCoefficientsWithIntercept.toArray(numFeatures) - = math.log(histogram(1) / histogram(0)) - } - val states = optimizer.iterations(new CachedDiffFunction(costFun), - initialCoefficientsWithIntercept.toBreeze.toDenseVector) + val initialCoefficientsWithIntercept = + Vectors.zeros(if ($(fitIntercept)) numFeatures + 1 else numFeatures) + + if ($(fitIntercept)) { + /* --- End diff -- Sorry >.<, fixed
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