# Licensed to the Apache Software Foundation (ASF) under one or more # contributor license agreements. See the NOTICE file distributed with # this work for additional information regarding copyright ownership. # The ASF licenses this file to You under the Apache License, Version 2.0 # (the "License"); you may not use this file except in compliance with # the License. You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # #------------------------------------------------------------------------------ # R source file to validate Gamma distribution tests in # org.apache.commons.math.distribution.GammaDistributionTest # # To run the test, install R, put this file and testFunctions # into the same directory, launch R from this directory and then enter # source("") # #----------------------------------------------------------------------------- tol <- 1E-9 # Function definitions source("testFunctions") # utility test functions # function to verify distribution computations verifyDistribution <- function(points, expected, alpha, beta, tol) { rDistValues <- rep(0, length(points)) i <- 0 for (point in points) { i <- i + 1 rDistValues[i] <- pgamma(point, shape=alpha, scale=beta, log = FALSE) } output <- c("Distribution test shape = ", shape, " scale = ", scale) if (assertEquals(expected, rDistValues, tol, "Distribution Values")) { displayPadded(output, SUCCEEDED, WIDTH) } else { displayPadded(output, FAILED, WIDTH) } } # function to verify density computations verifyDensity <- function(points, expected, alpha, beta, tol) { rDensityValues <- rep(0, length(points)) i <- 0 for (point in points) { i <- i + 1 rDensityValues[i] <- dgamma(point, shape=alpha, scale=beta, log = FALSE) } output <- c("Density test shape = ", shape, " scale = ", scale) if (assertEquals(expected, rDensityValues, tol, "Density Values")) { displayPadded(output, SUCCEEDED, WIDTH) } else { displayPadded(output, FAILED, WIDTH) } } # function to verify quantiles verifyQuantiles <- function(points, expected, alpha, beta, tol) { rQuantileValues <- rep(0, length(points)) i <- 0 for (point in points) { i <- i + 1 rQuantileValues[i] <- qgamma(point, shape=alpha, scale=beta, log = FALSE) } output <- c("Quantile test shape = ", shape, " scale = ", scale) if (assertEquals(expected, rQuantileValues, tol, "Quantile Values")) { displayPadded(output, SUCCEEDED, WIDTH) } else { displayPadded(output, FAILED, WIDTH) } } #-------------------------------------------------------------------------- cat("Gamma Distribution test cases\n") shape <- 4 scale <- 2 distributionValues <- c(0.001, 0.01, 0.025, 0.05, 0.1, 0.999, 0.990, 0.975, 0.950, 0.900) densityValues <- c(0.00427280075546, 0.0204117166709, 0.0362756163658, 0.0542113174239, 0.0773195272491, 0.000394468852816, 0.00366559696761, 0.00874649473311, 0.0166712508128, 0.0311798227954) distributionPoints <- c(0.857104827257, 1.64649737269, 2.17973074725, 2.7326367935, 3.48953912565, 26.1244815584, 20.0902350297, 17.5345461395, 15.5073130559, 13.3615661365) verifyQuantiles(distributionValues, distributionPoints, shape, scale, tol) verifyDistribution(distributionPoints, distributionValues, shape, scale, tol) verifyDensity(distributionPoints, densityValues, shape, scale, tol) displayDashes(WIDTH)