| # Copyright 2017 Open Networking Foundation (ONF) |
| # |
| # Please refer questions to either the onos test mailing list at <onos-test@onosproject.org>, |
| # the System Testing Plans and Results wiki page at <https://wiki.onosproject.org/x/voMg>, |
| # or the System Testing Guide page at <https://wiki.onosproject.org/x/WYQg> |
| # |
| # TestON is free software: you can redistribute it and/or modify |
| # it under the terms of the GNU General Public License as published by |
| # the Free Software Foundation, either version 2 of the License, or |
| # (at your option) any later version. |
| # |
| # TestON is distributed in the hope that it will be useful, |
| # but WITHOUT ANY WARRANTY; without even the implied warranty of |
| # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the |
| # GNU General Public License for more details. |
| # |
| # You should have received a copy of the GNU General Public License |
| # along with TestON. If not, see <http://www.gnu.org/licenses/>. |
| # |
| # If you have any questions, or if you don't understand R, |
| # please contact Jeremy Ronquillo: j_ronquillo@u.pacific.edu |
| |
| pipelineMinValue = 1000 |
| |
| # ********************************************************** |
| # STEP 1: Data management. |
| # ********************************************************** |
| |
| print( "**********************************************************" ) |
| print( "STEP 1: Data management." ) |
| print( "**********************************************************" ) |
| |
| # Command line arguments are read. Args include the database credentials, test name, branch name, and the directory to output files. |
| print( "Reading commmand-line args." ) |
| args <- commandArgs( trailingOnly=TRUE ) |
| |
| databaseHost <- 1 |
| databasePort <- 2 |
| databaseUserID <- 3 |
| databasePassword <- 4 |
| testSuiteName <- 5 |
| branchName <- 6 |
| testsToInclude <- 7 |
| buildsToShow <- 8 |
| saveDirectory <- 9 |
| |
| # ---------------- |
| # Import Libraries |
| # ---------------- |
| |
| print( "Importing libraries." ) |
| library( ggplot2 ) |
| library( reshape2 ) |
| library( RPostgreSQL ) |
| |
| # ------------------- |
| # Check CLI Arguments |
| # ------------------- |
| |
| print( "Verifying CLI args." ) |
| |
| if ( is.na( args[ saveDirectory ] ) ){ |
| |
| print( paste( "Usage: Rscript testCategoryTrend.R", |
| "<database-host>", |
| "<database-port>", |
| "<database-user-id>", |
| "<database-password>", |
| "<test-suite-name>", |
| "<branch-name>", |
| "<tests-to-include-(as-one-string)>", |
| "<builds-to-show>", |
| "<directory-to-save-graphs>", |
| sep=" " ) ) |
| |
| quit( status = 1 ) # basically exit(), but in R |
| } |
| |
| # ------------------------------- |
| # Create Title and Graph Filename |
| # ------------------------------- |
| |
| print( "Creating title of graph." ) |
| |
| title <- paste( args[ testSuiteName ], |
| " Test Results Trend - ", |
| args[ branchName ], |
| " \n Results of Last ", |
| args[ buildsToShow ], |
| " Nightly Builds", |
| sep="" ) |
| |
| print( "Creating graph filename." ) |
| |
| outputFile <- paste( args[ saveDirectory ], |
| args[ testSuiteName ], |
| "_", |
| args[ branchName ], |
| "_overview.jpg", |
| sep="" ) |
| |
| # ------------------ |
| # SQL Initialization |
| # ------------------ |
| |
| print( "Initializing SQL" ) |
| |
| con <- dbConnect( dbDriver( "PostgreSQL" ), |
| dbname = "onostest", |
| host = args[ databaseHost ], |
| port = strtoi( args[ databasePort ] ), |
| user = args[ databaseUserID ], |
| password = args[ databasePassword ] ) |
| |
| # --------------------- |
| # Test Case SQL Command |
| # --------------------- |
| print( "Generating Test Case SQL command." ) |
| |
| tests <- "'" |
| for ( test in as.list( strsplit( args[ testsToInclude ], "," )[[1]] ) ){ |
| tests <- paste( tests, test, "','", sep="" ) |
| } |
| tests <- substr( tests, 0, nchar( tests ) - 2 ) |
| |
| command <- paste( "SELECT * ", |
| "FROM executed_test_tests a ", |
| "WHERE ( SELECT COUNT( * ) FROM executed_test_tests b ", |
| "WHERE b.branch='", |
| args[ branchName ], |
| "' AND b.actual_test_name IN (", |
| tests, |
| ") AND a.actual_test_name = b.actual_test_name AND a.date <= b.date AND b.build >= ", |
| pipelineMinValue, |
| " ) <= ", |
| args[ buildsToShow ], |
| " AND a.branch='", |
| args[ branchName ], |
| "' AND a.actual_test_name IN (", |
| tests, |
| ") AND a.build >= ", |
| pipelineMinValue, |
| " ORDER BY a.actual_test_name DESC, a.date DESC", |
| sep="") |
| |
| print( "Sending SQL command:" ) |
| print( command ) |
| dbResult <- dbGetQuery( con, command ) |
| maxBuild <- max( dbResult[ 'build' ] ) - strtoi( args[ buildsToShow ] ) |
| dbResult <- dbResult[ which( dbResult[,4]>maxBuild ), ] |
| print( dbResult ) |
| |
| # ********************************************************** |
| # STEP 2: Organize data. |
| # ********************************************************** |
| |
| print( "**********************************************************" ) |
| print( "STEP 2: Organize Data." ) |
| print( "**********************************************************" ) |
| |
| t <- subset( dbResult, select=c( "actual_test_name", "build", "num_failed" ) ) |
| t$num_failed <- ceiling( t$num_failed / ( t$num_failed + 1 ) ) |
| t$num_planned <- 1 |
| |
| fileData <- aggregate( t$num_failed, by=list( Category=t$build ), FUN=sum ) |
| colnames( fileData ) <- c( "build", "num_failed" ) |
| |
| fileData$num_planned <- ( aggregate( t$num_planned, by=list( Category=t$build ), FUN=sum ) )$x |
| fileData$num_passed <- fileData$num_planned - fileData$num_failed |
| |
| print(fileData) |
| |
| # -------------------- |
| # Construct Data Frame |
| # -------------------- |
| # |
| |
| dataFrame <- melt( subset( fileData, select=c( "num_failed", "num_passed", "num_planned" ) ) ) |
| dataFrame$build <- fileData$build |
| colnames( dataFrame ) <- c( "status", "results", "build" ) |
| |
| dataFrame$num_failed <- fileData$num_failed |
| dataFrame$num_passed <- fileData$num_passed |
| dataFrame$num_planned <- fileData$num_planned |
| dataFrame$iterative <- seq( 1, nrow( fileData ), by = 1 ) |
| |
| print( "Data Frame Results:" ) |
| print( dataFrame ) |
| |
| # ********************************************************** |
| # STEP 3: Generate graphs. |
| # ********************************************************** |
| |
| print( "**********************************************************" ) |
| print( "STEP 3: Generate Graph." ) |
| print( "**********************************************************" ) |
| |
| # ------------------- |
| # Main Plot Generated |
| # ------------------- |
| |
| print( "Creating main plot." ) |
| # Create the primary plot here. |
| # ggplot contains the following arguments: |
| # - data: the data frame that the graph will be based off of |
| # - aes: the asthetics of the graph which require: |
| # - x: x-axis values (usually iterative, but it will become build # later) |
| # - y: y-axis values (usually tests) |
| # - color: the category of the colored lines (usually status of test) |
| |
| mainPlot <- ggplot( data = dataFrame, aes( x = iterative, |
| y = results, |
| color = status ) ) |
| |
| # ------------------- |
| # Main Plot Formatted |
| # ------------------- |
| |
| print( "Formatting main plot." ) |
| |
| # geom_ribbon is used so that there is a colored fill below the lines. These values shouldn't be changed. |
| failedColor <- geom_ribbon( aes( ymin = 0, |
| ymax = dataFrame$num_failed ), |
| fill = "#ff0000", |
| linetype = 0, |
| alpha = 0.07 ) |
| |
| passedColor <- geom_ribbon( aes( ymin = 0, |
| ymax = dataFrame$num_passed ), |
| fill = "#0083ff", |
| linetype = 0, |
| alpha = 0.05 ) |
| |
| plannedColor <- geom_ribbon( aes( ymin = 0, |
| ymax = dataFrame$num_planned ), |
| fill = "#000000", |
| linetype = 0, |
| alpha = 0.01 ) |
| |
| # Colors for the lines |
| lineColors <- scale_color_manual( values=c( "#ff0000", # fail |
| "#0083ff", # pass |
| "#000000"), |
| labels = c( "Containing Failures", |
| "No Failures", |
| "Total Built" ) ) # planned |
| |
| # ------------------------------ |
| # Fundamental Variables Assigned |
| # ------------------------------ |
| |
| print( "Generating fundamental graph data." ) |
| |
| theme_set( theme_grey( base_size = 26 ) ) # set the default text size of the graph. |
| |
| xScaleConfig <- scale_x_continuous( breaks = dataFrame$iterative, |
| label = dataFrame$build ) |
| yScaleConfig <- scale_y_continuous( breaks = seq( 0, max( dataFrame$results ), |
| by = ceiling( max( dataFrame$results ) / 10 ) ) ) |
| |
| xLabel <- xlab( "Build Number" ) |
| yLabel <- ylab( "Tests" ) |
| |
| imageWidth <- 15 |
| imageHeight <- 10 |
| imageDPI <- 200 |
| |
| # Set other graph configurations here. |
| theme <- theme( plot.title = element_text( hjust = 0.5, size = 32, face ='bold' ), |
| axis.text.x = element_text( angle = 0, size = 14 ), |
| legend.position = "bottom", |
| legend.text = element_text( size = 22 ), |
| legend.title = element_blank(), |
| legend.key.size = unit( 1.5, 'lines' ) ) |
| |
| title <- ggtitle( title ) |
| |
| # Store plot configurations as 1 variable |
| fundamentalGraphData <- mainPlot + |
| plannedColor + |
| passedColor + |
| failedColor + |
| xScaleConfig + |
| yScaleConfig + |
| xLabel + |
| yLabel + |
| theme + |
| title + |
| lineColors |
| |
| # ---------------------------- |
| # Generating Line Graph Format |
| # ---------------------------- |
| |
| print( "Generating line graph." ) |
| |
| lineGraphFormat <- geom_line( size = 1.1 ) |
| pointFormat <- geom_point( size = 3 ) |
| |
| result <- fundamentalGraphData + |
| lineGraphFormat + |
| pointFormat |
| |
| # ----------------------- |
| # Exporting Graph to File |
| # ----------------------- |
| |
| print( paste( "Saving result graph to", outputFile ) ) |
| |
| tryCatch( ggsave( outputFile, |
| width = imageWidth, |
| height = imageHeight, |
| dpi = imageDPI ), |
| error = function( e ){ |
| print( "[ERROR] There was a problem saving the graph due to a graph formatting exception. Error dump:" ) |
| print( e ) |
| quit( status = 1 ) |
| } |
| ) |
| |
| print( paste( "[SUCCESS] Successfully wrote result graph out to", outputFile ) ) |
| quit( status = 0 ) |