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gerrit.onosproject.org / OnosSystemTest / 1ecfd0a7355a8485c28d4c640231cc5db5dc9eac / . / TestON / JenkinsFile / wikiGraphRScripts / histogramMultipleTestGroups.R
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# Copyright 2018 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/>.
#
# Example script:
# ALL tests (https://jenkins.onosproject.org/view/QA/job/postjob-VM/lastSuccessfulBuild/artifact/ALL_master_build-latest_test-suite-summary.jpg):
# Rscript histogramMultipleTestGroups.R <url> <port> <username> <pass> ALL master "FUNCbgpls,FUNCflow,FUNCformCluster,FUNCgroup,FUNCintent,FUNCintentRest,FUNCipv6Intent,FUNCnetCfg,FUNCnetconf,FUNCoptical,FUNCovsdbtest,FUNCvirNetNB,HAbackupRecover,HAclusterRestart,HAfullNetPartition,HAkillNodes,HAsanity,HAscaling,HAsingleInstanceRestart,HAstopNodes,HAswapNodes,HAupgrade,HAupgradeRollback,PLATdockertest,USECASE_SdnipFunction,USECASE_SdnipFunctionCluster,VPLSBasic,VPLSfailsafe" latest /path/to/save/directory/
# **********************************************************
# 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 )
testsToInclude <- 7
build_to_show <- 8
save_directory <- 9
# ----------------
# Import Libraries
# ----------------
print( "Importing libraries." )
library( ggplot2 )
library( reshape2 )
library( RPostgreSQL )
source( "~/OnosSystemTest/TestON/JenkinsFile/wikiGraphRScripts/dependencies/saveGraph.R" )
source( "~/OnosSystemTest/TestON/JenkinsFile/wikiGraphRScripts/dependencies/fundamentalGraphData.R" )
source( "~/OnosSystemTest/TestON/JenkinsFile/wikiGraphRScripts/dependencies/initSQL.R" )
source( "~/OnosSystemTest/TestON/JenkinsFile/wikiGraphRScripts/dependencies/cliArgs.R" )
# -------------------
# Check CLI Arguments
# -------------------
print( "Verifying CLI args." )
if ( length( args ) != save_directory ){
specialArgs <- c( "tests-to-include-(as-one-string-sep-groups-by-semicolon-title-as-first-group-item-sep-by-dash)",
"build-to-show" )
usage( "histogramMultipleTestGroups.R", specialArgs )
quit( status = 1 )
}
# ------------------
# SQL Initialization
# ------------------
print( "Initializing SQL" )
con <- initSQL( args[ database_host ],
args[ database_port ],
args[ database_u_id ],
args[ database_pw ] )
# ---------------------
# Test Case SQL Command
# ---------------------
print( "Generating Test Case SQL command." )
sqlCommands <- generateGroupedTestSingleBuildSQLCommand( args[ branch_name ],
args[ testsToInclude ],
args[ build_to_show ] )
titles <- getTitlesFromGroupTest( args[ branch_name ],
args[ testsToInclude ] )
dbResults <- list()
i <- 1
for ( command in sqlCommands ){
dbResults[[i]] <- retrieveData( con, command )
i <- i + 1
}
print( "dbResult:" )
print( dbResults )
# -------------------------------
# Create Title and Graph Filename
# -------------------------------
print( "Creating title of graph." )
titlePrefix <- paste( args[ graph_title ], " ", sep="" )
if ( args[ graph_title ] == "ALL" ){
titlePrefix <- ""
}
if ( args[ build_to_show ] == "latest" ){
buildTitle <- "\nLatest Test Results"
filebuild_to_show <- "latest"
} else {
buildTitle <- paste( " \n Build #", args[ build_to_show ], sep="" )
filebuild_to_show <- args[ build_to_show ]
}
title <- paste( titlePrefix,
"Summary of Test Suites - ",
args[ branch_name ],
buildTitle,
sep="" )
print( "Creating graph filename." )
outputFile <- paste( args[ save_directory ],
args[ graph_title ],
"_",
args[ branch_name ],
"_build-",
filebuild_to_show,
"_test-suite-summary.jpg",
sep="" )
# **********************************************************
# STEP 2: Organize data.
# **********************************************************
print( "**********************************************************" )
print( "STEP 2: Organize Data." )
print( "**********************************************************" )
passNum <- list()
failNum <- list()
exeNum <- list()
skipNum <- list()
totalNum <- list()
passPercent <- list()
failPercent <- list()
exePercent <- list()
nonExePercent <- list()
actualPassPercent <- list()
actualFailPercent <- list()
appName <- c()
afpName <- c()
nepName <- c()
tmpPos <- c()
tmpCases <- c()
for ( i in 1:length( dbResults ) ){
t <- dbResults[[i]]
passNum[[i]] <- sum( t$num_passed )
failNum[[i]] <- sum( t$num_failed )
exeNum[[i]] <- passNum[[i]] + failNum[[i]]
totalNum[[i]] <- sum( t$num_planned )
skipNum[[i]] <- totalNum[[i]] - exeNum[[i]]
passPercent[[i]] <- passNum[[i]] / exeNum[[i]]
failPercent[[i]] <- failNum[[i]] / exeNum[[i]]
exePercent[[i]] <- exeNum[[i]] / totalNum[[i]]
nonExePercent[[i]] <- ( 1 - exePercent[[i]] ) * 100
actualPassPercent[[i]] <- passPercent[[i]] * exePercent[[i]] * 100
actualFailPercent[[i]] <- failPercent[[i]] * exePercent[[i]] * 100
appName <- c( appName, "Passed" )
afpName <- c( afpName, "Failed" )
nepName <- c( nepName, "Skipped/Unexecuted" )
tmpPos <- c( tmpPos, 100 - ( nonExePercent[[i]] / 2 ), actualPassPercent[[i]] + actualFailPercent[[i]] - ( actualFailPercent[[i]] / 2 ), actualPassPercent[[i]] - ( actualPassPercent[[i]] / 2 ) )
tmpCases <- c( tmpCases, skipNum[[i]], failNum[[i]], passNum[[i]] )
}
relativePosLength <- length( dbResults ) * 3
relativePos <- c()
relativeCases <- c()
for ( i in 1:3 ){
relativePos <- c( relativePos, tmpPos[ seq( i, relativePosLength, 3 ) ] )
relativeCases <- c( relativeCases, tmpCases[ seq( i, relativePosLength, 3 ) ] )
}
names( actualPassPercent ) <- appName
names( actualFailPercent ) <- afpName
names( nonExePercent ) <- nepName
labels <- paste( titles, "\n", totalNum, " Test Cases", sep="" )
# --------------------
# Construct Data Frame
# --------------------
print( "Constructing Data Frame" )
dataFrame <- melt( c( nonExePercent, actualFailPercent, actualPassPercent ) )
dataFrame$title <- seq( 1, length( dbResults ), by = 1 )
colnames( dataFrame ) <- c( "perc", "key", "suite" )
dataFrame$xtitles <- labels
dataFrame$relativePos <- relativePos
dataFrame$relativeCases <- relativeCases
dataFrame$valueDisplay <- c( paste( round( dataFrame$perc, digits = 2 ), "% - ", relativeCases, " Tests", sep="" ) )
dataFrame$key <- factor( dataFrame$key, levels=unique( dataFrame$key ) )
dataFrame$willDisplayValue <- dataFrame$perc > 15.0 / length( dbResults )
for ( i in 1:nrow( dataFrame ) ){
if ( relativeCases[[i]] == "1" ){
dataFrame[ i, "valueDisplay" ] <- c( paste( round( dataFrame$perc[[i]], digits = 2 ), "% - ", relativeCases[[i]], " Test", sep="" ) )
}
if ( !dataFrame[ i, "willDisplayValue" ] ){
dataFrame[ i, "valueDisplay" ] <- ""
}
}
print( "Data Frame Results:" )
print( dataFrame )
# **********************************************************
# STEP 3: Generate graphs.
# **********************************************************
print( "**********************************************************" )
print( "STEP 3: Generate Graph." )
print( "**********************************************************" )
# -------------------
# Main Plot Generated
# -------------------
print( "Creating main plot." )
mainPlot <- ggplot( data = dataFrame, aes( x = suite,
y = perc,
fill = key ) )
# ------------------------------
# Fundamental Variables Assigned
# ------------------------------
print( "Generating fundamental graph data." )
theme_set( theme_grey( base_size = 26 ) ) # set the default text size of the graph.
xScaleConfig <- scale_x_continuous( breaks = dataFrame$suite,
label = dataFrame$xtitles )
yScaleConfig <- scale_y_continuous( breaks = seq( 0, 100,
by = 10 ) )
xLabel <- xlab( "" )
yLabel <- ylab( "Total Test Cases (%)" )
theme <- graphTheme() + theme( axis.text.x = element_text( angle = 0, size = 25 - 1.25 * length( dbResults ) ) )
title <- labs( title = title, subtitle = lastUpdatedLabel() )
# Store plot configurations as 1 variable
fundamentalGraphData <- mainPlot +
xScaleConfig +
yScaleConfig +
xLabel +
yLabel +
theme +
title
# ---------------------------
# Generating Bar Graph Format
# ---------------------------
print( "Generating bar graph." )
unexecutedColor <- webColor( "gray" ) # Gray
failedColor <- webColor( "red" ) # Red
passedColor <- webColor( "green" ) # Green
colors <- scale_fill_manual( values=c( if ( "Skipped/Unexecuted" %in% dataFrame$key ){ unexecutedColor },
if ( "Failed" %in% dataFrame$key ){ failedColor },
if ( "Passed" %in% dataFrame$key ){ passedColor } ) )
barGraphFormat <- geom_bar( stat = "identity", width = 0.8 )
barGraphValues <- geom_text( aes( x = dataFrame$suite,
y = dataFrame$relativePos,
label = format( paste( dataFrame$valueDisplay ) ) ),
size = 15.50 / length( dbResults ) + 2.33, fontface = "bold" )
result <- fundamentalGraphData +
colors +
barGraphFormat +
barGraphValues
# -----------------------
# Exporting Graph to File
# -----------------------
saveGraph( outputFile ) # from saveGraph.R