TestON/JenkinsFile/wikiGraphRScripts/trendMultipleTests.R - OnosSystemTest - Gitiles

 # 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/>.
 #
 # Example script:
 # FUNC Test Results Trend (https://jenkins.onosproject.org/view/QA/job/postjob-VM/lastSuccessfulBuild/artifact/FUNC_master_overview.jpg):
 # Rscript trendMultipleTests.R <url> <port> <username> <pass> FUNC master "FUNCflow,FUNCformCluster,FUNCgroup,FUNCintent,FUNCintentRest,FUNCipv6Intent,FUNCnetCfg,FUNCnetconf,FUNCoptical,FUNCovsdbtest" 20 /path/to/save/directory/

 # **********************************************************
 # STEP 1: Data management.
 # **********************************************************

 print( "**********************************************************" )
 print( "STEP 1: Data management." )
 print( "**********************************************************" )

 tests_to_include <- 7
 builds_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." )

 args <- commandArgs( trailingOnly=TRUE )

 if ( length( args ) != save_directory ){
     specialArgs <- c(  "tests-to-include-(as-one-string)",
                        "builds-to-show" )
     usage( "trendMultipleTests.R", specialArgs )
     quit( status = 1 )
 }

 # -------------------------------
 # Create Title and Graph Filename
 # -------------------------------

 print( "Creating title of graph." )

 title <- paste( args[ graph_title ],
                 " Test Results Trend - ",
                 args[ branch_name ],
                 " \n Results of Last ",
                 args[ builds_to_show ],
                 " Nightly Builds",
                 sep="" )

 print( "Creating graph filename." )

 outputFile <- paste( args[ save_directory ],
                      args[ graph_title ],
                      "_",
                      args[ branch_name ],
                      "_overview.jpg",
                      sep="" )

 # ------------------
 # 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." )

 command <- generateMultiTestMultiBuildSQLCommand( args[ branch_name ],
                                                   args[ tests_to_include ],
                                                   args[ builds_to_show ] )

 dbResult <- retrieveData( con, command )
 maxBuild <- max( dbResult[ 'build' ] ) - strtoi( args[ builds_to_show ] )
 dbResult <- dbResult[ which( dbResult[,4] > maxBuild ), ]

 # **********************************************************
 # 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 = webColor( "red" ),
                                  linetype = 0,
                                  alpha = 0.07 )

 passedColor <- geom_ribbon( aes( ymin = 0,
                                  ymax = dataFrame$num_passed ),
                                  fill = webColor( "light_blue" ),
                                  linetype = 0,
                                  alpha = 0.05 )

 plannedColor <- geom_ribbon( aes( ymin = 0,
                                   ymax = dataFrame$num_planned ),
                                   fill = webColor( "black" ),
                                   linetype = 0,
                                   alpha = 0.01 )

 # Colors for the lines
 lineColors <- scale_color_manual( values=c( webColor( "red" ),
                                             webColor( "light_blue" ),
                                             webColor( "black" )),
                                   labels = c( "Containing Failures",
                                               "No Failures",
                                               "Total Built" ) )

 # ------------------------------
 # Fundamental Variables Assigned
 # ------------------------------

 print( "Generating fundamental graph data." )

 defaultTextSize()

 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" )

 theme <- graphTheme()

 title <- labs( title = title, subtitle = lastUpdatedLabel() )

 # 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
 # -----------------------

 saveGraph( outputFile )
	# 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/>.
	#
	# Example script:
	# FUNC Test Results Trend (https://jenkins.onosproject.org/view/QA/job/postjob-VM/lastSuccessfulBuild/artifact/FUNC_master_overview.jpg):
	# Rscript trendMultipleTests.R <url> <port> <username> <pass> FUNC master "FUNCflow,FUNCformCluster,FUNCgroup,FUNCintent,FUNCintentRest,FUNCipv6Intent,FUNCnetCfg,FUNCnetconf,FUNCoptical,FUNCovsdbtest" 20 /path/to/save/directory/

	# **********************************************************
	# STEP 1: Data management.
	# **********************************************************

	print( "**********************************************************" )
	print( "STEP 1: Data management." )
	print( "**********************************************************" )

	tests_to_include <- 7
	builds_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." )

	args <- commandArgs( trailingOnly=TRUE )

	if ( length( args ) != save_directory ){
	specialArgs <- c( "tests-to-include-(as-one-string)",
	"builds-to-show" )
	usage( "trendMultipleTests.R", specialArgs )
	quit( status = 1 )
	}

	# -------------------------------
	# Create Title and Graph Filename
	# -------------------------------

	print( "Creating title of graph." )

	title <- paste( args[ graph_title ],
	" Test Results Trend - ",
	args[ branch_name ],
	" \n Results of Last ",
	args[ builds_to_show ],
	" Nightly Builds",
	sep="" )

	print( "Creating graph filename." )

	outputFile <- paste( args[ save_directory ],
	args[ graph_title ],
	"_",
	args[ branch_name ],
	"_overview.jpg",
	sep="" )

	# ------------------
	# 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." )

	command <- generateMultiTestMultiBuildSQLCommand( args[ branch_name ],
	args[ tests_to_include ],
	args[ builds_to_show ] )

	dbResult <- retrieveData( con, command )
	maxBuild <- max( dbResult[ 'build' ] ) - strtoi( args[ builds_to_show ] )
	dbResult <- dbResult[ which( dbResult[,4] > maxBuild ), ]

	# **********************************************************
	# 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 = webColor( "red" ),
	linetype = 0,
	alpha = 0.07 )

	passedColor <- geom_ribbon( aes( ymin = 0,
	ymax = dataFrame$num_passed ),
	fill = webColor( "light_blue" ),
	linetype = 0,
	alpha = 0.05 )

	plannedColor <- geom_ribbon( aes( ymin = 0,
	ymax = dataFrame$num_planned ),
	fill = webColor( "black" ),
	linetype = 0,
	alpha = 0.01 )

	# Colors for the lines
	lineColors <- scale_color_manual( values=c( webColor( "red" ),
	webColor( "light_blue" ),
	webColor( "black" )),
	labels = c( "Containing Failures",
	"No Failures",
	"Total Built" ) )

	# ------------------------------
	# Fundamental Variables Assigned
	# ------------------------------

	print( "Generating fundamental graph data." )

	defaultTextSize()

	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" )

	theme <- graphTheme()

	title <- labs( title = title, subtitle = lastUpdatedLabel() )

	# 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
	# -----------------------

	saveGraph( outputFile )