TestON/JenkinsFile/scripts/SCPFscaleTopo.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/>.
 #
 # If you have any questions, or if you don't understand R,
 # please contact Jeremy Ronquillo: j_ronquillo@u.pacific.edu

 # **********************************************************
 # STEP 1: File management.
 # **********************************************************

 print( "STEP 1: File management." )

 # Command line arguments are read.
 print( "Reading commmand-line args." )
 args <- commandArgs( trailingOnly=TRUE )

 # Import libraries to be used for graphing and organizing data, respectively.
 # Find out more about ggplot2: https://github.com/tidyverse/ggplot2
 #                     reshape2: https://github.com/hadley/reshape
 print( "Importing libraries." )
 library( ggplot2 )
 library( reshape2 )
 library( RPostgreSQL )    # For databases

 # Check if sufficient args are provided.
 if ( is.na( args[ 7 ] ) ){
     print( "Usage: Rscript SCPFgraphGenerator <database-host> <database-port> <database-user-id> <database-password> <test-name> <branch-name> <directory-to-save-graphs>" )
     q()  # basically exit(), but in R
 }

 # paste() is used to concatenate strings
 outputFile <- paste( args[ 7 ], args[ 5 ], sep="" )
 outputFile <- paste( outputFile, args[ 6 ], sep="_" )
 outputFile <- paste( outputFile, "_graph.jpg", sep="" )

 print( "Reading from databases." )

 con <- dbConnect( dbDriver( "PostgreSQL" ), dbname="onostest", host=args[ 1 ], port=strtoi( args[ 2 ] ), user=args[ 3 ],password=args[ 4 ] )

 command  <- paste( "SELECT * FROM scale_topo_latency_details WHERE branch = '", args[ 6 ], sep = "" )
 command <- paste( command, "' AND date IN ( SELECT MAX( date ) FROM scale_topo_latency_details WHERE branch = '", sep = "" )
 command <- paste( command, args[ 6 ], sep = "" )
 command <- paste( command, "' ) ", sep="" )

 print( paste( "Sending SQL command:", command ) )

 fileData <- dbGetQuery( con, command )

 title <- paste( args[ 5 ], args[ 6 ], sep="_" )

 # **********************************************************
 # STEP 2: Organize data.
 # **********************************************************

 print( "STEP 2: Organize data." )

 # Create lists c() and organize data into their corresponding list.
 print( "Sorting data." )
 avgs <- c( fileData[ 'last_role_request_to_last_topology' ], fileData[ 'last_connection_to_last_role_request' ], fileData[ 'first_connection_to_last_connection' ] )

 # Parse lists into data frames.
 dataFrame <- melt( avgs )              # This is where reshape2 comes in. Avgs list is converted to data frame
 dataFrame$scale <- fileData$scale      # Add node scaling to the data frame.
 colnames( dataFrame ) <- c( "s", "type", "scale")


 # Format data frame so that the data is in the same order as it appeared in the file.
 dataFrame$type <- as.character( dataFrame$type )
 dataFrame$type <- factor( dataFrame$type, levels=unique( dataFrame$type ) )
 dataFrame$iterative <- seq( 1, nrow( fileData ), by = 1 )

 dataFrame <- na.omit( dataFrame )   # Omit any data that doesn't exist

 sum <- fileData[ 'last_role_request_to_last_topology' ] + fileData[ 'last_connection_to_last_role_request' ] + fileData[ 'first_connection_to_last_connection' ]

 print( "Data Frame Results:" )
 print( dataFrame )

 # **********************************************************
 # STEP 3: Generate graphs.
 # **********************************************************

 print( "STEP 3: Generate graphs." )

 # 1. Graph fundamental data is generated first.
 #    These are variables that apply to all of the graphs being generated, regardless of type.
 #
 # 2. Type specific graph data is generated.
 #
 # 3. Generate and save the graphs.
 #      Graphs are saved to the filename above, in the directory provided in command line args

 print( "Generating fundamental graph data." )

 theme_set( theme_grey( base_size = 20 ) )   # set the default text size of the graph.

 # 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 node scaling)
 #        - y: y-axis values (usually time in milliseconds)
 #        - fill: the category of the colored side-by-side bars (usually type)
 mainPlot <- ggplot( data = dataFrame, aes( x = iterative, y = s, fill = type ) )

 # Formatting the plot
 width <- 0.6  # Width of the bars.
 xScaleConfig <- scale_x_continuous( breaks = dataFrame$iterative, label = dataFrame$scale )
 xLabel <- xlab( "Scale" )
 yLabel <- ylab( "Latency (s)" )
 fillLabel <- labs( fill="Type" )
 chartTitle <- paste( "Scale Topology Latency Test" )
 theme <- theme( plot.title=element_text( hjust = 0.5, size = 28, face='bold' ) )
 values <- geom_text( aes( x=dataFrame$iterative, y=sum + 0.02 * max( sum ), label = format( sum, big.mark = ",", scientific = FALSE ), fontface = "bold" ) )

 # Store plot configurations as 1 variable
 fundamentalGraphData <- mainPlot + xScaleConfig + xLabel + yLabel + fillLabel + theme + values

 print( "Generating bar graph." )
 barGraphFormat <- geom_bar( stat = "identity", width = width )
 title <- ggtitle( paste( chartTitle, "" ) )
 result <- fundamentalGraphData + barGraphFormat + title

 # Save graph to file
 print( paste( "Saving bar chart to", outputFile ) )
 ggsave( outputFile, width = 10, height = 6, dpi = 200 )
 print( paste( "Successfully wrote bar chart out to", 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/>.
	#
	# If you have any questions, or if you don't understand R,
	# please contact Jeremy Ronquillo: j_ronquillo@u.pacific.edu

	# **********************************************************
	# STEP 1: File management.
	# **********************************************************

	print( "STEP 1: File management." )

	# Command line arguments are read.
	print( "Reading commmand-line args." )
	args <- commandArgs( trailingOnly=TRUE )

	# Import libraries to be used for graphing and organizing data, respectively.
	# Find out more about ggplot2: https://github.com/tidyverse/ggplot2
	# reshape2: https://github.com/hadley/reshape
	print( "Importing libraries." )
	library( ggplot2 )
	library( reshape2 )
	library( RPostgreSQL ) # For databases

	# Check if sufficient args are provided.
	if ( is.na( args[ 7 ] ) ){
	print( "Usage: Rscript SCPFgraphGenerator <database-host> <database-port> <database-user-id> <database-password> <test-name> <branch-name> <directory-to-save-graphs>" )
	q() # basically exit(), but in R
	}

	# paste() is used to concatenate strings
	outputFile <- paste( args[ 7 ], args[ 5 ], sep="" )
	outputFile <- paste( outputFile, args[ 6 ], sep="_" )
	outputFile <- paste( outputFile, "_graph.jpg", sep="" )

	print( "Reading from databases." )

	con <- dbConnect( dbDriver( "PostgreSQL" ), dbname="onostest", host=args[ 1 ], port=strtoi( args[ 2 ] ), user=args[ 3 ],password=args[ 4 ] )

	command <- paste( "SELECT * FROM scale_topo_latency_details WHERE branch = '", args[ 6 ], sep = "" )
	command <- paste( command, "' AND date IN ( SELECT MAX( date ) FROM scale_topo_latency_details WHERE branch = '", sep = "" )
	command <- paste( command, args[ 6 ], sep = "" )
	command <- paste( command, "' ) ", sep="" )

	print( paste( "Sending SQL command:", command ) )

	fileData <- dbGetQuery( con, command )

	title <- paste( args[ 5 ], args[ 6 ], sep="_" )

	# **********************************************************
	# STEP 2: Organize data.
	# **********************************************************

	print( "STEP 2: Organize data." )

	# Create lists c() and organize data into their corresponding list.
	print( "Sorting data." )
	avgs <- c( fileData[ 'last_role_request_to_last_topology' ], fileData[ 'last_connection_to_last_role_request' ], fileData[ 'first_connection_to_last_connection' ] )

	# Parse lists into data frames.
	dataFrame <- melt( avgs ) # This is where reshape2 comes in. Avgs list is converted to data frame
	dataFrame$scale <- fileData$scale # Add node scaling to the data frame.
	colnames( dataFrame ) <- c( "s", "type", "scale")


	# Format data frame so that the data is in the same order as it appeared in the file.
	dataFrame$type <- as.character( dataFrame$type )
	dataFrame$type <- factor( dataFrame$type, levels=unique( dataFrame$type ) )
	dataFrame$iterative <- seq( 1, nrow( fileData ), by = 1 )

	dataFrame <- na.omit( dataFrame ) # Omit any data that doesn't exist

	sum <- fileData[ 'last_role_request_to_last_topology' ] + fileData[ 'last_connection_to_last_role_request' ] + fileData[ 'first_connection_to_last_connection' ]

	print( "Data Frame Results:" )
	print( dataFrame )

	# **********************************************************
	# STEP 3: Generate graphs.
	# **********************************************************

	print( "STEP 3: Generate graphs." )

	# 1. Graph fundamental data is generated first.
	# These are variables that apply to all of the graphs being generated, regardless of type.
	#
	# 2. Type specific graph data is generated.
	#
	# 3. Generate and save the graphs.
	# Graphs are saved to the filename above, in the directory provided in command line args

	print( "Generating fundamental graph data." )

	theme_set( theme_grey( base_size = 20 ) ) # set the default text size of the graph.

	# 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 node scaling)
	# - y: y-axis values (usually time in milliseconds)
	# - fill: the category of the colored side-by-side bars (usually type)
	mainPlot <- ggplot( data = dataFrame, aes( x = iterative, y = s, fill = type ) )

	# Formatting the plot
	width <- 0.6 # Width of the bars.
	xScaleConfig <- scale_x_continuous( breaks = dataFrame$iterative, label = dataFrame$scale )
	xLabel <- xlab( "Scale" )
	yLabel <- ylab( "Latency (s)" )
	fillLabel <- labs( fill="Type" )
	chartTitle <- paste( "Scale Topology Latency Test" )
	theme <- theme( plot.title=element_text( hjust = 0.5, size = 28, face='bold' ) )
	values <- geom_text( aes( x=dataFrame$iterative, y=sum + 0.02 * max( sum ), label = format( sum, big.mark = ",", scientific = FALSE ), fontface = "bold" ) )

	# Store plot configurations as 1 variable
	fundamentalGraphData <- mainPlot + xScaleConfig + xLabel + yLabel + fillLabel + theme + values

	print( "Generating bar graph." )
	barGraphFormat <- geom_bar( stat = "identity", width = width )
	title <- ggtitle( paste( chartTitle, "" ) )
	result <- fundamentalGraphData + barGraphFormat + title

	# Save graph to file
	print( paste( "Saving bar chart to", outputFile ) )
	ggsave( outputFile, width = 10, height = 6, dpi = 200 )
	print( paste( "Successfully wrote bar chart out to", outputFile ) )