##############################################################################################

#

# CreateImageDiffPlots

# 

# R script generates collection of nine plots that display the distributions of  populations of 

# three elevation pixel pairs in proximity to the border between ASTER and STRM data in mosaic 

# images# under development for the Environment and Organisms project.

# 

#

# Inputs: 

#   1) Comma Separated Value (CSV) table containing randomly-sampled elevation value pairs,

#      extracted from ASTER/CGIAR mosaic and CDEM images, created by the R script: makeImagePairTable.r

#      Note: At present, be sure that this file has been sorted by column 1 (ColumnID) in Excel

#      before using in this program. 

#      NOTE: This filename is set in the body of the script.

#

#   2) sampling factor: integer (range=1 to number of recors in input table. Determines

#      the size of randomly-selected sampe of total table record 'triplets' (north, border,

#      and south) rows of each column sample) to be displayed in the plots: 

#           sampling factor = 1  : plot every table record

#                             10 : plot a random sample containing 1/10th of records

#                            100 : plot random sample containing 1/100th of records.

#   3) JpgPlotFileFlag: Set to TRUE to have *individual* plots written to JPG files.

#

# To run:

#

#  1) place this file and the input file "tableForMark4000_5_8_SortColID.csv" in folder

#  2) start R

#  3) > source("CreateImageDiffPlotsOverlayNewPlots.r")

#  4) > CreateImageDiffPlots(sampling factor, JpegFlag)

#     < press <cr> key to view plots sequentially

#  

# TODO: add symbol legend to each plot.

# Author: Rick Reeves, NCEAS

# May 14, 2011

# May 17, 2011: This version generates 'delta scatterplots' specified by Mark and Jim.

# May 18, 2011: If JpgPlotFlag set, write individual plot files to JPG files.

##############################################################################################

CreateImageDiffPlots <- function(plotSampFact = 1,JpgPlotFileFlag = TRUE)

{

# Check plotSampleFact range

   if (plotSampFact < 1)

      plotSampFact = 1

# Read input table that was sorted OFFLINE in Excel on the first column (ColumnID)

   pointTable <-read.csv("pixelPairs36000_5_8_TS.csv")

# Table created by randomly sampling from two superimposed 

# image: 

#  1) DOM mosaic image comprised of ASTER and SRTM components.

#  2) 'Baseline' Canadian DEM (CDEM) image.

# 

# The input table contains three rows for each randomly-selected

# pixel pair from both images. Each row contains two pixel pairs,

# the first pair drawn from the image mosaic, the second pair

# drawn from the CDEM image: 

#   First pair: North pixel, South pixel (ASTER/SRTM mosaic)

#   Second pair: North pixel, South pixel (CDEM)

#

#  The first row of each 'triplet' contains pixel pairs North of border,

#  The second row contains pixel pairs spanning  border,

#  The third row contains pixel pairs South of border,

#

# This script generates a series of plots that display

# differences between:

#    1) The mosaic and CDEM images

#    2) Image pixels on and away from the ASTER / SRTM boundary.

# 

   northRowIndexes = seq(from=1, to=(nrow(pointTable) - 3),by=3)

   borderRowIndexes = seq(from=2, to=(nrow(pointTable) - 1),by=3)   

   southRowIndexes = seq(from=3, to=(nrow(pointTable)),by=3)

#

# calculate and append the difference between elevations

# and CDEM

# these lines create the inputs for differnce image plots for each of three

# pixel pair subsets: North of border (All Aster), border (combo Aster/Srtm),

#                     South of border (all Srtm)

# 

# First, add the 'difference columns' to the entire table

#

   pointTable <-cbind(pointTable,(pointTable$elevNorth - pointTable$elevSouth))

   pointTable <-cbind(pointTable,(pointTable$cdemNorth - pointTable$cdemSouth))

   pointTable <-cbind(pointTable,(pointTable$elevNorth - pointTable$cdemNorth))

   pointTable <-cbind(pointTable,(pointTable$elevSouth - pointTable$cdemSouth))

#   

   colnames(pointTable)[6] <- "diffMosaicNorthSouth"

   colnames(pointTable)[7] <- "diffCDEMNorthSouth"

   colnames(pointTable)[8] <- "diffNorthMosaicCDEM"

   colnames(pointTable)[9] <- "diffSouthMosaicCDEM"   

# add a placeholder for the 'boundary' value, across each table

#  pointTable <-cbind(pointTable,(-1))

#  colnames(pointTable)[10] <- "deltaAcrossBorder"

# Difference between Mosaic (ASTER or CGIAR or border) 

# and CDEM elevation as pertentage of the mosaic elevation

   pointTable <-cbind(pointTable,(pointTable$diffNorthMosaicCDEM/pointTable$elevNorth * 100)) 

   pointTable <-cbind(pointTable,(pointTable$diffSouthMosaicCDEM/pointTable$elevSouth * 100)) 

   colnames(pointTable)[10] <- "magDiffMosaicCDEMNorthPct"

   colnames(pointTable)[11] <- "magDiffMosaicCDEMSouthPct"   

# For the plots, subdivide the table into three segments: 

#     rows north of border

#     rows crossing border

#     rows south of border

   northRowTblAll = pointTable[northRowIndexes,]

   borderRowTblAll = pointTable[borderRowIndexes,]

   southRowTblAll = pointTable[southRowIndexes,]

   subset <- 1:nrow(northRowTblAll)

   randSub <- sample(subset,as.integer(length(subset) / plotSampFact)) 

   northRowTbl <- northRowTblAll[randSub,]

   borderRowTbl <- borderRowTblAll[randSub,]

   southRowTbl <- southRowTblAll[randSub,]   

message("hit key to create each plot...")

browser()

# Three plotting characters used

   plotCh1 <- 17 # 'north' (aster) points

   plotCh2 <- 18 # 'border' (aster+srtm) points 

   plotCh3 <- 20 # 'south' (srtm) points

# NEW: Three plots: The difference between Mosaic and CDEM for pixels along

# each of three border edges: North (ASTER), Border, South (SRTM)

# for now, north, border, south have separate plots

# We need to tailor the plot 'triplet' X and Y axes to the dynamic ranges of all three data sets.

# Create values for the three 'delta across pixel boundaries' plots: 

#  1) Y-Axis: columnIDs 

#  2) Y-Axis: CDEM elevations

#  3) Y-Axis: 

   deltaBoundaryASTER <- northRowTbl$diffNorthMosaicCDEM - northRowTbl$diffSouthMosaicCDEM

   deltaBoundaryBorder <- borderRowTbl$diffNorthMosaicCDEM - borderRowTbl$diffSouthMosaicCDEM  

   deltaBoundarySRTM <- southRowTbl$diffNorthMosaicCDEM - southRowTbl$diffSouthMosaicCDEM   

   normDeltaBoundaryASTER <-  (deltaBoundaryASTER / northRowTbl$cdemNorth * 100)

   normDeltaBoundaryBorder <- (deltaBoundaryBorder / borderRowTbl$cdemNorth * 100)  

   normDeltaBoundarySRTM <-   (deltaBoundarySRTM / southRowTbl$cdemNorth * 100)

   par(mfrow=c(3,1)) # Create a set of three column multi-plots

   commonXAxis <- c(0,max(pointTable$ColumnID))   

   commonYAxis <- range(c(deltaBoundarySRTM,deltaBoundaryBorder,deltaBoundaryASTER),na.rm=TRUE)   

   xAxisLbl <- sprintf("M/SD: ASTER: %.2f / %.2f",mean(deltaBoundaryASTER,na.rm=TRUE),sd(deltaBoundaryASTER,na.rm=TRUE))

   plot(northRowTbl$ColumnID,deltaBoundaryASTER,xlim=commonXAxis, ylim=commonYAxis,main="Row Boundary Delta: ASTER",xlab=xAxisLbl,col="red",pch=plotCh1)

   xAxisLbl <- sprintf("M/SD: BORDER: %.2f / %.2f",mean(deltaBoundaryBorder,na.rm=TRUE),sd(deltaBoundaryBorder,na.rm=TRUE))

   plot(northRowTbl$ColumnID,deltaBoundaryBorder,xlim=commonXAxis, ylim=commonYAxis,main="Row Boundary Delta: Border",sub="E-W Col",xlab=xAxisLbl,col="darkgreen",pch=plotCh2)

   xAxisLbl <- sprintf("M/SD: SRTM: %.2f / %.2f",mean(deltaBoundarySRTM,na.rm=TRUE),sd(deltaBoundarySRTM,na.rm=TRUE))

   plot(northRowTbl$ColumnID,deltaBoundarySRTM,main="Boundary Delta: SRTM",xlim=commonXAxis, ylim=commonYAxis,xlab=xAxisLbl,col="blue",pch=plotCh3)

message("ColumnID-X-Axis is done")

browser()

#dev.new()

#   par(mfrow=c(3,1)) # Create a three column multi-plot pointTable$diffNorthMosaicCDEM/pointTable$elevNorth * 100))

   commonXAxis <- c(0,max(pointTable$cdemNorth))   

   commonYAxis <- range(c(deltaBoundarySRTM,deltaBoundaryBorder,deltaBoundaryASTER),na.rm=TRUE)   

   xAxisLbl <- sprintf("M/SD: ASTER: %.2f / %.2f",mean(deltaBoundaryASTER,na.rm=TRUE),sd(deltaBoundaryASTER,na.rm=TRUE))

   plot(northRowTbl$cdemNorth,deltaBoundaryASTER,xlim=commonXAxis, ylim=commonYAxis,main="Boundary Delta (CDEM Elev): ASTER",xlab=xAxisLbl,col="red",pch=plotCh1)

   xAxisLbl <- sprintf("M/SD: BORDER: %.2f / %.2f",mean(deltaBoundaryBorder,na.rm=TRUE),sd(deltaBoundaryBorder,na.rm=TRUE))

   plot(northRowTbl$cdemNorth,deltaBoundaryBorder,xlim=commonXAxis, ylim=commonYAxis,main="Boundary Delta (CDEM Elev): Border",sub="vs Elev",xlab=xAxisLbl,col="darkgreen",pch=plotCh2)

   xAxisLbl <- sprintf("M/SD: SRTM: %.2f / %.2f",mean(deltaBoundarySRTM,na.rm=TRUE),sd(deltaBoundarySRTM,na.rm=TRUE))

   plot(northRowTbl$cdemNorth,deltaBoundarySRTM,main="Boundary Delta (CDEM Elev): SRTM",xlim=commonXAxis, ylim=commonYAxis,xlab=xAxisLbl,col="blue",pch=plotCh3)

message("ColumnID-CDEM Elevation done")

browser()

   commonXAxis <- c(0,max(pointTable$cdemNorth))   

   commonYAxis <- range(c(normDeltaBoundarySRTM,normDeltaBoundaryBorder,normDeltaBoundaryASTER),na.rm=TRUE)   

   xAxisLbl <- sprintf("M/SD: ASTER: %.2f / %.2f",mean(normDeltaBoundaryASTER,na.rm=TRUE),sd(normDeltaBoundaryASTER,na.rm=TRUE))

   plot(northRowTbl$cdemNorth,normDeltaBoundaryASTER,xlim=commonXAxis, ylim=commonYAxis,main="Norm Bdry Delta (CDEM Elev): ASTER",xlab=xAxisLbl,col="red",pch=plotCh1)

   xAxisLbl <- sprintf("M/SD: BORDER: %.2f / %.2f",mean(normDeltaBoundaryBorder,na.rm=TRUE),sd(normDeltaBoundaryBorder,na.rm=TRUE))

   plot(northRowTbl$cdemNorth,normDeltaBoundaryBorder,xlim=commonXAxis, ylim=commonYAxis,main="Norm Bdry Delta (CDEM Elev): Border",sub="vs Elev",xlab=xAxisLbl,col="darkgreen",pch=plotCh2)

   xAxisLbl <- sprintf("M/SD: SRTM: %.2f / %.2f",mean(normDeltaBoundarySRTM,na.rm=TRUE),sd(normDeltaBoundarySRTM,na.rm=TRUE))

   plot(northRowTbl$cdemNorth,normDeltaBoundarySRTM,main="Norm Bdry Delta (CDEM Elev): SRTM",xlim=commonXAxis, ylim=commonYAxis,xlab=xAxisLbl,col="blue",pch=plotCh3)

message("NORMALIZED ColumnID-CDEM Elevation done")

browser()

   commonXAxis <- c(0,max(pointTable$ColumnID))   

   commonYAxis <- range(c(normDeltaBoundarySRTM,normDeltaBoundaryBorder,normDeltaBoundaryASTER),na.rm=TRUE)   

   xAxisLbl <- sprintf("M/SD: ASTER: %.2f / %.2f",mean(normDeltaBoundaryASTER,na.rm=TRUE),sd(normDeltaBoundaryASTER,na.rm=TRUE))

   plot(northRowTbl$ColumnID,normDeltaBoundaryASTER,xlim=commonXAxis, ylim=commonYAxis,main="Norm Bdry Delta: ASTER",xlab=xAxisLbl,col="red",pch=plotCh1)

   xAxisLbl <- sprintf("M/SD: BORDER: %.2f / %.2f",mean(normDeltaBoundaryBorder,na.rm=TRUE),sd(normDeltaBoundaryBorder,na.rm=TRUE))

   plot(northRowTbl$ColumnID,normDeltaBoundaryBorder,xlim=commonXAxis, ylim=commonYAxis,main="Norm Bdry Delta: Border",sub="E-W Col",xlab=xAxisLbl,col="darkgreen",pch=plotCh2)

   xAxisLbl <- sprintf("M/SD: SRTM: %.2f / %.2f",mean(normDeltaBoundarySRTM,na.rm=TRUE),sd(normDeltaBoundarySRTM,na.rm=TRUE))

   plot(northRowTbl$ColumnID,normDeltaBoundarySRTM,main="Norm Bdry Delta: SRTM",xlim=commonXAxis, ylim=commonYAxis,xlab=xAxisLbl,col="blue",pch=plotCh3)

message("NORMALIZED ColumnID-X-Axis is done...")

# if 'plot flag' is set, send the plots to a JPG file. 

if (JpgPlotFileFlag)

{

  message("creating JPG plot files...")

  browser()

jpeg(file="RowBoundaryDeltaColIDXAxisASTER.jpg")

   xAxisLbl <- sprintf("M/SD: ASTER: %.2f / %.2f",mean(deltaBoundaryASTER,na.rm=TRUE),sd(deltaBoundaryASTER,na.rm=TRUE))

   plot(northRowTbl$ColumnID,deltaBoundaryASTER,xlim=commonXAxis, ylim=commonYAxis,main="Row Boundary Delta: ASTER",xlab=xAxisLbl,col="red",pch=plotCh1)

dev.off()

jpeg(file="RowBoundaryDeltaColIDXAxisBORDER.jpg")   

   xAxisLbl <- sprintf("M/SD: BORDER: %.2f / %.2f",mean(deltaBoundaryBorder,na.rm=TRUE),sd(deltaBoundaryBorder,na.rm=TRUE))

   plot(northRowTbl$ColumnID,deltaBoundaryBorder,xlim=commonXAxis, ylim=commonYAxis,main="Row Boundary Delta: Border",sub="E-W Col",xlab=xAxisLbl,col="darkgreen",pch=plotCh2)

dev.off()

jpeg(file="RowBoundaryDeltaColIDXAxisSRTM.jpg")   

   xAxisLbl <- sprintf("M/SD: SRTM: %.2f / %.2f",mean(deltaBoundarySRTM,na.rm=TRUE),sd(deltaBoundarySRTM,na.rm=TRUE))

   plot(northRowTbl$ColumnID,deltaBoundarySRTM,main="Row Boundary Delta: SRTM",xlim=commonXAxis, ylim=commonYAxis,xlab=xAxisLbl,col="blue",pch=plotCh3)

message("ColumnID-X-Axis plots are  done")

#dev.new()

   commonXAxis <- c(0,max(pointTable$cdemNorth))   

   commonYAxis <- range(c(deltaBoundarySRTM,deltaBoundaryBorder,deltaBoundaryASTER),na.rm=TRUE)   

jpeg(file="RowBoundaryDeltaCDEMElevXAxisASTER.jpg")

   xAxisLbl <- sprintf("M/SD: ASTER: %.2f / %.2f",mean(deltaBoundaryASTER,na.rm=TRUE),sd(deltaBoundaryASTER,na.rm=TRUE))

   plot(northRowTbl$cdemNorth,deltaBoundaryASTER,xlim=commonXAxis, ylim=commonYAxis,main="Boundary Delta (CDEM Elev): ASTER",xlab=xAxisLbl,col="red",pch=plotCh1)

dev.off()

jpeg(file="RowBoundaryDeltaCDEMElevXAxisBORDER.jpg")

   xAxisLbl <- sprintf("M/SD: BORDER: %.2f / %.2f",mean(deltaBoundaryBorder,na.rm=TRUE),sd(deltaBoundaryBorder,na.rm=TRUE))

   plot(northRowTbl$cdemNorth,deltaBoundaryBorder,xlim=commonXAxis, ylim=commonYAxis,main="Boundary Delta (CDEM Elev): Border",sub="vs Elev",xlab=xAxisLbl,col="darkgreen",pch=plotCh2)

dev.off()

jpeg(file="RowBoundaryDeltaCDEMElevXAxisCDEM.jpg")

   xAxisLbl <- sprintf("M/SD: SRTM: %.2f / %.2f",mean(deltaBoundarySRTM,na.rm=TRUE),sd(deltaBoundarySRTM,na.rm=TRUE))

   plot(northRowTbl$cdemNorth,deltaBoundarySRTM,main="Boundary Delta (CDEM Elev): SRTM",xlim=commonXAxis, ylim=commonYAxis,xlab=xAxisLbl,col="blue",pch=plotCh3)

dev.off()

message("ColumnID-CDEM Elevation Plots are done")

#browser()

   commonXAxis <- c(0,max(pointTable$cdemNorth))   

   commonYAxis <- range(c(normDeltaBoundarySRTM,normDeltaBoundaryBorder,normDeltaBoundaryASTER),na.rm=TRUE)   

jpeg(file="NormRowBoundaryDeltaColIDXAxisASTER.jpg")

   xAxisLbl <- sprintf("M/SD: ASTER: %.2f / %.2f",mean(normDeltaBoundaryASTER,na.rm=TRUE),sd(normDeltaBoundaryASTER,na.rm=TRUE))

   plot(northRowTbl$cdemNorth,normDeltaBoundaryASTER,xlim=commonXAxis, ylim=commonYAxis,main="Norm Bdry Delta (CDEM Elev): ASTER",xlab=xAxisLbl,col="red",pch=plotCh1)

dev.off()

jpeg(file="NormRowBoundaryDeltaColIDXAxisBORDER.jpg")

   xAxisLbl <- sprintf("M/SD: BORDER: %.2f / %.2f",mean(normDeltaBoundaryBorder,na.rm=TRUE),sd(normDeltaBoundaryBorder,na.rm=TRUE))

   plot(northRowTbl$cdemNorth,normDeltaBoundaryBorder,xlim=commonXAxis, ylim=commonYAxis,main="Norm Bdry Delta (CDEM Elev): Border",sub="vs Elev",xlab=xAxisLbl,col="darkgreen",pch=plotCh2)

dev.off()

jpeg(file="NormRowBoundaryDeltaColIDXAxisSRTM.jpg")

   xAxisLbl <- sprintf("M/SD: SRTM: %.2f / %.2f",mean(normDeltaBoundarySRTM,na.rm=TRUE),sd(normDeltaBoundarySRTM,na.rm=TRUE))

   plot(northRowTbl$cdemNorth,normDeltaBoundarySRTM,main="Norm Bdry Delta (CDEM Elev): SRTM",xlim=commonXAxis, ylim=commonYAxis,xlab=xAxisLbl,col="blue",pch=plotCh3)

dev.off()

message("NORMALIZED ColumnID-CDEM Elevation Plots are done")

browser()

   commonXAxis <- c(0,max(pointTable$ColumnID))   

   commonYAxis <- range(c(normDeltaBoundarySRTM,normDeltaBoundaryBorder,normDeltaBoundaryASTER),na.rm=TRUE)   

jpeg(file="NormRowBoundaryDeltaCDEMElevXAxisASTER.jpg")   

   xAxisLbl <- sprintf("M/SD: ASTER: %.2f / %.2f",mean(normDeltaBoundaryASTER,na.rm=TRUE),sd(normDeltaBoundaryASTER,na.rm=TRUE))

   plot(northRowTbl$ColumnID,normDeltaBoundaryASTER,xlim=commonXAxis, ylim=commonYAxis,main="Norm Bdry Delta: ASTER",xlab=xAxisLbl,col="red",pch=plotCh1)

dev.off()

jpeg(file="NormRowBoundaryDeltaCDEMElevXAxisBORDER.jpg")

   xAxisLbl <- sprintf("M/SD: BORDER: %.2f / %.2f",mean(normDeltaBoundaryBorder,na.rm=TRUE),sd(normDeltaBoundaryBorder,na.rm=TRUE))

   plot(northRowTbl$ColumnID,normDeltaBoundaryBorder,xlim=commonXAxis, ylim=commonYAxis,main="Norm Bdry Delta: Border",sub="E-W Col",xlab=xAxisLbl,col="darkgreen",pch=plotCh2)

dev.off()

jpeg(file="NormRowBoundaryDeltaCDEMElevXAxisSRTM.jpg")

   xAxisLbl <- sprintf("M/SD: SRTM: %.2f / %.2f",mean(normDeltaBoundarySRTM,na.rm=TRUE),sd(normDeltaBoundarySRTM,na.rm=TRUE))

   plot(northRowTbl$ColumnID,normDeltaBoundarySRTM,main="Norm Bdry Delta: SRTM",xlim=commonXAxis, ylim=commonYAxis,xlab=xAxisLbl,col="blue",pch=plotCh3)

dev.off()   

message("NORMALIZED ColumnID-X-Axis Plot files have been created..")

}

message("...All plots created - hit key to delete them...")

browser()

graphics.off()

}