Nothing
R/calcPerfDiNet.R
In TGS: Rapid Reconstruction of Time-Varying Gene Regulatory Networks
Defines functions
eval.wrt.known.gene.ias
calcPerfDiNet
#' Calculating performance metrics of the directed net 'inferredNet' w.r.t. the
#' directed net 'targetNet'.
#'
#' @param inferredNet directed net 'inferredNet'
#' @param targetNet directed net 'targetNet'
#' @param Result Matrix to store the results
#' @param n Number of nodes in each of the nets.
#'
#' @return the performance metrics
#'
# #' @examples
#' res<-calcPerfDiNet(matrix(c(1,0,1,1,1,1,1,0,1),nrow=3,ncol=3),
#' + matrix(c(0,1,0,1,1,1,1,0,1),nrow=3,ncol=3),
#' + matrix(nrow=1,ncol=11),3)
#'
#' @keywords internal
#' @noRd
calcPerfDiNet <-function(inferredNet, targetNet, Result, n) {
if(!base::is.matrix(inferredNet))
{
base::stop("Error in calcPerfDiNet. inferredNet is not a matrix")
}
if(!base::is.matrix(targetNet))
{
base::stop("Error in calcPerfDiNet. targetNet is not a matrix")
}
if(!base::is.matrix(Result))
{
base::stop("Error in calcPerfDiNet. Result is not a matrix")
}
TrPos = 0
TrNeg = 0
FlPos = 0
FlNeg = 0
for(i in 1:n)
{
for(j in 1:n)
{
if(inferredNet[i,j] == 1 )
{
if(inferredNet[i,j] == targetNet[i,j])
{
#True Positive
TrPos = TrPos + 1
}
else
{
FlPos = FlPos +1
}
}
if(inferredNet[i,j] == 0 )
{
if (inferredNet[i,j] == targetNet[i,j])
{
# True Negative
TrNeg = TrNeg + 1
}
else
{
FlNeg = FlNeg +1
}
}
}
}
#------------------------------------------------------------
# Begin: Calculate Performance Metrics
#------------------------------------------------------------
TPR <- TrPos/(TrPos + FlNeg)
FPR <- FlPos/(FlPos + TrNeg)
FDR <- FlPos/(FlPos + TrPos)
PPV <- TrPos/(TrPos + FlPos)
ACC <- (TrPos + TrNeg)/(TrPos + FlPos + TrNeg + FlNeg)
F <- 2 * PPV * TPR / (PPV + TPR)
MCC <- ((TrPos * TrNeg) - (FlNeg * FlPos)) / sqrt((TrPos + FlPos) * (TrPos + FlNeg) * (TrNeg + FlPos) * (TrNeg+FlNeg))
## Calculate AUC under ROC
# table <- minet::validate(inferredNet, targetNet)
# AUC <- minet::auc.roc(table)
#------------------------------------------------------------
# End: Calculate Performance Metrics
#------------------------------------------------------------
Result[1, 1] <- TrPos
Result[1, 2] <- TrNeg
Result[1, 3] <- FlPos
Result[1, 4] <- FlNeg
Result[1, 5] <- TPR
Result[1, 6] <- FPR
Result[1, 7] <- FDR
Result[1, 8] <- PPV
Result[1, 9] <- ACC
Result[1, 10] <- MCC
Result[1, 11] <- F
# Result[1,8] <- AUC
return (Result)
}
#' Accuracy of predicted directed gene reuglatory network adjacency matrix
#'
#' Given a predicted directed gene reuglatory network adjacency matrix, evaluate its
#' accuracy w.r.t. known gene-gene interactions.
#' @references
#' [1] Song, Le, Mladen Kolar, and Eric P. Xing. "KELLER: estimating time-varying interactions
#' between genes." Bioinformatics 25.12 (2009): i128-i136.
#'
#' @param di.net.adj.matrix predicted directed gene reuglatory network adjacency matrix
#'
#' @keywords internal
#' @noRd
eval.wrt.known.gene.ias <- function(di.net.adj.matrix) {
if(!base::is.matrix(di.net.adj.matrix))
{
base::stop("Error in eval.wrt.known.gene.ias di.net.adj.matrix is not a matrix")
}
di.net.adj.matrix['CycE', 'CycA']
di.net.adj.matrix['CycA', 'CycE']
di.net.adj.matrix['CycE', 'Rca1']
di.net.adj.matrix['Rca1', 'CycE']
di.net.adj.matrix['CycE', 'Dp']
di.net.adj.matrix['Dp', 'CycE']
# di.net.adj.matrix['Gint3', 'Got2']
# di.net.adj.matrix['Got2', 'Gint3']
di.net.adj.matrix['G.ialpha65A', 'G.oalpha47A']
di.net.adj.matrix['G.oalpha47A', 'G.ialpha65A']
di.net.adj.matrix['Hem', 'blow']
di.net.adj.matrix['blow', 'Hem']
di.net.adj.matrix['Ice', 'Ark']
di.net.adj.matrix['Ark', 'Ice']
di.net.adj.matrix['Jra', 'dnc']
di.net.adj.matrix['dnc', 'Jra']
di.net.adj.matrix['Nf1', 'dnc']
di.net.adj.matrix['dnc', 'Nf1']
di.net.adj.matrix['Pak', 'trio']
di.net.adj.matrix['trio', 'Pak']
di.net.adj.matrix['Sb', 'Rho1']
di.net.adj.matrix['Rho1', 'Sb']
di.net.adj.matrix['Snap', 'Syx1A']
di.net.adj.matrix['Syx1A', 'Snap']
di.net.adj.matrix['Src42A', 'ksr']
di.net.adj.matrix['ksr', 'Src42A']
di.net.adj.matrix['w', 'nej']
di.net.adj.matrix['nej', 'w']
di.net.adj.matrix['brk', 'tkv']
di.net.adj.matrix['tkv', 'brk']
di.net.adj.matrix['brm', 'N']
di.net.adj.matrix['N', 'brm']
di.net.adj.matrix['brm', 'shg']
di.net.adj.matrix['shg', 'brm']
di.net.adj.matrix['btl', 'stumps']
di.net.adj.matrix['stumps', 'btl']
di.net.adj.matrix['cact', 'dl']
di.net.adj.matrix['dl', 'cact']
di.net.adj.matrix['caps', 'chi']
di.net.adj.matrix['chi', 'caps']
di.net.adj.matrix['da', 'Dl']
di.net.adj.matrix['Dl', 'da']
di.net.adj.matrix['dally', 'sgl']
di.net.adj.matrix['sgl', 'dally']
di.net.adj.matrix['dl', 'Dif']
di.net.adj.matrix['Dif', 'dl']
di.net.adj.matrix['dom', 'E(z)']
di.net.adj.matrix['E(z)', 'dom']
di.net.adj.matrix['ea', 'Tl']
di.net.adj.matrix['Tl', 'ea']
di.net.adj.matrix['emc', 'bs']
di.net.adj.matrix['bs', 'emc']
di.net.adj.matrix['esc', 'E(z)']
di.net.adj.matrix['E(z)', 'esc']
di.net.adj.matrix['gl', 'peb']
di.net.adj.matrix['peb', 'gl']
di.net.adj.matrix['hep', 'p53']
di.net.adj.matrix['p53', 'hep']
di.net.adj.matrix['mam', 'wg']
di.net.adj.matrix['wg', 'mam']
di.net.adj.matrix['msn', 'Nrt']
di.net.adj.matrix['Nrt', 'msn']
di.net.adj.matrix['msn', 'dock']
di.net.adj.matrix['dock', 'msn']
di.net.adj.matrix['nej', 'th']
di.net.adj.matrix['th', 'nej']
di.net.adj.matrix['numb', 'Rca1']
di.net.adj.matrix['Rca1', 'numb']
di.net.adj.matrix['pbl', 'CycE']
di.net.adj.matrix['CycE', 'pbl']
di.net.adj.matrix['pbl', 'Src64B']
di.net.adj.matrix['Src64B', 'pbl']
di.net.adj.matrix['pbl', 'dl']
di.net.adj.matrix['dl', 'pbl']
di.net.adj.matrix['pbl', 'tum']
di.net.adj.matrix['tum', 'pbl']
di.net.adj.matrix['pnr', 'svr']
di.net.adj.matrix['svr', 'pnr']
di.net.adj.matrix['pros', 'Abl']
di.net.adj.matrix['Abl', 'pros']
di.net.adj.matrix['pros', 'pnt']
di.net.adj.matrix['pnt', 'pros']
di.net.adj.matrix['sdt', 'baz']
di.net.adj.matrix['baz', 'sdt']
di.net.adj.matrix['sno', 'Dl']
di.net.adj.matrix['Dl', 'sno']
di.net.adj.matrix['spen', 'ksr']
di.net.adj.matrix['ksr', 'spen']
di.net.adj.matrix['tsh', 'wg']
di.net.adj.matrix['wg', 'tsh']
di.net.adj.matrix['up', 'Mhc']
di.net.adj.matrix['Mhc', 'up']
}
Try the TGS package in your browser
Any scripts or data that you put into this service are public.
TGS documentation built on July 1, 2020, 10:23 p.m.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Defines functions eval.wrt.known.gene.ias calcPerfDiNet
#' Calculating performance metrics of the directed net 'inferredNet' w.r.t. the
#' directed net 'targetNet'.
#'
#' @param inferredNet directed net 'inferredNet'
#' @param targetNet directed net 'targetNet'
#' @param Result Matrix to store the results
#' @param n Number of nodes in each of the nets.
#'
#' @return the performance metrics
#'
# #' @examples
#' res<-calcPerfDiNet(matrix(c(1,0,1,1,1,1,1,0,1),nrow=3,ncol=3),
#' + matrix(c(0,1,0,1,1,1,1,0,1),nrow=3,ncol=3),
#' + matrix(nrow=1,ncol=11),3)
#'
#' @keywords internal
#' @noRd
calcPerfDiNet <-function(inferredNet, targetNet, Result, n) {
if(!base::is.matrix(inferredNet))
{
base::stop("Error in calcPerfDiNet. inferredNet is not a matrix")
}
if(!base::is.matrix(targetNet))
{
base::stop("Error in calcPerfDiNet. targetNet is not a matrix")
}
if(!base::is.matrix(Result))
{
base::stop("Error in calcPerfDiNet. Result is not a matrix")
}
TrPos = 0
TrNeg = 0
FlPos = 0
FlNeg = 0
for(i in 1:n)
{
for(j in 1:n)
{
if(inferredNet[i,j] == 1 )
{
if(inferredNet[i,j] == targetNet[i,j])
{
#True Positive
TrPos = TrPos + 1
}
else
{
FlPos = FlPos +1
}
}
if(inferredNet[i,j] == 0 )
{
if (inferredNet[i,j] == targetNet[i,j])
{
# True Negative
TrNeg = TrNeg + 1
}
else
{
FlNeg = FlNeg +1
}
}
}
}
#------------------------------------------------------------
# Begin: Calculate Performance Metrics
#------------------------------------------------------------
TPR <- TrPos/(TrPos + FlNeg)
FPR <- FlPos/(FlPos + TrNeg)
FDR <- FlPos/(FlPos + TrPos)
PPV <- TrPos/(TrPos + FlPos)
ACC <- (TrPos + TrNeg)/(TrPos + FlPos + TrNeg + FlNeg)
F <- 2 * PPV * TPR / (PPV + TPR)
MCC <- ((TrPos * TrNeg) - (FlNeg * FlPos)) / sqrt((TrPos + FlPos) * (TrPos + FlNeg) * (TrNeg + FlPos) * (TrNeg+FlNeg))
## Calculate AUC under ROC
# table <- minet::validate(inferredNet, targetNet)
# AUC <- minet::auc.roc(table)
#------------------------------------------------------------
# End: Calculate Performance Metrics
#------------------------------------------------------------
Result[1, 1] <- TrPos
Result[1, 2] <- TrNeg
Result[1, 3] <- FlPos
Result[1, 4] <- FlNeg
Result[1, 5] <- TPR
Result[1, 6] <- FPR
Result[1, 7] <- FDR
Result[1, 8] <- PPV
Result[1, 9] <- ACC
Result[1, 10] <- MCC
Result[1, 11] <- F
# Result[1,8] <- AUC
return (Result)
}
#' Accuracy of predicted directed gene reuglatory network adjacency matrix
#'
#' Given a predicted directed gene reuglatory network adjacency matrix, evaluate its
#' accuracy w.r.t. known gene-gene interactions.
#' @references
#' [1] Song, Le, Mladen Kolar, and Eric P. Xing. "KELLER: estimating time-varying interactions
#' between genes." Bioinformatics 25.12 (2009): i128-i136.
#'
#' @param di.net.adj.matrix predicted directed gene reuglatory network adjacency matrix
#'
#' @keywords internal
#' @noRd
eval.wrt.known.gene.ias <- function(di.net.adj.matrix) {
if(!base::is.matrix(di.net.adj.matrix))
{
base::stop("Error in eval.wrt.known.gene.ias di.net.adj.matrix is not a matrix")
}
di.net.adj.matrix['CycE', 'CycA']
di.net.adj.matrix['CycA', 'CycE']
di.net.adj.matrix['CycE', 'Rca1']
di.net.adj.matrix['Rca1', 'CycE']
di.net.adj.matrix['CycE', 'Dp']
di.net.adj.matrix['Dp', 'CycE']
# di.net.adj.matrix['Gint3', 'Got2']
# di.net.adj.matrix['Got2', 'Gint3']
di.net.adj.matrix['G.ialpha65A', 'G.oalpha47A']
di.net.adj.matrix['G.oalpha47A', 'G.ialpha65A']
di.net.adj.matrix['Hem', 'blow']
di.net.adj.matrix['blow', 'Hem']
di.net.adj.matrix['Ice', 'Ark']
di.net.adj.matrix['Ark', 'Ice']
di.net.adj.matrix['Jra', 'dnc']
di.net.adj.matrix['dnc', 'Jra']
di.net.adj.matrix['Nf1', 'dnc']
di.net.adj.matrix['dnc', 'Nf1']
di.net.adj.matrix['Pak', 'trio']
di.net.adj.matrix['trio', 'Pak']
di.net.adj.matrix['Sb', 'Rho1']
di.net.adj.matrix['Rho1', 'Sb']
di.net.adj.matrix['Snap', 'Syx1A']
di.net.adj.matrix['Syx1A', 'Snap']
di.net.adj.matrix['Src42A', 'ksr']
di.net.adj.matrix['ksr', 'Src42A']
di.net.adj.matrix['w', 'nej']
di.net.adj.matrix['nej', 'w']
di.net.adj.matrix['brk', 'tkv']
di.net.adj.matrix['tkv', 'brk']
di.net.adj.matrix['brm', 'N']
di.net.adj.matrix['N', 'brm']
di.net.adj.matrix['brm', 'shg']
di.net.adj.matrix['shg', 'brm']
di.net.adj.matrix['btl', 'stumps']
di.net.adj.matrix['stumps', 'btl']
di.net.adj.matrix['cact', 'dl']
di.net.adj.matrix['dl', 'cact']
di.net.adj.matrix['caps', 'chi']
di.net.adj.matrix['chi', 'caps']
di.net.adj.matrix['da', 'Dl']
di.net.adj.matrix['Dl', 'da']
di.net.adj.matrix['dally', 'sgl']
di.net.adj.matrix['sgl', 'dally']
di.net.adj.matrix['dl', 'Dif']
di.net.adj.matrix['Dif', 'dl']
di.net.adj.matrix['dom', 'E(z)']
di.net.adj.matrix['E(z)', 'dom']
di.net.adj.matrix['ea', 'Tl']
di.net.adj.matrix['Tl', 'ea']
di.net.adj.matrix['emc', 'bs']
di.net.adj.matrix['bs', 'emc']
di.net.adj.matrix['esc', 'E(z)']
di.net.adj.matrix['E(z)', 'esc']
di.net.adj.matrix['gl', 'peb']
di.net.adj.matrix['peb', 'gl']
di.net.adj.matrix['hep', 'p53']
di.net.adj.matrix['p53', 'hep']
di.net.adj.matrix['mam', 'wg']
di.net.adj.matrix['wg', 'mam']
di.net.adj.matrix['msn', 'Nrt']
di.net.adj.matrix['Nrt', 'msn']
di.net.adj.matrix['msn', 'dock']
di.net.adj.matrix['dock', 'msn']
di.net.adj.matrix['nej', 'th']
di.net.adj.matrix['th', 'nej']
di.net.adj.matrix['numb', 'Rca1']
di.net.adj.matrix['Rca1', 'numb']
di.net.adj.matrix['pbl', 'CycE']
di.net.adj.matrix['CycE', 'pbl']
di.net.adj.matrix['pbl', 'Src64B']
di.net.adj.matrix['Src64B', 'pbl']
di.net.adj.matrix['pbl', 'dl']
di.net.adj.matrix['dl', 'pbl']
di.net.adj.matrix['pbl', 'tum']
di.net.adj.matrix['tum', 'pbl']
di.net.adj.matrix['pnr', 'svr']
di.net.adj.matrix['svr', 'pnr']
di.net.adj.matrix['pros', 'Abl']
di.net.adj.matrix['Abl', 'pros']
di.net.adj.matrix['pros', 'pnt']
di.net.adj.matrix['pnt', 'pros']
di.net.adj.matrix['sdt', 'baz']
di.net.adj.matrix['baz', 'sdt']
di.net.adj.matrix['sno', 'Dl']
di.net.adj.matrix['Dl', 'sno']
di.net.adj.matrix['spen', 'ksr']
di.net.adj.matrix['ksr', 'spen']
di.net.adj.matrix['tsh', 'wg']
di.net.adj.matrix['wg', 'tsh']
di.net.adj.matrix['up', 'Mhc']
di.net.adj.matrix['Mhc', 'up']
}
Try the TGS package in your browser
Any scripts or data that you put into this service are public.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Embedding an R snippet on your website
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.