I have the below code for Modal Popup and I'm able to edit the contents of the popup. But I would like to save the edited contents into a file,
**server.r**
modelnetlist <- function(failed = FALSE){
netlistdata <- paste(readLines('run.scs'),collapse="\n")
modalDialog(
title = "Netlist File",
textAreaInput("theScript", value=netlistdata),
easyClose = FALSE,
footer = tagList(
modalButton("Close"),
actionButton("save", "Save")
)
)
}
observeEvent(input$gennet, {
showModal(modelnetlist())
})
ui.R
#library(qdap)
options(shiny.maxRequestSize=100*1024^2)
ui <- dashboardPage(skin = "yellow",
dashboardHeader(title = "Modelling Automation"),
dashboardSidebar(
sidebarMenu(
# Setting id makes input$tabs give the tabName of currently-selected tab
id = "tabs",
menuItem("Data Processing", tabName = "DP", icon = icon("database"), startExpanded = TRUE,
menuSubItem("Merge", tabName= "Merge"),
menuSubItem("Data", tabName = "Data"),
menuSubItem("Plot", tabName = "Plot", selected = TRUE),
menuSubItem("Parameters", tabName = "Parameters")),
menuItem("Parameter Extraction", icon = icon("book-open"), tabName = "PE"),
menuSubItem("Data Conversion", tabName = "DC"),
menuSubItem("IPL Upload", tabName = "IPL"),
menuSubItem("Netlist Spectre", tabName = "netlist"),
menuSubItem("Spectre logs", tabName = "mylog"),
menuSubItem("Parameter Fitting", tabName = "PF"),
menuItem("Model QA", tabName = "QA", icon = icon("angellist"))
),
textOutput("res")
),
dashboardBody(
tabItems(
tabItem("DP", "Dashboard tab content"),
#tabItem("PE", "Widgets tab content"),
tabItem("Merge", fileInput("mergefiles", "choose the files", accept = c(".txt"), multiple = TRUE), downloadButton("Download", label = "Merged File")),
tabItem("Data",
mainPanel(div(style='overflow-x:scroll',tableOutput("txt"),tableOutput("filetable"),tableOutput("filetable1")))
),
tabItem("Plot",sidebarLayout(sidebarPanel(width=3,
fileInput("datasets", "choose the files", accept = c(".txt",".esd"), multiple = TRUE),
uiOutput("plotdata"),uiOutput("devicetype"), uiOutput("chip"),
uiOutput("macro"),
uiOutput("device"),fluidRow(column(5,uiOutput("minIT2")),column(5,uiOutput("maxIT2"))),
fluidRow(column(5,uiOutput("temperature")), column(5,uiOutput("DCleakage"))),
fluidRow(column(5,uiOutput("varx")),column(5,uiOutput("vary")))
),
mainPanel(width=9,
plotlyOutput("PLOT")))),
tabItem("Parameters",tags$style(type="text/css",
".shiny-output-error { visibility: hidden; }",
".shiny-output-error:before { visibility: hidden; }"),
div(style="display:inline-block;width:32%;text-align: center;",actionButton("action", label = "Normalize")),
tabsetPanel(type="tabs",
tabPanel("CV Table",div(style='overflow-x:scroll',dataTableOutput('DiodeCVTable')),fluidRow(column(5, actionButton("perimeterCV", label="Change Perimeter")),column(5, actionButton("changeCV", label = "Change Goldenchip"))),fluidRow(column(5, uiOutput("dynamicCV")),column(5,uiOutput("goldenchipCV"))),plotlyOutput("cvplot")),
tabPanel("DC Table",div(style='overflow-x:scroll',dataTableOutput('DiodeDCTable')),fluidRow(column(5, actionButton("perimeterDC", label="Change Perimeter")),column(5, actionButton("changeDC", label = "Change Goldenchip"))),fluidRow(column(5, uiOutput("dynamicDC")),column(5,uiOutput("goldenchipDC"))),plotlyOutput("dcplot")),
tabPanel("TLP Table",div(style='overflow-x:scroll',dataTableOutput('TLPTable')), fluidRow(column(5, actionButton("perimeterTLP", label="Change Perimeter")),column(5, actionButton("changeTLP", label = "Change Goldenchip"))),fluidRow(column(5, uiOutput("dynamicTLP")),column(5,uiOutput("goldenchipTLP"))),plotlyOutput("tlpplot")),
tabPanel("VFTLP Table",div(style='overflow-x:scroll',dataTableOutput('VFTLPTable')), fluidRow(column(5, actionButton("perimeterVFTLP", label="Change Perimeter")),column(5, actionButton("changeVFTLP", label = "Change Goldenchip"))),fluidRow(column(5, uiOutput("dynamicVFTLP")),column(5,uiOutput("goldenchipVFTLP"))), plotlyOutput("vftlpplot")))),
tabItem("PE","Parameter Extraction Content"),
tabItem("DC",uiOutput("onedevice"),uiOutput('tabs'),
conditionalPanel(condition="input.layer=='CV'", plotlyOutput("plotcv1"),br(), tableOutput("device1cv")),
#conditionalPanel(condition="input.layer=='CV 2'", plotlyOutput("plotcv2"),br(), tableOutput("device2cv")),
# conditionalPanel(condition="input.layer=='CV 3'", plotlyOutput("plotcv3"),br(), tableOutput("device2cv")),
conditionalPanel(condition="input.layer=='DC @ 25'", plotlyOutput("plotdc125"),br(), tableOutput("device1dc25")),
conditionalPanel(condition="input.layer=='DC @ -40'", plotlyOutput("plotdc140"),br(), tableOutput("device1dc40")),
conditionalPanel(condition="input.layer=='DC @ 125'", plotlyOutput("plotdc1125"),br(), tableOutput("device1dc125")),
conditionalPanel(condition="input.layer=='DC @ 150'", plotlyOutput("plotdc1150"),br(), tableOutput("device1dc150")),
conditionalPanel(condition="input.layer=='TLP'",fluidRow(column(3,uiOutput("stepcountTLP")), column(3, uiOutput("maxvoltageTLP")), column(3, uiOutput("VholdTLP")), downloadButton("DownloadTLP",label = "Download converted data")), plotlyOutput("plottlp1"),br(), tableOutput("device1tlp")),
#conditionalPanel(condition="input.layer=='TLP 2'", plotlyOutput("plottlp2"),br(), tableOutput("device2tlp")),
conditionalPanel(condition="input.layer=='VFTLP'",fluidRow(column(3,uiOutput("stepcountVFTLP")), column(3, uiOutput("maxvoltageVFTLP")), column(3, uiOutput("VholdVFTLP"))), plotlyOutput("plotvftlp1"),br(), tableOutput("device1vftlp"))
),
tabItem("PF", uiOutput('modelingtabs'),
conditionalPanel(condition="input.modtab=='CV'",tableOutput("modelingdevice1CV")),
conditionalPanel(condition= "input.modtab=='DC @ 25'", tableOutput("modelingdevice1DC25")),
conditionalPanel(condition= "input.modtab=='DC @ 40'", tableOutput("modelingdevice1DC40")),
conditionalPanel(condition= "input.modtab=='DC @ 125'", tableOutput("modelingdevice1DC125")),
conditionalPanel(condition= "input.modtab=='DC @ 150'", tableOutput("modelingdevice1DC150")),# plotlyOutput("plotcv1"),br(), tableOutput("device1cv")),
conditionalPanel(condition="input.modtab=='TLP'",tableOutput("modelingdevice1TLP")),# plotlyOutput("plottlp1"),br(), tableOutput("device1tlp")),
conditionalPanel(condition="input.modtab=='VFTLP'",tableOutput("modelingdevice1VFTLP"))#, plotlyOutput("plotvftlp1"),br(), tableOutput("device1vftlp"))
),
tabItem("IPL",
fluidRow(box(title = "Model Inputs", width = 8,
fileInput("iplfile", "choose the IPL file", accept = c(".xlsx"), multiple = TRUE),
column(3, uiOutput("modeltype")),
column(3,uiOutput("modeldevtype")),
column(3,uiOutput("modelpath")),
column(3, uiOutput("wrapperfile")),
column(3,uiOutput("zapcon")),
column(3,uiOutput("polarity")),
column(3,uiOutput("sectiontype")),
column(3,uiOutput("designfile")),
column(3, uiOutput("esd_event")),
column(3, uiOutput("esd_exit")),
column(3, uiOutput("modelnodeorder")),
column(3, uiOutput("terminalbias")),
column(3,uiOutput("design")),
column(3,uiOutput("modtemp")),
column(3,uiOutput("ylogaxis")))),
box(title = "Model Parameters in IPL", width = 20, tableOutput("IPLTable"),
uiOutput("newvalue1"),
uiOutput("newvalue2"),
uiOutput("newvalue3"),
uiOutput("newvalue4"))
,fluidRow(box(width = 6, height = 60,actionButton("SpecPlot", label="Spectre Plot", width = 100),
# bsModal("netl", strong("Netlist File", style="color:#0000ff; font-size:120%"),
# "gennet", size = "large", uiOutput("modelnetlist")),
actionButton("HspiPlot", label="Hspice Plot", width = 100),
actionButton("gennet", label="Generate netlist"),
actionButton("ChangeValues", label="Change Values"),
actionButton("save", label = "Save"),
actionButton("Mergesim", label="Merge Simulation Plots"))),
uiOutput("newvalues"),
#conditionalPanel(condition = "input$specplot", withSpinner(plotlyOutput("plotspe"), type = 1, hide.ui = FALSE)),
tags$head(
tags$style(
HTML(".shiny-notification {
height: 100px;
width: 500px;
position:fixed;
top: calc(50% - 50px);;
left: calc(50% - 400px);;
}
"
)
)
),
#box(title = "Simulation", status = "primary", plotlyOutput("plotspe", height = 250)),
fluidRow(column(width=6,
fluidRow(plotlyOutput("plotspe",width = "100%", height = "400px", inline = FALSE))),
column(width=6,
fluidRow(plotlyOutput("plothspi",width = "100%", height = "400px", inline = FALSE)))),
fluidRow(column(width=6,fluidRow(plotlyOutput("plotspechspi",width = "100%", height = "400px", inline = FALSE)))),
# splitLayout(style = "height:400px;", cellWidths = c("800", "800"),
# plotlyOutput("plotspe"), plotlyOutput("plothspi"))
# ,
plotlyOutput("plottlpalongspectre")
),
tabItem("netlist", fluidPage(uiOutput("netlistfile"))),
tabItem("mylog", fluidPage(uiOutput("logfile"))),
tabItem("QA", " QA tab content")# actionButton("ChangeValues", label="Change Values"
)
)
)
**run.scs file:** (File that I'm calling in modelnetlist function to read and display it in the modal)
Simmulator lang=spectre
global 0
paropt options redefinedparams= ignore
parameters vnw=0 vnd=0
parameters area_1=5.5e-12
I would like to save the edited contents of the file into run.scs and update it.
Please navigate to IPL upload tab and click on Generate netlist button for the modal popup to open.
You can use such an observer:
observeEvent(input[["save"]], {
writeLines(input[["theScript"]], "path/to/file.txt")
})
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