planoacewindow {ArvoRe} | R Documentation |
~~ A concise (1-5 lines) description of what the function does. ~~
planoacewindow(TheTree)
TheTree |
~~Describe TheTree here~~ |
~~ If necessary, more details than the description above ~~
~Describe the value returned If it is a LIST, use
comp1 |
Description of 'comp1' |
comp2 |
Description of 'comp2' |
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~~further notes~~
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~~who you are~~
~put references to the literature/web site here ~
~~objects to See Also as help
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##---- Should be DIRECTLY executable !! ---- ##-- ==> Define data, use random, ##-- or do help(data=index) for the standard data sets. ## The function is currently defined as function(TheTree) { require(abind) require(gplots) plotCEtableWindow <- tktoplevel() title <- "ÁrvoRe - Análise de Custo-Efetividade" tkwm.title(plotCEtableWindow,title) # What plot? frametext <- "Gráfico" frameOverall <- tkwidget(plotCEtableWindow, "labelframe", borderwidth = 2, relief = "groove", labelanchor = "n", text = frametext) frameButton <- tkwidget(plotCEtableWindow, "labelframe", borderwidth = 0, relief = "groove") tkgrid(frameOverall, sticky = "nwe") tkgrid(frameButton, sticky = "swe") # Image setings. g.imgHeight <- 480 g.imgWidth <- 640 # Canvas window configurations C.Height <- min(c(g.imgHeight, 768)) C.Width <- min(c(g.imgWidth, 1024)) Borderwidth <- 2 # scrollbar objects fHscroll <- tkscrollbar(frameOverall, orient="horiz", command = function(...)tkxview(fCanvas,...) ) fVscroll <- tkscrollbar(frameOverall, command = function(...)tkyview(fCanvas,...) ) fCanvas <- tkcanvas(frameOverall, relief = "sunken", borderwidth = Borderwidth, width = C.Width, height = C.Height, xscrollcommand = function(...)tkset(fHscroll,...), yscrollcommand = function(...)tkset(fVscroll,...) ) # Pack the scroll bars. tkpack(fHscroll, side = "bottom", fill = "x") tkpack(fVscroll, side = "right", fill = "y") # Pack the canvas tkpack(fCanvas, anchor = "center", side = "right", fill = "both", expand = 1) # Image file name setings. .Filename <- paste(tempdir(),"\", "grafico.arvoreCE.png", sep="") # The data to plot Data.CEA <- cost.effectiveness.table(TheTree) AllTreatCost <- Data.CEA$Mean.Cost # print(AllTreatCost) AllTreatEffectiveness <- Data.CEA$Mean.Effectiveness # print(AllTreatEffectiveness) AllTreatCE <- Data.CEA$Mean.Cost / Data.CEA$Mean.Effectiveness # Initial colors to treatments points treatments.colors.plot <- 1:length(Data.CEA$Node.name) # The treatments names treatments.label.plot <- Data.CEA$Node.name # Default img type img.type <- "png" img.quality <- 90 plot.it.to.image <- function(AllTreatEffectiveness, AllTreatCost, treatments.colors.plot, treatments.label.plot, .Filename, img.type = "png", img.quality = 90, img.width = 600, img.height = 600, ...) { if (img.type == "png") { png(file=.Filename, width = img.width, height = img.height, bg = "white", restoreConsole = FALSE) Graphtitle <- "Plano Custo-Efetividade" xlabel <- "Efetividade" ylabel <- "Custo" plot(c(0,AllTreatEffectiveness), c(0,AllTreatCost), col = c(0,treatments.colors.plot), pch = "*", main = Graphtitle, xlab = xlabel, ylab = ylabel) for (i in 1:length(AllTreatEffectiveness)) { lines(c(0,AllTreatEffectiveness[i]), c(0,AllTreatCost[i]), col = treatments.colors.plot[i]) } smartlegend( x="center", y= "top", inset=0, #smartlegend parameters legend = c(treatments.label.plot), #legend parameters fill=c(treatments.colors.plot), #legend parameters bg = "gray") dev.off() } else { if (img.type == "jpg") { jpeg(filename = .Filename, width = img.width, height = img.height, units = "px", pointsize = 12, quality = img.quality, bg = "white", res = NA, restoreConsole = FALSE) Graphtitle <- "Plano Custo-Efetividade" xlabel <- "Efetividade" ylabel <- "Custo" plot(c(0,AllTreatEffectiveness), c(0,AllTreatCost), col = c(0,treatments.colors.plot), pch = "*", main = Graphtitle, xlab = xlabel, ylab = ylabel) for (i in 1:length(AllTreatEffectiveness)) { lines(c(0,AllTreatEffectiveness[i]), c(0,AllTreatCost[i]), col = treatments.colors.plot[i]) } smartlegend( x="center", y= "top", inset=0, #smartlegend parameters legend = c(treatments.label.plot), #legend parameters fill=c(treatments.colors.plot), #legend parameters bg = "gray") dev.off() } else { bmp(filename = .Filename, width = img.width, height = img.height, units = "px", pointsize = 12, bg = "white", res = NA, restoreConsole = FALSE) Graphtitle <- "Plano Custo-Efetividade" xlabel <- "Efetividade" ylabel <- "Custo" plot(c(0,AllTreatEffectiveness), c(0,AllTreatCost), col = c(0,treatments.colors.plot), pch = "*", main = Graphtitle, xlab = xlabel, ylab = ylabel) for (i in 1:length(AllTreatEffectiveness)) { lines(c(0,AllTreatEffectiveness[i]), c(0,AllTreatCost[i]), col = treatments.colors.plot[i]) } smartlegend( x="center", y= "top", inset=0, #smartlegend parameters legend = c(treatments.label.plot), #legend parameters fill=c(treatments.colors.plot), #legend parameters bg = "gray") dev.off() } } } plot.it.to.image(AllTreatEffectiveness, AllTreatCost, treatments.colors.plot, treatments.label.plot, .Filename = .Filename, img.type = img.type, img.width = g.imgWidth, img.height = g.imgHeight) image1 <- tclVar() tcl("image","create","photo",image1,file=.Filename) tkcreate(fCanvas, "image", g.imgWidth/2, g.imgHeight/2, image = image1, anchor = "center") tkconfigure(fCanvas, scrollregion = c(0,0,g.imgWidth,g.imgHeight)) OnExportGraphic <- function(...) { exportImgGraphWindow <- tktoplevel() title <- "ÁrvoRe - Exportar Imagem" tkwm.title(exportImgGraphWindow,title) frameOverall <- tkframe(exportImgGraphWindow) frameUpper <- tkframe(frameOverall, relief="groove", borderwidth=0) frameUpperLeft <- tkframe(frameUpper, relief="groove", borderwidth=2) frameUpperRigth <- tkframe(frameUpper, relief="groove", borderwidth=2) frameLower <- tkframe(frameOverall, relief="groove", borderwidth=0) tkgrid( tklabel(frameUpper,text="Formato de imagem"),sticky="n", columnspan = 2) rbValue <- tclVar("jpg") QualityValue <- tclVar("90") rb1 <- tkradiobutton(frameUpper) tkconfigure(rb1,variable=rbValue,value="bmp") tkgrid( tklabel(frameUpperLeft,text="Bitmap .bmp "),rb1, sticky = "ne") rb2 <- tkradiobutton(frameUpper) tkconfigure(rb2,variable=rbValue,value="jpg") tkgrid( tklabel(frameUpperLeft,text="Jpeg .jpg "),rb2, sticky = "ne") rb3 <- tkradiobutton(frameUpper) tkconfigure(rb3,variable=rbValue,value="png") tkgrid( tklabel(frameUpperLeft,text="Portable network graphics .png "),rb3, sticky = "ne") SliderValueLabel <- tklabel(frameUpperRigth, text = as.character(tclvalue(QualityValue)) ) sliderlabel <- tklabel(frameUpperRigth, text = "Valor da qualidade de imagem : ") sliderlabel2 <- tklabel(frameUpperRigth,text = "%") tkgrid(sliderlabel, SliderValueLabel, sliderlabel2) tkconfigure(SliderValueLabel, textvariable = QualityValue) sliderImg <- tkscale(frameUpperRigth, from = 100, to = 1, showvalue = F, variable = QualityValue, resolution = 1, orient = "horizontal") tkgrid(sliderImg,sticky="ew") ### Image size settings ### numericSpinBox <- tkwidget(frameUpperRigth, "SpinBox", editable=TRUE, range = c(100,10000,1), width = 5) labeldigits <- tklabel(frameUpperRigth,text="Altura da imagem") tkgrid(labeldigits, numericSpinBox, sticky = "nw", padx = 5, pady = 5) tcl(numericSpinBox, "setvalue", paste("@", g.imgHeight,sep = "")) numericSpinBox2 <- tkwidget(frameUpperRigth, "SpinBox", editable=TRUE, range = c(100,10000,1), width = 5) labeldigits <- tklabel(frameUpperRigth,text="Largura da imagem") tkgrid(labeldigits, numericSpinBox2, sticky = "nw", padx = 5, pady = 5) tcl(numericSpinBox2, "setvalue", paste("@", g.imgWidth,sep = "")) tkgrid(frameUpperLeft, frameUpperRigth,sticky="ns") tkgrid(frameUpper,sticky="ns") tkgrid(frameLower,sticky="ns") Onformat <- function() { ansVar <- as.character(tclvalue(rbValue)) if (ansVar != "jpg") { tkconfigure(SliderValueLabel, state = "disabled") tkconfigure(sliderlabel, state = "disabled") tkconfigure(sliderlabel2, state = "disabled") tkconfigure(SliderValueLabel, state = "disabled") tkconfigure(sliderImg, state = "disabled") } else { tkconfigure(SliderValueLabel, state = "normal") tkconfigure(sliderlabel, state = "normal") tkconfigure(sliderlabel2, state = "normal") tkconfigure(SliderValueLabel, state = "normal") tkconfigure(sliderImg, state = "normal") } } OnOK <- function(...) { img.height <- as.numeric(tclvalue(tcl(numericSpinBox,"getvalue"))) if ((is.numeric(img.height) )&&(!is.na(img.height))) g.imgHeight <- img.height img.width <- as.numeric(tclvalue(tcl(numericSpinBox2,"getvalue"))) if ((is.numeric(img.width) )&&(!is.na(img.width))) g.imgWidth <- img.width ImgFormatselected <- as.character(tclvalue(rbValue)) ImgQualityselected <- as.numeric(as.character(tclvalue(QualityValue))) if (ImgFormatselected == "png") { .Filename <- tclvalue(tkgetSaveFile(filetypes="{{Portable network graphics Image Files} {.png}} {{All files} *}")) if (!nchar(.Filename)) tkfocus(CEGraphWindow) else { ans <- substr(.Filename,nchar(.Filename)-3,nchar(.Filename)) if ( ans != ".png" ) .Filename <- paste(.Filename, ".png", sep="") if (!file.exists(.Filename)) file.remove(.Filename) plot.it.to.image(AllTreatEffectiveness, AllTreatCost, treatments.colors.plot, treatments.label.plot, .Filename = .Filename, img.type = ImgFormatselected, img.width = g.imgWidth, img.height = g.imgHeight) } } else { if (ImgFormatselected == "jpg") { .Filename <- tclvalue(tkgetSaveFile(filetypes="{{Jpeg Image Files} {.jpg}} {{All files} *}")) if (!nchar(.Filename)) tkfocus(CEGraphWindow) else { ans <- substr(.Filename,nchar(.Filename)-3,nchar(.Filename)) if ( ans != ".jpg" ) .Filename <- paste(.Filename, ".jpg", sep="") if (!file.exists(.Filename)) file.remove(.Filename) plot.it.to.image(AllTreatEffectiveness, AllTreatCost, treatments.colors.plot, treatments.label.plot, .Filename = .Filename, img.type = ImgFormatselected, img.quality = ImgQualityselected, img.width = g.imgWidth, img.height = g.imgHeight) } } else { .Filename <- tclvalue(tkgetSaveFile(filetypes="{{Bitmap Image Files} {.bmp}} {{All files} *}")) if (!nchar(.Filename)) tkfocus(CEGraphWindow) else { ans <- substr(.Filename,nchar(.Filename)-3,nchar(.Filename)) if ( ans != ".bmp" ) .Filename <- paste(.Filename, ".bmp", sep="") if (!file.exists(.Filename)) file.remove(.Filename) plot.it.to.image(AllTreatEffectiveness, AllTreatCost, treatments.colors.plot, treatments.label.plot, .Filename = .Filename, img.type = ImgFormatselected, img.width = g.imgWidth, img.height = g.imgHeight) } } } tkdestroy(exportImgGraphWindow) tkwm.deiconify(plotCEtableWindow) tkfocus(plotCEtableWindow) } OnCancel <- function() { tkdestroy(exportImgGraphWindow) tkwm.deiconify(plotCEtableWindow) tkfocus(plotCEtableWindow) } .Width.but <- 10 .Height.but <- 1 OK.but <-tkbutton(frameLower,text="OK", width=.Width.but, height=.Height.but, command=OnOK) tkbind(exportImgGraphWindow, "<Return>",OnOK) Cancel.but <-tkbutton(frameLower,text="Cancelar", width=.Width.but, height=.Height.but, command=OnCancel) tkbind(exportImgGraphWindow, "<Escape>",OnCancel) tkgrid(OK.but, Cancel.but, sticky = "s", padx = 5, pady = 5, columnspan = 2, sticky = "s") tkbind(rb1, "<Enter>",Onformat) tkbind(rb2, "<Enter>",Onformat) tkbind(rb3, "<Enter>",Onformat) tkbind(rb1, "<Leave>",Onformat) tkbind(rb2, "<Leave>",Onformat) tkbind(rb3, "<Leave>",Onformat) tkgrid(frameOverall) tkfocus(exportImgGraphWindow) # posiciona.janela.no.mouse(exportImgGraphWindow) } OnOK <- function() { file.remove(.Filename) tkdestroy(plotCEtableWindow) tkfocus(tt) } OnCancel <- function() { tkdestroy(plotCEtableWindow) file.remove(.Filename) # tkwm.deiconify(tt) tkfocus(tt) } .Width.but <- 10 .Height.but <- 1 OK.but <- tkbutton(frameButton,text="OK", width=.Width.but, height=.Height.but, command=OnOK) Cancel.but <- tkbutton(frameButton,text="Cancelar", width=.Width.but, height=.Height.but, command=OnCancel) Export.but <- tkbutton(frameButton,text="Exportar", width=.Width.but, height=.Height.but, command=OnExportGraphic) tkgrid(OK.but, Cancel.but, Export.but, sticky = "s", padx = 5, pady = 5) tkbind(plotCEtableWindow, "<Return>",OnOK) tkbind(plotCEtableWindow, "<Escape>",OnOK) # posiciona.janela.no.mouse(plotCEtableWindow, 300, 180) tkfocus(plotCEtableWindow) }