self.analyse = analyse
self.parametres = analyse.parametres
self.scriptout = self.pathout['temp']
- self.script = u"#Script genere par IRaMuTeQ - %s" % datetime.now().ctime()
+ self.script = u"#Script genere par IRaMuTeQ - %s\n" % datetime.now().ctime()
def add(self, txt) :
self.script = '\n'.join([self.script, txt])
fileout.close()
def RPamTxt(corpus, RscriptPath):
- DicoPath = corpus.dictpathout
- param = corpus.parametre
+ DicoPath = corpus.pathout
+ param = corpus.parametres
print param
txt = """
source("%s")
save(tree.cut1, file="%s")
open_file_graph("%s", width = 600, height=400)
classes<-n1[,ncol(n1)]
- plot.dendropr(tree_cut1$tree.cl,classes)
+ plot.dendropr(tree_cut1$tree.cl,classes, histo = TRUE)
""" % (DicoPath['Rdendro'],DicoPath['dendro1'])
txt += """
""" % (DictChdTxtOut['afc_facteur'], DictChdTxtOut['afc_col'], DictChdTxtOut['afc_row'])
txt += """
- #xlab <- paste('facteur 1 - ', round(afc$facteur[1,2],2), sep = '')
- #ylab <- paste('facteur 2 - ', round(afc$facteur[2,2],2), sep = '')
- #xlab <- paste(xlab, ' %', sep = '')
- #ylab <- paste(ylab, ' %', sep = '')
- """
-
- txt += """
PARCEX<-%s
- xmin <- min(afc$rowcoord[,1], na.rm = TRUE) + (0.1 * min(afc$rowcoord[,1], na.rm = TRUE))
- xmax <- max(afc$rowcoord[,1], na.rm = TRUE) + (0.1 * max(afc$rowcoord[,1], na.rm = TRUE))
- ymin <- min(afc$rowcoord[,2], na.rm = TRUE) + (0.1 * min(afc$rowcoord[,2], na.rm = TRUE))
- ymax <- max(afc$rowcoord[,2], na.rm = TRUE) + (0.1 * max(afc$rowcoord[,2], na.rm = TRUE))
- print(xmin)
- print(xmax)
- print(ymin)
- print(ymax)
""" % taillecar
txt += """
- PlotAfc2dCoul(afc, as.data.frame(chistabletot), "%s", what='coord', deb=1, fin=(debsup-1), xlab = xlab, ylab = ylab, xmin=xmin, xmax=xmax, ymin = ymin, ymax=ymax)
+ xyminmax <- PlotAfc2dCoul(afc, as.data.frame(chistabletot), "%s", what='coord', deb=1, fin=(debsup-1), xlab = xlab, ylab = ylab)
""" % (DictChdTxtOut['AFC2DL_OUT'])
txt += """
- PlotAfc2dCoul(afc, as.data.frame(chistabletot), "%s", what='coord', deb=debsup, fin=(debet-1), xlab = xlab, ylab = ylab, xmin=xmin, xmax=xmax, ymin = ymin, ymax=ymax)
+ PlotAfc2dCoul(afc, as.data.frame(chistabletot), "%s", what='coord', deb=debsup, fin=(debet-1), xlab = xlab, ylab = ylab, xmin = xyminmax$xminmax[1], xmax = xyminmax$xminmax[2], ymin = xyminmax$yminmax[1], ymax = xyminmax$yminmax[2])
""" % (DictChdTxtOut['AFC2DSL_OUT'])
txt += """
- PlotAfc2dCoul(afc, as.data.frame(chistabletot), "%s", what='coord', deb=debet, fin=fin, xlab = xlab, ylab = ylab, xmin=xmin, xmax=xmax, ymin = ymin, ymax=ymax)
+ PlotAfc2dCoul(afc, as.data.frame(chistabletot), "%s", what='coord', deb=debet, fin=fin, xlab = xlab, ylab = ylab, xmin = xyminmax$xminmax[1], xmax = xyminmax$xminmax[2], ymin = xyminmax$yminmax[1], ymax = xyminmax$yminmax[2])
""" % (DictChdTxtOut['AFC2DEL_OUT'])
txt += """
- PlotAfc2dCoul(afc, as.data.frame(chistabletot), "%s", col=TRUE, what='coord', xlab = xlab, ylab = ylab, xmin=xmin, xmax=xmax, ymin = ymin, ymax=ymax)
+ PlotAfc2dCoul(afc, as.data.frame(chistabletot), "%s", col=TRUE, what='coord', xlab = xlab, ylab = ylab, xmin = xyminmax$xminmax[1], xmax = xyminmax$xminmax[2], ymin = xyminmax$yminmax[1], ymax = xyminmax$yminmax[2])
""" % (DictChdTxtOut['AFC2DCL_OUT'])
# txt += """
# PlotAfc2dCoul(afc, as.data.frame(chistabletot), "%s", what='crl', deb=1, fin=(debsup-1), xlab = xlab, ylab = ylab)
self.packages(['igraph', 'proxy', 'Matrix'])
self.sources([self.analyse.parent.RscriptsPath['simi'], self.analyse.parent.RscriptsPath['Rgraph']])
txt = ''
- if not self.parametres['keep_coord'] :
+ if not self.parametres['keep_coord'] and not self.parametres['type'] == 'simimatrix':
txt += """
dm.path <- "%s"
cn.path <- "%s"
index <- which(colnames(dm) == forme)
}
"""
-
+ elif not self.parametres['keep_coord'] and self.parametres['type'] == 'simimatrix' :
+ txt += """
+ dm.path <- "%s"
+ selected.col <- "%s"
+ """ % (self.pathout['mat01.csv'], self.pathout['selected.csv'])
+ if 'word' in self.parametres :
+ txt += """
+ word <- TRUE
+ index <- %i + 1
+ """ % self.parametres['word']
+ else :
+ txt += """
+ word <- FALSE
+ """
+ txt += """
+ dm <-read.csv2(dm.path)
+ dm <- as.matrix(dm)
+ sel.col <- read.csv2(selected.col, header = FALSE)
+ sel.col <- sel.col[,1] + 1
+ if (!word) {
+ dm <- dm[, sel.col]
+ } else {
+ forme <- colnames(dm)[index]
+ if (!index %in% sel.col) {
+ sel.col <- append(sel.col, index)
+ }
+ dm <- dm[, sel.col]
+ index <- which(colnames(dm) == forme)
+ }
+ """
else :
txt += """
load("%s")
# g.toplot <- g.ori
# }
# """
+ if self.parametres['com'] :
+ com = `self.parametres['communities']`
+ else :
+ com = 'NULL'
+ if self.parametres['halo'] :
+ halo = 'TRUE'
+ else :
+ halo = 'FALSE'
+ txt += """
+ communities <- %s
+ halo <- %s
+ """ % (com, halo)
txt += """
eff <- colSums(dm)
x <- list(mat = mat, eff = eff)
- graph.simi <- do.simi(x, method='%s', seuil = seuil, p.type = '%s', layout.type = '%s', max.tree = %s, coeff.vertex=%s, coeff.edge = %s, minmaxeff = minmaxeff, vcexminmax = vcexminmax, cex = cex, coords = coords)
+ graph.simi <- do.simi(x, method='%s', seuil = seuil, p.type = '%s', layout.type = '%s', max.tree = %s, coeff.vertex=%s, coeff.edge = %s, minmaxeff = minmaxeff, vcexminmax = vcexminmax, cex = cex, coords = coords, communities = communities, halo = halo)
""" % (method, type, layout, arbremax, coeff_tv, coeff_te)
if self.parametres.get('bystar',False) :
}
"""
txt += """ vertex.size <- NULL """
+ if self.parametres['svg'] : svg = 'TRUE'
+ else : svg = 'FALSE'
+ txt += """
+ svg <- %s
+ """ % svg
txt += """
- coords <- plot.simi(graph.simi, p.type='%s',filename="%s", vertex.label = label.v, edge.label = label.e, vertex.col = cols, vertex.label.color = vertex.label.color, vertex.label.cex=label.cex, vertex.size = vertex.size, edge.col = cola, leg=leg, width = width, height = height, alpha = alpha, movie = film)
+ coords <- plot.simi(graph.simi, p.type='%s',filename="%s", vertex.label = label.v, edge.label = label.e, vertex.col = cols, vertex.label.color = vertex.label.color, vertex.label.cex=label.cex, vertex.size = vertex.size, edge.col = cola, leg=leg, width = width, height = height, alpha = alpha, movie = film, svg = svg)
save.image(file="%s")
""" % (type, self.filename, self.pathout['RData'])