Guibrich

## MonitoringMediaR.r
mediapart<-userTimeline(user="mediapart",
                        n=500,cainfo="cacert.pem")
lemonde<-userTimeline(user="lemondefr",
                      n=500,cainfo="cacert.pem")
lefigaro<-userTimeline(user="Le_Figaro",
                       n=500,cainfo="cacert.pem")
leparisien<-userTimeline(user="le_Parisien",
                         n=500,cainfo="cacert.pem")
#Concaténation
Media.df<-rbind(mediapart.df,

## quandl.r
lm_eqn = function(df) {
  m = lm(pollution ~ pib, df);
  l <- list(a = format(coef(m)[1], digits = 2),
      b = format(abs(coef(m)[2]), digits = 2),
      r2 = format(summary(m)$r.squared, digits = 3));
  if (coef(m)[2] >= 0)  {
    eq <- substitute(italic(Pollution) == a + b %.% italic(PIB)*","~~italic(R)^2~"="~r2,l)
  } else {
    eq <- substitute(italic(Pollution) == a - b %.% italic(PIB)*","~~italic(R)^2~"="~r2,l)
  }

## MiningFrenchPresidentialdebate.r
# 18/05/2013
# Key words : TextMining, Elections, France, Debate, 2nd Round
# We use the packages qdap from (donner le lien) and
# tm to perform textmining analysis and the classical
# package like ggplot or RColorBrewer to get the graphics pretty.

suppressPackageStartupMessages(require(twitteR))
suppressPackageStartupMessages(require(XML))
suppressPackageStartupMessages(require(tm))
suppressPackageStartupMessages(require(rgdal))

## logit2.r
plot(GROUPE~TAILLE)
abline(lm(GROUPE~TAILLE),col="tomato")

## logit4.r
png("Log", width=6,height=7)
x = seq(0.00001,0.9999,length = 100)
logit<-function(t)
  {
  log(t/(1-t))
      }
curve(logit(x),col = "tomato",lwd = 2)
curve(qnorm(x),col = "blue",lwd = 2,add=T)
curve(log(-log(1-x)),col = "purple",lwd = 2,add=T)
a=par("usr")

## logit5.r
# Lik
lik.logit <- function(init,y,x)
  {
  x = as.matrix(x)
  cste<- rep(1,length(x[,1]))
  x <- cbind(cste,x) # Matrix of predictors
  d <- init[1:ncol(x) ] # Number of parameters
  xd<- x%*%d # Produit matriciel
  sum( y*log(1+exp(-xd)) + (1-y)*log(1+exp(xd)))
}

## glm
viaglm<- glm(don$GROUPE~don$TAILLE,don,family="binomial") ; viaglm

## logit6.r
# We compute the inverse logistic function
ilogit <- function (l) {
  exp(l) / ( 1 + exp(l) )
}
attach(don)
viaglm<- glm(GROUPE~TAILLE,don,family="binomial")
png("Comparison.png", width=1280,height=800)
plot(TAILLE,GROUPE, pch=16)
new<- seq(min(TAILLE),max(TAILLE),by=1)
# Prev avec R
	mediapart<-userTimeline(user="mediapart",
	n=500,cainfo="cacert.pem")
	lemonde<-userTimeline(user="lemondefr",
	n=500,cainfo="cacert.pem")
	lefigaro<-userTimeline(user="Le_Figaro",
	n=500,cainfo="cacert.pem")
	leparisien<-userTimeline(user="le_Parisien",
	n=500,cainfo="cacert.pem")
	#Concaténation
	Media.df<-rbind(mediapart.df,
	lm_eqn = function(df) {
	m = lm(pollution ~ pib, df);
	l <- list(a = format(coef(m)[1], digits = 2),
	b = format(abs(coef(m)[2]), digits = 2),
	r2 = format(summary(m)$r.squared, digits = 3));
	if (coef(m)[2] >= 0) {
	eq <- substitute(italic(Pollution) == a + b %.% italic(PIB)*","~~italic(R)^2~"="~r2,l)
	} else {
	eq <- substitute(italic(Pollution) == a - b %.% italic(PIB)*","~~italic(R)^2~"="~r2,l)
	}
	# 18/05/2013
	# Key words : TextMining, Elections, France, Debate, 2nd Round
	# We use the packages qdap from (donner le lien) and
	# tm to perform textmining analysis and the classical
	# package like ggplot or RColorBrewer to get the graphics pretty.

	suppressPackageStartupMessages(require(twitteR))
	suppressPackageStartupMessages(require(XML))
	suppressPackageStartupMessages(require(tm))
	suppressPackageStartupMessages(require(rgdal))
	png("Log", width=6,height=7)
	x = seq(0.00001,0.9999,length = 100)
	logit<-function(t)
	{
	log(t/(1-t))
	}
	curve(logit(x),col = "tomato",lwd = 2)
	curve(qnorm(x),col = "blue",lwd = 2,add=T)
	curve(log(-log(1-x)),col = "purple",lwd = 2,add=T)
	a=par("usr")
	# Lik
	lik.logit <- function(init,y,x)
	{
	x = as.matrix(x)
	cste<- rep(1,length(x[,1]))
	x <- cbind(cste,x) # Matrix of predictors
	d <- init[1:ncol(x) ] # Number of parameters
	xd<- x%*%d # Produit matriciel
	sum( ylog(1+exp(-xd)) + (1-y)log(1+exp(xd)))
	}
	# We compute the inverse logistic function
	ilogit <- function (l) {
	exp(l) / ( 1 + exp(l) )
	}
	attach(don)
	viaglm<- glm(GROUPE~TAILLE,don,family="binomial")
	png("Comparison.png", width=1280,height=800)
	plot(TAILLE,GROUPE, pch=16)
	new<- seq(min(TAILLE),max(TAILLE),by=1)
	# Prev avec R