blob: 220dd1487e51df78b9ed5954a416f0e1748f33ec [file] [log] [blame]
library(caret)
library(tidyverse)
library(DMwR)
library(randomForest)
library(FSelector)
# library(randomForestExplainer)
# may need to: options(expressions = 5e5) to avoid stackoverflow for installing package
set.seed(42)
# Test
ngramfile<-"gold03_anno_ml_synfeat_nstopw"
setwd(dirname(rstudioapi::getSourceEditorContext()$path))
stopwords <- readLines(con = "../data/stopwords.txt",encoding="UTF-8")
oringramme <- read.csv(paste("../data/",ngramfile,".csv",sep=""), header = TRUE, sep = "\t", dec=".", quote="", encoding="UTF-8",stringsAsFactors=FALSE)
syfeaturenames <- read.csv("../data/syfeatures.tsv", header = TRUE, sep = "\t", dec=".", quote="", encoding="UTF-8",stringsAsFactors=FALSE)
# syfeaturenames$navalue<-sapply(syfeaturenames$navalue,as.numeric)
deleteStopwords = function(wl, stopwords = NULL) {
wl[!(wl %in% stopwords)]
}
oringramme <- oringramme %>%
filter(CO_IDIOM < 2) # just two classes: 0 no idiom, 1 idiom
# Reduce number of classes, treat null values, add NSTOPW, change names for SY features
ngramme <- oringramme %>%
add_column(NSTOPW = sapply(oringramme$tokens,function(x) length(deleteStopwords(tolower(unlist(strsplit(x," "))),stopwords)))) %>%
# select(-matches("CO_TOKEN.*"), -tokens) %>%
select(-matches("CO_TOKEN.*")) %>% # keep tokens for interpretability
mutate(across(matches(".rank.*"), ~ replace_na(.x, 1000))) %>%
mutate(across(c("dice", "lfmd", "llr", "ld", "pmi"), ~ replace_na(.x, min(.x) - 1))) %>%
rename_at(syfeaturenames$innames, ~ syfeaturenames[syfeaturenames$innames==.x,]$synames ) %>%
mutate(across(everything(), ~ replace_na(.x, 0))) %>%
mutate(CO_IDIOM = as.factor(if_else(CO_IDIOM == 1, "idiom", "no_idiom"))) # just two classes: 0 no idiom, 1 idiom
# Optional
write.table(ngramme,file=paste("../data/",ngramfile,"_cosy.csv",sep=""), sep = "\t", quote=F)
# featuresets
covars <- c("CO_LL", "CO_Z", "CO_G", "CO_T", "CO_LOGDICE", "CO_PMI", "CO_MI3", "CO_DEREKO", "CO_SGT", "CO_WIN5_VEC","CO_WIN5_VEC_AUTOSEM")
syvars <- c(syfeaturenames$synames,"NSTOPW")
vars <- c(covars,syvars)
# formulae for training and testing rf
fmla <- as.formula(paste("CO_IDIOM ~ ", paste(vars, collapse= "+")))
fmlaco <- as.formula(paste("CO_IDIOM ~ ", paste(covars, collapse= "+")))
fmlasy <- as.formula(paste("CO_IDIOM ~ ", paste(syvars, collapse= "+")))
# Simple train/test split
trainRows <- sample(nrow(ngramme), nrow(ngramme)*0.8, replace = FALSE)
train <- ngramme[trainRows,]
test <- ngramme[setdiff(1:nrow(ngramme),trainRows),]
cat("Random Forest\n")
rf_classifier = randomForest(fmla, train, importance=TRUE)
# only SY features
# rf_classifier = randomForest(fmlasy, train, importance=TRUE)
prediction_for_table <- predict(rf_classifier, test %>% select(-CO_IDIOM))
res <- confusionMatrix(prediction_for_table, test$CO_IDIOM, positive= "idiom")
print(res)
collected_results <- bind_cols("rf" = res$byClass)
# Sensitivity is recall of class 1
# Pos Pred Value is precision
varImpPlot(rf_classifier)
cat("Random Forest with cutoff\n")
prediction_for_table <- predict(rf_classifier,test %>% select(-CO_IDIOM), cutoff = c(0.2, 0.8))
res <- confusionMatrix(prediction_for_table,test$CO_IDIOM, positive = "idiom")
collected_results <- bind_cols(collected_results, "rf with cutoff" = res$byClass)
print(res)
cat("With SMOTE resampled training data\n")
smoted.data <- SMOTE(fmla, subset(train, select = c("CO_IDIOM", vars)), perc.over = 1200, perc.under = 100)
rf_classifier = randomForest(fmla, smoted.data, importance=TRUE)
prediction_for_table <- predict(rf_classifier,test %>% select(-CO_IDIOM))
res <- confusionMatrix(prediction_for_table,test$CO_IDIOM, positive = "idiom")
collected_results <- bind_cols(collected_results, "rf with SMOTE" = res$byClass)
print(res)
cat("With SMOTE and cutoff\n")
prediction_for_table <- predict(rf_classifier,test %>% select(-CO_IDIOM), cutoff = c(0.2, 0.8))
res <- confusionMatrix(prediction_for_table,test$CO_IDIOM, positive = "idiom")
collected_results <- bind_cols(collected_results, "rf with SMOTE and cutoff" = res$byClass)
print(res)
collected_results <- collected_results %>%
round(3) %>%
add_column(measure = names(res$byClass)) %>%
column_to_rownames("measure")
View(collected_results)
# Using estimates by random forest on entire dataset
library(randomForest)
rf_classifier_full = randomForest(fmla, data=ngramme, importance=TRUE)
rf_classifier_full
# class.error is 1 - recall
varImpPlot(rf_classifier_full)
# Feature ranking
# rf features as table
# correlated features seem to split their rankings
rfranks<-importance(rf_classifier_full)[,3:4]
# ttest
idioms<-ngramme %>% filter(CO_IDIOM == "idiom")
nonidioms<-ngramme %>% filter(CO_IDIOM != "idiom")
ttestPvalues<-sapply(vars,
function(sel) t.test(idioms[sel],nonidioms[sel])$p.value)
# information gain
# multiply by 1000 to avoid undersized bins
# features are ranked individually no matter their correlation
igain<-information.gain(fmla, data=ngramme%>%mutate_at(vars, ~ . * 1000),unit="log2")
featureRanks<-cbind(rfranks,igain,ttestPvalues)
#randomForestExplainer::explain_forest(rf_classifier )
# averate estimates and feature ranks over 10 runs
errrate<-0
conf<-matrix(0,2,3)
featureRanks<-matrix(0,4,length(vars))
for (i in 1:10) {
rfc =randomForest(fmla, data=ngramme, importance=TRUE)
#rfc =randomForest(fmla, data=ngramme, importance=TRUE, cutoff=c(0.2, 0.8))
errrate<-errrate+rfc$err.rate[100,1]
conf<-conf+rfc$confusion
featureRanks<-featureRanks+
cbind(importance(rfc)[,3:4],
information.gain(fmla, data=ngramme%>%mutate_at(vars, ~ . * 1000),unit="log2"),
sapply(vars,
function(sel) t.test(idioms[sel],nonidioms[sel])$p.value))
print(errrate/i)
conf1<-round(
rbind(
cbind(conf[,1:2]/i,(1-conf[,3]/i)*100),
c(100*diag(conf[,1:2])/colSums(conf[,1:2]),NA),
c(rowSums(conf[,1:2]/i),NA)),digits=2)
colnames(conf1)<-c("1","0","rec")
rownames(conf1)<-c("1","0","prec","sum")
print(conf1)
}
featureRanks<-featureRanks/10
colnames(featureRanks)<-c("MeanDecreaseAccuracy","MeanDecreaseGini","InformationGain","Ttest")