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IntroToTextAnalytics_Part3.R
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IntroToTextAnalytics_Part3.R
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#
# Copyright 2017 Data Science Dojo
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
#
# This R source code file corresponds to video 3 of the Data Science
# Dojo YouTube series "Introduction to Text Analytics with R" located
# at the following URL:
# https://www.youtube.com/watch?v=CQsyVDxK7_g
#
# Install all required packages.
install.packages(c("ggplot2", "e1071", "caret", "quanteda",
"irlba", "randomForest"))
# Load up the .CSV data and explore in RStudio.
spam.raw <- read.csv("spam.csv", stringsAsFactors = FALSE, fileEncoding = "UTF-16")
View(spam.raw)
# Clean up the data frame and view our handiwork.
spam.raw <- spam.raw[, 1:2]
names(spam.raw) <- c("Label", "Text")
View(spam.raw)
# Check data to see if there are missing values.
length(which(!complete.cases(spam.raw)))
# Convert our class label into a factor.
spam.raw$Label <- as.factor(spam.raw$Label)
# The first step, as always, is to explore the data.
# First, let's take a look at distibution of the class labels (i.e., ham vs. spam).
prop.table(table(spam.raw$Label))
# Next up, let's get a feel for the distribution of text lengths of the SMS
# messages by adding a new feature for the length of each message.
spam.raw$TextLength <- nchar(spam.raw$Text)
summary(spam.raw$TextLength)
# Visualize distribution with ggplot2, adding segmentation for ham/spam.
library(ggplot2)
ggplot(spam.raw, aes(x = TextLength, fill = Label)) +
theme_bw() +
geom_histogram(binwidth = 5) +
labs(y = "Text Count", x = "Length of Text",
title = "Distribution of Text Lengths with Class Labels")
# At a minimum we need to split our data into a training set and a
# test set. In a true project we would want to use a three-way split
# of training, validation, and test.
#
# As we know that our data has non-trivial class imbalance, we'll
# use the mighty caret package to create a randomg train/test split
# that ensures the correct ham/spam class label proportions (i.e.,
# we'll use caret for a random stratified split).
library(caret)
help(package = "caret")
# Use caret to create a 70%/30% stratified split. Set the random
# seed for reproducibility.
set.seed(32984)
indexes <- createDataPartition(spam.raw$Label, times = 1,
p = 0.7, list = FALSE)
train <- spam.raw[indexes,]
test <- spam.raw[-indexes,]
# Verify proportions.
prop.table(table(train$Label))
prop.table(table(test$Label))
# Text analytics requires a lot of data exploration, data pre-processing
# and data wrangling. Let's explore some examples.
# HTML-escaped ampersand character.
train$Text[21]
# HTML-escaped '<' and '>' characters. Also note that Mallika Sherawat
# is an actual person, but we will ignore the implications of this for
# this introductory tutorial.
train$Text[38]
# A URL.
train$Text[357]
# There are many packages in the R ecosystem for performing text
# analytics. One of the newer packages in quanteda. The quanteda
# package has many useful functions for quickly and easily working
# with text data.
library(quanteda)
help(package = "quanteda")
# Tokenize SMS text messages.
train.tokens <- tokens(train$Text, what = "word",
remove_numbers = TRUE, remove_punct = TRUE,
remove_symbols = TRUE, remove_hyphens = TRUE)
# Take a look at a specific SMS message and see how it transforms.
train.tokens[[357]]
# Lower case the tokens.
train.tokens <- tokens_tolower(train.tokens)
train.tokens[[357]]
# Use quanteda's built-in stopword list for English.
# NOTE - You should always inspect stopword lists for applicability to
# your problem/domain.
train.tokens <- tokens_select(train.tokens, stopwords(),
selection = "remove")
train.tokens[[357]]
# Perform stemming on the tokens.
train.tokens <- tokens_wordstem(train.tokens, language = "english")
train.tokens[[357]]
# Create our first bag-of-words model.
train.tokens.dfm <- dfm(train.tokens, tolower = FALSE)
# Transform to a matrix and inspect.
train.tokens.matrix <- as.matrix(train.tokens.dfm)
View(train.tokens.matrix[1:20, 1:100])
dim(train.tokens.matrix)
# Investigate the effects of stemming.
colnames(train.tokens.matrix)[1:50]