CSE 340 Project 2 solution

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1. Introduction

You
will be given a lexer that reads tokens from standard input. Your goal is to
write, in C or C++, a program that reads all tokens from standard input by
calling the lexer function getToken() and storing certain tokens in a linked list.
After all tokens are read, your program will print out the content of the
linked list in a specific order.

The
next section describes the lexer API. You also need to read the provided code
in lexer.c
and understand how the lexer works. You will only use the getToken()
function in this project.

2. Lexer
API

There
are two functions that the lexer defines. These two functions compose the
application programming interface (API) of our lexer. These functions are
declared in lexer.h (and implemented in lexer.c ).

You will find the files lexer.h
and lexer.c
on the submission site for project 2.

getToken()
reads the next token from standard input and returns its type as a token_type
enum. If the token is of type ID , NUM , IF ,
WHILE
, DO
, THEN
, or PRINT , then the actual token value is stored in the
global variable current_token as a null-terminated character array and
the length of the string is stored in the global variable token_length
. There are two special

token_type
values: END_OF_FILE
, which is returned when the lexer encounters the end of

standard input and ERROR , which is returned when
the lexer encounters an unrecognized character in the input.

ungetToken() causes the next call
to getToken()
to return the last token read by the previous

call
to getToken()
. Note that this means the next call to getToken() will not read from
standard input. It’s a logical error to call ungetToken() before calling getToken()
. This function is useful for writing recursive descent parsers that you
will see later on in this course.

There
are four global variables declared in lexer.h that are set when getToken()
is called:

t_type :
the token type is stored here. Note that this will be the same value that was
returned by getToken() .

current_token
: the token value is stored in the array current_token . If the token is
of type

ID ,
NUM
, IF
, WHILE
, DO
, THEN
, or PRINT , then current_token contains the token
string. For all other token types, current_token contains the empty
string. token_length
: the length of the string stored in current_token . line :
the current line number of the input when the token was read.

3. Requirements

Your
program should use the provided lexer and read all tokens from the input by
repeatedly calling the getToken() function. Certain token strings and additional
data should be stored in a linked list. Specifically,

if either of the following conditions are
true:

The token is of type NUM

OR

The
token is of type ID AND the actual token is equal to one of the following
values: “cse340”
, “programming”
, or “language”

Then the token string and other information needs to be
stored in a node of a linked list. The information that needs to be stored
about each of these tokens in the linked list is the following:

Token
type (from t_type
)

Token
value (from current_token )

Line
number of the input where token was read (from line )

After reading all tokens from the
input and storing information about tokens that match the criteria, your
program should go over the linked list and print the information in reverse order from when that token was
encountered. Each of the tokens in the linked list must be printed to standard
output on a separate line with the

You
should write all your code in a separate C or C++ file and include lexer.h
to be able to access the lexer functions. Here is how to do it in C:

And this is how to do it in C++:

To compile your code, you should
use the GCC compiler from CentOS 6.7 that you have installed from last project.
This is how to compile your code if you are writing it in C:

To compile your
C++ program, use the following two commands instead:

Example

Here is an
example input with four lines:

Here is the
expected output:

Notice that the tokens are listed from last to first
(reverse order).

4. Testing

This section is relevant to this project as well as all later projects in this course.

4.1. Input
/ Output

Your
program should read the input from standard
input. That is normally the keyboard input and it can be accessed by using
many standard C functions like getchar() , scanf()
etc. In C++, you would use cin to read from standard input. In this project, you
won’t read the input directly, the call to getToken()

would
read the input by using getchar() . Read the source code in lexer.c
to see how this is done.

Your
program should write its output to standard
output. That is normally done by using such functions as printf()
or puts()
in C or using cout in C++.

4.2. Testing
Your Code

Our grading system is automated
hence another program (running on the submission site server) tests your code
for correctness. We provide exact input/output format for every project in
addition to multiple

test
cases . A test case is composed of two parts:

A specific input in a file with .txt
extension

The expected output in a file with .txt.expected
extension

Your
program passes a test case if given
the input in the .txt file, it produces exactly the same output as the
contents of the respective .txt.expected file. Otherwise your program fails that test case.

4.2.1. Testing
with a single test case

To feed the input file to your program without typing its
content on the keyboard, we use input
redirection and you should too! Here is how you would redirect the standard
input of a program to a file:

Let’s
assume that we have a compiled program named a.out (an executable file).
Normally, you would run this program like this (in a terminal):

Which
would wait for you to provide the input by typing it on the keyboard (that is
if the program expects any input). To redirect the standard input to a file
named test01.txt
, you should run the program like this instead:

the program through its standard input.

Similarly, we can redirect the
standard output to a file. This way instead of printing the output of the
program on the terminal, the output will be stored in a file. To redirect the
standard output, we use the “greater than” character with a file name
like this:

NOTE:
if a file with the same name exists, it will be overwritten!

Of course you
can mix input and output redirection as well:

Our
automated grading system compares the output generated by your program with the
expected output by using the diff command. diff is a system utility that is
used to compare the contents of two files. If the files are different, it
produces a report highlighting the differences otherwise it outputs nothing. We
use diff
with -Bw option which causes it to ignore differences in
whitespaces. Here is an example of how to compare the output generated by the
program with the expected file:

4.2.2. Running
multiple test cases

You
can also use the shell script that we have provided called test1.sh
, which automates this process for multiple test cases. The test script
assumes that your compiled program is called a.out and test cases are stored
in a subdirectory named tests .
You can run it like this:

command to fix
the problem:

the
output with the expected file using diff and reports any differences
for failed cases. At the end it will print the number of tests passed and
removes any temporary files created.

It is strongly recommended that you test your program
before submission with the provided test cases the way I described here.

5. Evaluation

Your submission will be graded on the number of test cases
passing when you submit your code. If your program does not compile on the
server, you will not receive any credit, so if you a see a compiler error
message on the submission site, fix the problem and submit again.

6. Submission

Submit
your code on the course submission site. You should only upload your source code. You should not upload
the compiled program or test cases. You should not upload lexer.h
or lexer.c
, these files will be automatically added to your submission. You should
not use space in your file names.