csci2021/DataLab/datalab-handout/driver.pl
Michael Zhang 1fa36db752
f
2018-01-29 17:45:27 -06:00

439 lines
12 KiB
Perl
Executable file

#!/usr/bin/perl
#######################################################################
# driver.pl - CS:APP Data Lab driver
#
# Copyright (c) 2004-2011, R. Bryant and D. O'Hallaron, All rights
# reserved. May not be used, modified, or copied without permission.
#
# Note: The driver can use either btest or the BDD checker to check
# puzzles for correctness. This version of the lab uses btest, which
# has been extended to do better testing of both integer and
# floating-point puzzles.
#
#######################################################################
use strict 'vars';
use Getopt::Std;
use lib ".";
use Driverlib;
# Set to 1 to use btest, 0 to use the BDD checker.
my $USE_BTEST = 1;
# Generic settings
$| = 1; # Flush stdout each time
umask(0077); # Files created by the user in tmp readable only by that user
$ENV{PATH} = "/usr/local/bin:/usr/bin:/bin";
#
# usage - print help message and terminate
#
sub usage {
printf STDERR "$_[0]\n";
printf STDERR "Usage: $0 [-h] [-u \"nickname\"]\n";
printf STDERR "Options:\n";
printf STDERR " -h Print this message.\n";
printf STDERR " -u \"nickname\" Send autoresult to server, using nickname on scoreboard)\n";
die "\n";
}
##############
# Main routine
##############
my $login = getlogin() || (getpwuid($<))[0] || "unknown";
my $tmpdir = "/var/tmp/datalab.$login.$$";
my $diemsg = "The files are in $tmpdir.";
my $driverfiles;
my $infile;
my $autograded;
my $status;
my $inpuzzles;
my $puzzlecnt;
my $line;
my $blank;
my $name;
my $c_points;
my $c_rating;
my $c_errors;
my $p_points;
my $p_rating;
my $p_errors;
my $total_c_points;
my $total_c_rating;
my $total_p_points;
my $total_p_rating;
my $tops;
my $tpoints;
my $trating;
my $foo;
my $name;
my $msg;
my $nickname;
my $autoresult;
my %puzzle_c_points;
my %puzzle_c_rating;
my %puzzle_c_errors;
my %puzzle_p_points;
my %puzzle_p_ops;
my %puzzle_p_maxops;
my %puzzle_number;
# Parse the command line arguments
no strict;
getopts('hu:f:A');
if ($opt_h) {
usage();
}
# The default input file is bits.c (change with -f)
$infile = "bits.c";
$nickname = "";
#####
# These are command line args that every driver must support
#
# Causes the driver to send an autoresult to the server on behalf of user
if ($opt_u) {
$nickname = $opt_u;
check_nickname($nickname);
}
# Hidden flag that indicates that the driver was invoked by an autograder
if ($opt_A) {
$autograded = $opt_A;
}
#####
# Drivers can also define an arbitary number of other command line args
#
# Optional hidden flag used by the autograder
if ($opt_f) {
$infile = $opt_f;
}
use strict 'vars';
################################################
# Compute the correctness and performance scores
################################################
# Make sure that an executable dlc (data lab compiler) exists
(-e "./dlc" and -x "./dlc")
or die "$0: ERROR: No executable dlc binary.\n";
# If using the bdd checker, then make sure it exists
if (!$USE_BTEST) {
(-e "./bddcheck/cbit/cbit" and -x "./bddcheck/cbit/cbit")
or die "$0: ERROR: No executable cbit binary.\n";
}
#
# Set up the contents of the scratch directory
#
system("mkdir $tmpdir") == 0
or die "$0: Could not make scratch directory $tmpdir.\n";
# Copy the student's work to the scratch directory
unless (system("cp $infile $tmpdir/bits.c") == 0) {
clean($tmpdir);
die "$0: Could not copy file $infile to scratch directory $tmpdir.\n";
}
# Copy the various autograding files to the scratch directory
if ($USE_BTEST) {
$driverfiles = "Makefile dlc btest.c decl.c tests.c btest.h bits.h";
unless (system("cp -r $driverfiles $tmpdir") == 0) {
clean($tmpdir);
die "$0: Could not copy autogradingfiles to $tmpdir.\n";
}
}
else {
$driverfiles = "dlc tests.c bddcheck";
unless (system("cp -r $driverfiles $tmpdir") == 0) {
clean($tmpdir);
die "$0: Could not copy support files to $tmpdir.\n";
}
}
# Change the current working directory to the scratch directory
unless (chdir($tmpdir)) {
clean($tmpdir);
die "$0: Could not change directory to $tmpdir.\n";
}
#
# Generate a zapped (for coding rules) version of bits.c. In this
# zapped version of bits.c, any functions with illegal operators are
# transformed to have empty function bodies.
#
print "1. Running './dlc -z' to identify coding rules violations.\n";
system("cp bits.c save-bits.c") == 0
or die "$0: ERROR: Could not create backup copy of bits.c. $diemsg\n";
system("./dlc -z -o zap-bits.c bits.c") == 0
or die "$0: ERROR: zapped bits.c did not compile. $diemsg\n";
#
# Run btest or BDD checker to determine correctness score
#
if ($USE_BTEST) {
print "\n2. Compiling and running './btest -g' to determine correctness score.\n";
system("cp zap-bits.c bits.c");
# Compile btest
system("make btestexplicit") == 0
or die "$0: Could not make btest in $tmpdir. $diemsg\n";
# Run btest
$status = system("./btest -g > btest-zapped.out 2>&1");
if ($status != 0) {
die "$0: ERROR: btest check failed. $diemsg\n";
}
}
else {
print "\n2. Running './bddcheck/check.pl -g' to determine correctness score.\n";
system("cp zap-bits.c bits.c");
$status = system("./bddcheck/check.pl -g > btest-zapped.out 2>&1");
if ($status != 0) {
die "$0: ERROR: BDD check failed. $diemsg\n";
}
}
#
# Run dlc to identify operator count violations.
#
print "\n3. Running './dlc -Z' to identify operator count violations.\n";
system("./dlc -Z -o Zap-bits.c save-bits.c") == 0
or die "$0: ERROR: dlc unable to generated Zapped bits.c file.\n";
#
# Run btest or the bdd checker to compute performance score
#
if ($USE_BTEST) {
print "\n4. Compiling and running './btest -g -r 2' to determine performance score.\n";
system("cp Zap-bits.c bits.c");
# Compile btest
system("make btestexplicit") == 0
or die "$0: Could not make btest in $tmpdir. $diemsg\n";
print "\n";
# Run btest
$status = system("./btest -g -r 2 > btest-Zapped.out 2>&1");
if ($status != 0) {
die "$0: ERROR: Zapped btest failed. $diemsg\n";
}
}
else {
print "\n4. Running './bddcheck/check.pl -g -r 2' to determine performance score.\n";
system("cp Zap-bits.c bits.c");
$status = system("./bddcheck/check.pl -g -r 2 > btest-Zapped.out 2>&1");
if ($status != 0) {
die "$0: ERROR: Zapped bdd checker failed. $diemsg\n";
}
}
#
# Run dlc to get the operator counts on the zapped input file
#
print "\n5. Running './dlc -e' to get operator count of each function.\n";
$status = system("./dlc -W1 -e zap-bits.c > dlc-opcount.out 2>&1");
if ($status != 0) {
die "$0: ERROR: bits.c did not compile. $diemsg\n";
}
#################################################################
# Collect the correctness and performance results for each puzzle
#################################################################
#
# Collect the correctness results
#
%puzzle_c_points = (); # Correctness score computed by btest
%puzzle_c_errors = (); # Correctness error discovered by btest
%puzzle_c_rating = (); # Correctness puzzle rating (max points)
$inpuzzles = 0; # Becomes true when we start reading puzzle results
$puzzlecnt = 0; # Each puzzle gets a unique number
$total_c_points = 0;
$total_c_rating = 0;
open(INFILE, "$tmpdir/btest-zapped.out")
or die "$0: ERROR: could not open input file $tmpdir/btest-zapped.out\n";
while ($line = <INFILE>) {
chomp($line);
# Notice that we're ready to read the puzzle scores
if ($line =~ /^Score/) {
$inpuzzles = 1;
next;
}
# Notice that we're through reading the puzzle scores
if ($line =~ /^Total/) {
$inpuzzles = 0;
next;
}
# Read and record a puzzle's name and score
if ($inpuzzles) {
($blank, $c_points, $c_rating, $c_errors, $name) = split(/\s+/, $line);
$puzzle_c_points{$name} = $c_points;
$puzzle_c_errors{$name} = $c_errors;
$puzzle_c_rating{$name} = $c_rating;
$puzzle_number{$name} = $puzzlecnt++;
$total_c_points += $c_points;
$total_c_rating += $c_rating;
}
}
close(INFILE);
#
# Collect the performance results
#
%puzzle_p_points = (); # Performance points
$inpuzzles = 0; # Becomes true when we start reading puzzle results
$total_p_points = 0;
$total_p_rating = 0;
open(INFILE, "$tmpdir/btest-Zapped.out")
or die "$0: ERROR: could not open input file $tmpdir/btest-Zapped.out\n";
while ($line = <INFILE>) {
chomp($line);
# Notice that we're ready to read the puzzle scores
if ($line =~ /^Score/) {
$inpuzzles = 1;
next;
}
# Notice that we're through reading the puzzle scores
if ($line =~ /^Total/) {
$inpuzzles = 0;
next;
}
# Read and record a puzzle's name and score
if ($inpuzzles) {
($blank, $p_points, $p_rating, $p_errors, $name) = split(/\s+/, $line);
$puzzle_p_points{$name} = $p_points;
$total_p_points += $p_points;
$total_p_rating += $p_rating;
}
}
close(INFILE);
#
# Collect the operator counts generated by dlc
#
open(INFILE, "$tmpdir/dlc-opcount.out")
or die "$0: ERROR: could not open input file $tmpdir/dlc-opcount.out\n";
$tops = 0;
while ($line = <INFILE>) {
chomp($line);
if ($line =~ /(\d+) operators/) {
($foo, $foo, $foo, $name, $msg) = split(/:/, $line);
$puzzle_p_ops{$name} = $1;
$tops += $1;
}
}
close(INFILE);
#
# Print a table of results sorted by puzzle number
#
print "\n";
printf("%s\t%s\n", "Correctness Results", "Perf Results");
printf("%s\t%s\t%s\t%s\t%s\t%s\n", "Points", "Rating", "Errors",
"Points", "Ops", "Puzzle");
foreach $name (sort {$puzzle_number{$a} <=> $puzzle_number{$b}}
keys %puzzle_number) {
printf("%d\t%d\t%d\t%d\t%d\t\%s\n",
$puzzle_c_points{$name},
$puzzle_c_rating{$name},
$puzzle_c_errors{$name},
$puzzle_p_points{$name},
$puzzle_p_ops{$name},
$name);
}
$tpoints = $total_c_points + $total_p_points;
$trating = $total_c_rating + $total_p_rating;
print "\nScore = $tpoints/$trating [$total_c_points/$total_c_rating Corr + $total_p_points/$total_p_rating Perf] ($tops total operators)\n";
#
# Optionally send the autoresult to the contest server if the driver
# was called with the -u command line flag.
#
if ($nickname) {
# Generate the autoresult
$autoresult = "$tpoints|$total_c_points|$total_p_points|$tops";
foreach $name (sort {$puzzle_number{$a} <=> $puzzle_number{$b}}
keys %puzzle_number) {
$autoresult .= " |$name:$puzzle_c_points{$name}:$puzzle_c_rating{$name}:$puzzle_p_points{$name}:$puzzle_p_ops{$name}";
}
# Post the autoresult to the server. The Linux login id is
# concatenated with the user-supplied nickname for some (very) loose
# authentication of submissions.
&Driverlib::driver_post("$login:$nickname", $autoresult, $autograded);
}
# Clean up and exit
clean ($tmpdir);
exit;
##################
# Helper functions
#
#
# check_nickname - Check a nickname for legality
#
sub check_nickname {
my $nickname = shift;
# Nicknames can't be empty
if (length($nickname) < 1) {
die "$0: Error: Empty nickname.\n";
}
# Nicknames can't be too long
if (length($nickname) > 35) {
die "$0: Error: Nickname exceeds 35 characters.\n";
}
# Nicknames can have restricted set of metacharacters (e.g., no #
# HTML tags)
if (!($nickname =~ /^[_-\w.,'@ ]+$/)) {
die "$0: Error: Illegal character in nickname. Only alphanumerics, apostrophes, commas, periods, dashes, underscores, and ampersands are allowed.\n";
}
# Nicknames can't be all whitespace
if ($nickname =~ /^\s*$/) {
die "$0: Error: Nickname is all whitespace.\n";
}
}
#
# clean - remove the scratch directory
#
sub clean {
my $tmpdir = shift;
system("rm -rf $tmpdir");
}