#!/usr/bin/perl -w # # Copyright (c) International Business Machines Corp., 2002 # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or (at # your option) any later version. # # This program is distributed in the hope that it will be useful, but # WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU # General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA # # # genhtml # # This script generates HTML output from .info files as created by the # geninfo script. Call it with --help and refer to the genhtml man page # to get information on usage and available options. # # # History: # 2002-08-23 created by Peter Oberparleiter # IBM Lab Boeblingen # based on code by Manoj Iyer and # Megan Bock # IBM Austin # 2002-08-27 / Peter Oberparleiter: implemented frame view # 2002-08-29 / Peter Oberparleiter: implemented test description filtering # so that by default only descriptions for test cases which # actually hit some source lines are kept # 2002-09-05 / Peter Oberparleiter: implemented --no-sourceview # 2002-09-05 / Mike Kobler: One of my source file paths includes a "+" in # the directory name. I found that genhtml.pl died when it # encountered it. I was able to fix the problem by modifying # the string with the escape character before parsing it. # 2002-10-26 / Peter Oberparleiter: implemented --num-spaces # 2003-04-07 / Peter Oberparleiter: fixed bug which resulted in an error # when trying to combine .info files containing data without # a test name # 2003-04-10 / Peter Oberparleiter: extended fix by Mike to also cover # other special characters # 2003-04-30 / Peter Oberparleiter: made info write to STDERR, not STDOUT # 2003-07-10 / Peter Oberparleiter: added line checksum support # 2004-08-09 / Peter Oberparleiter: added configuration file support # 2005-03-04 / Cal Pierog: added legend to HTML output, fixed coloring of # "good coverage" background # 2006-03-18 / Marcus Boerger: added --custom-intro, --custom-outro and # overwrite --no-prefix if --prefix is present # 2006-03-20 / Peter Oberparleiter: changes to custom_* function (rename # to html_prolog/_epilog, minor modifications to implementation), # changed prefix/noprefix handling to be consistent with current # logic # 2006-03-20 / Peter Oberparleiter: added --html-extension option # 2008-07-14 / Tom Zoerner: added --function-coverage command line option; # added function table to source file page # 2008-08-13 / Peter Oberparleiter: modified function coverage # implementation (now enabled per default), # introduced sorting option (enabled per default) # use strict; use File::Basename; use Getopt::Long; use Digest::MD5 qw(md5_base64); # Global constants our $title = "LCOV - code coverage report"; our $lcov_version = "LCOV version 1.7"; our $lcov_url = "http://ltp.sourceforge.net/coverage/lcov.php"; our $tool_name = basename($0); # Specify coverage rate limits (in %) for classifying file entries # HI: $hi_limit <= rate <= 100 graph color: green # MED: $med_limit <= rate < $hi_limit graph color: orange # LO: 0 <= rate < $med_limit graph color: red # For line coverage our $hi_limit = 50; our $med_limit = 15; # For function coverage our $fn_hi_limit = 90; our $fn_med_limit = 75; # Width of overview image our $overview_width = 80; # Resolution of overview navigation: this number specifies the maximum # difference in lines between the position a user selected from the overview # and the position the source code window is scrolled to. our $nav_resolution = 4; # Clicking a line in the overview image should show the source code view at # a position a bit further up so that the requested line is not the first # line in the window. This number specifies that offset in lines. our $nav_offset = 10; # Clicking on a function name should show the source code at a position a # few lines before the first line of code of that function. This number # specifies that offset in lines. our $func_offset = 2; our $overview_title = "directory"; # Data related prototypes sub print_usage(*); sub gen_html(); sub html_create($$); sub process_dir($); sub process_file($$$); sub info(@); sub read_info_file($); sub get_info_entry($); sub set_info_entry($$$$$$$;$$$$); sub get_prefix(@); sub shorten_prefix($); sub get_dir_list(@); sub get_relative_base_path($); sub read_testfile($); sub get_date_string(); sub split_filename($); sub create_sub_dir($); sub subtract_counts($$); sub add_counts($$); sub apply_baseline($$); sub remove_unused_descriptions(); sub get_found_and_hit($); sub get_affecting_tests($$); sub combine_info_files($$); sub merge_checksums($$$); sub combine_info_entries($$$); sub apply_prefix($$); sub system_no_output($@); sub read_config($); sub apply_config($); sub get_html_prolog($); sub get_html_epilog($); # HTML related prototypes sub escape_html($); sub get_bar_graph_code($$$); sub write_png_files(); sub write_htaccess_file(); sub write_css_file(); sub write_description_file($$$$$); sub write_function_rable(*$$$); sub write_html(*$); sub write_html_prolog(*$$); sub write_html_epilog(*$;$); sub write_header(*$$$$$$$$); sub write_header_prolog(*$); sub write_header_line(*$@); sub write_header_epilog(*$); sub write_file_table(*$$$$$$); sub write_file_table_prolog(*$$$); sub write_file_table_entry(*$$$$$$$); sub write_file_table_detail_heading(*$$$); sub write_file_table_detail_entry(*$$$$$); sub write_file_table_epilog(*); sub write_test_table_prolog(*$); sub write_test_table_entry(*$$); sub write_test_table_epilog(*); sub write_source($$$$$$); sub write_source_prolog(*); sub write_source_line(*$$$$$); sub write_source_epilog(*); sub write_frameset(*$$$); sub write_overview_line(*$$$); sub write_overview(*$$$$); # External prototype (defined in genpng) sub gen_png($$$@); # Global variables & initialization our %info_data; # Hash containing all data from .info file our $dir_prefix; # Prefix to remove from all sub directories our %test_description; # Hash containing test descriptions if available our $date = get_date_string(); our @info_filenames; # List of .info files to use as data source our $test_title; # Title for output as written to each page header our $output_directory; # Name of directory in which to store output our $base_filename; # Optional name of file containing baseline data our $desc_filename; # Name of file containing test descriptions our $css_filename; # Optional name of external stylesheet file to use our $quiet; # If set, suppress information messages our $help; # Help option flag our $version; # Version option flag our $show_details; # If set, generate detailed directory view our $no_prefix; # If set, do not remove filename prefix our $func_coverage = 1; # If set, generate function coverage statistics our $no_func_coverage; # Disable func_coverage our $sort = 1; # If set, provide directory listings with sorted entries our $no_sort; # Disable sort our $frames; # If set, use frames for source code view our $keep_descriptions; # If set, do not remove unused test case descriptions our $no_sourceview; # If set, do not create a source code view for each file our $highlight; # If set, highlight lines covered by converted data only our $legend; # If set, include legend in output our $tab_size = 8; # Number of spaces to use in place of tab our $config; # Configuration file contents our $html_prolog_file; # Custom HTML prolog file (up to and including ) our $html_epilog_file; # Custom HTML epilog file (from onwards) our $html_prolog; # Actual HTML prolog our $html_epilog; # Actual HTML epilog our $html_ext = "html"; # Extension for generated HTML files our $html_gzip = 0; # Compress with gzip our @fileview_sortlist; our @fileview_sortname = ("", "-sort-l", "-sort-f"); our @funcview_sortlist; our @rate_name = ("Lo", "Med", "Hi"); our @rate_png = ("ruby.png", "amber.png", "emerald.png"); our $cwd = `pwd`; # Current working directory chomp($cwd); our $tool_dir = dirname($0); # Directory where genhtml tool is installed # # Code entry point # $SIG{__WARN__} = \&warn_handler; $SIG{__DIE__} = \&die_handler; # Add current working directory if $tool_dir is not already an absolute path if (! ($tool_dir =~ /^\/(.*)$/)) { $tool_dir = "$cwd/$tool_dir"; } # Read configuration file if available if (-r $ENV{"HOME"}."/.lcovrc") { $config = read_config($ENV{"HOME"}."/.lcovrc"); } elsif (-r "/etc/lcovrc") { $config = read_config("/etc/lcovrc"); } if ($config) { # Copy configuration file values to variables apply_config({ "genhtml_css_file" => \$css_filename, "genhtml_hi_limit" => \$hi_limit, "genhtml_med_limit" => \$med_limit, "genhtml_overview_width" => \$overview_width, "genhtml_nav_resolution" => \$nav_resolution, "genhtml_nav_offset" => \$nav_offset, "genhtml_keep_descriptions" => \$keep_descriptions, "genhtml_no_prefix" => \$no_prefix, "genhtml_no_source" => \$no_sourceview, "genhtml_num_spaces" => \$tab_size, "genhtml_highlight" => \$highlight, "genhtml_legend" => \$legend, "genhtml_html_prolog" => \$html_prolog_file, "genhtml_html_epilog" => \$html_epilog_file, "genhtml_html_extension" => \$html_ext, "genhtml_html_gzip" => \$html_gzip, "genhtml_function_hi_limit" => \$fn_hi_limit, "genhtml_function_med_limit" => \$fn_med_limit, "genhtml_function_coverage" => \$func_coverage, "genhtml_sort" => \$sort, }); } # Parse command line options if (!GetOptions("output-directory=s" => \$output_directory, "title=s" => \$test_title, "description-file=s" => \$desc_filename, "keep-descriptions" => \$keep_descriptions, "css-file=s" => \$css_filename, "baseline-file=s" => \$base_filename, "prefix=s" => \$dir_prefix, "num-spaces=i" => \$tab_size, "no-prefix" => \$no_prefix, "no-sourceview" => \$no_sourceview, "show-details" => \$show_details, "frames" => \$frames, "highlight" => \$highlight, "legend" => \$legend, "quiet" => \$quiet, "help|h|?" => \$help, "version" => \$version, "html-prolog=s" => \$html_prolog_file, "html-epilog=s" => \$html_epilog_file, "html-extension=s" => \$html_ext, "html-gzip" => \$html_gzip, "function-coverage" => \$func_coverage, "no-function-coverage" => \$no_func_coverage, "sort" => \$sort, "no-sort" => \$no_sort, )) { print(STDERR "Use $tool_name --help to get usage information\n"); exit(1); } else { # Merge options if ($no_func_coverage) { $func_coverage = 0; } # Merge sort options if ($no_sort) { $sort = 0; } } @info_filenames = @ARGV; # Check for help option if ($help) { print_usage(*STDOUT); exit(0); } # Check for version option if ($version) { print("$tool_name: $lcov_version\n"); exit(0); } # Check for info filename if (!@info_filenames) { die("No filename specified\n". "Use $tool_name --help to get usage information\n"); } # Generate a title if none is specified if (!$test_title) { if (scalar(@info_filenames) == 1) { # Only one filename specified, use it as title $test_title = basename($info_filenames[0]); } else { # More than one filename specified, used default title $test_title = "unnamed"; } } # Make sure css_filename is an absolute path (in case we're changing # directories) if ($css_filename) { if (!($css_filename =~ /^\/(.*)$/)) { $css_filename = $cwd."/".$css_filename; } } # Make sure tab_size is within valid range if ($tab_size < 1) { print(STDERR "ERROR: invalid number of spaces specified: ". "$tab_size!\n"); exit(1); } # Get HTML prolog and epilog $html_prolog = get_html_prolog($html_prolog_file); $html_epilog = get_html_epilog($html_epilog_file); # Issue a warning if --no-sourceview is enabled together with --frames if ($no_sourceview && defined($frames)) { warn("WARNING: option --frames disabled because --no-sourceview ". "was specified!\n"); $frames = undef; } # Issue a warning if --no-prefix is enabled together with --prefix if ($no_prefix && defined($dir_prefix)) { warn("WARNING: option --prefix disabled because --no-prefix was ". "specified!\n"); $dir_prefix = undef; } if ($sort) { @funcview_sortlist = (0, 1); if ($func_coverage) { @fileview_sortlist = (0, 1, 2); } else { @fileview_sortlist = (0, 1); } } else { @fileview_sortlist = (0); @funcview_sortlist = (0); } if ($frames) { # Include genpng code needed for overview image generation do("$tool_dir/genpng"); } # Make sure output_directory exists, create it if necessary if ($output_directory) { stat($output_directory); if (! -e _) { system("mkdir", "-p", $output_directory) and die("ERROR: cannot create directory $_!\n"); } } # Do something gen_html(); exit(0); # # print_usage(handle) # # Print usage information. # sub print_usage(*) { local *HANDLE = $_[0]; print(HANDLE <$filename") or die("ERROR: cannot open $filename for writing ". "(gzip)!\n"); } else { open($handle, ">$filename") or die("ERROR: cannot open $filename for writing!\n"); } } sub write_dir_page($$$$$$$$$$$$$$) { my ($name, $rel_dir, $base_dir, $title, $trunc_dir, $overall_found, $overall_hit, $total_fn_found, $total_fn_hit, $overview, $testhash, $testfnchash, $view_type, $sort_type) = @_; # Generate directory overview page including details html_create(*HTML_HANDLE, "$rel_dir/index$name.$html_ext"); if (!defined($trunc_dir)) { $trunc_dir = ""; } write_html_prolog(*HTML_HANDLE, $base_dir, "LCOV - $title$trunc_dir"); write_header(*HTML_HANDLE, $view_type, $trunc_dir, $rel_dir, $overall_found, $overall_hit, $total_fn_found, $total_fn_hit, $sort_type); write_file_table(*HTML_HANDLE, $base_dir, $overview, $testhash, $testfnchash, $view_type, $sort_type); write_html_epilog(*HTML_HANDLE, $base_dir); close(*HTML_HANDLE); } # # process_dir(dir_name) # sub process_dir($) { my $abs_dir = $_[0]; my $trunc_dir; my $rel_dir = $abs_dir; my $base_dir; my $filename; my %overview; my $lines_found; my $lines_hit; my $fn_found; my $fn_hit; my $overall_found=0; my $overall_hit=0; my $total_fn_found=0; my $total_fn_hit=0; my $base_name; my $extension; my $testdata; my %testhash; my $testfncdata; my %testfnchash; my @sort_list; local *HTML_HANDLE; # Remove prefix if applicable if (!$no_prefix) { # Match directory name beginning with $dir_prefix $rel_dir = apply_prefix($rel_dir, $dir_prefix); } $trunc_dir = $rel_dir; # Remove leading / if ($rel_dir =~ /^\/(.*)$/) { $rel_dir = substr($rel_dir, 1); } $base_dir = get_relative_base_path($rel_dir); create_sub_dir($rel_dir); # Match filenames which specify files in this directory, not including # sub-directories foreach $filename (grep(/^\Q$abs_dir\E\/[^\/]*$/,keys(%info_data))) { my $page_link; my $func_link; ($lines_found, $lines_hit, $fn_found, $fn_hit, $testdata, $testfncdata) = process_file($trunc_dir, $rel_dir, $filename); $base_name = basename($filename); if ($no_sourceview) { $page_link = ""; } elsif ($frames) { # Link to frameset page $page_link = "$base_name.gcov.frameset.$html_ext"; } else { # Link directory to source code view page $page_link = "$base_name.gcov.$html_ext"; } $overview{$base_name} = [$lines_found, $lines_hit, $fn_found, $fn_hit, $page_link, get_rate($lines_found, $lines_hit), get_rate($fn_found, $fn_hit)]; $testhash{$base_name} = $testdata; $testfnchash{$base_name} = $testfncdata; $overall_found += $lines_found; $overall_hit += $lines_hit; $total_fn_found += $fn_found; $total_fn_hit += $fn_hit; } # Create sorted pages foreach (@fileview_sortlist) { # Generate directory overview page (without details) write_dir_page($fileview_sortname[$_], $rel_dir, $base_dir, $test_title, $trunc_dir, $overall_found, $overall_hit, $total_fn_found, $total_fn_hit, \%overview, {}, {}, 1, $_); if (!$show_details) { next; } # Generate directory overview page including details write_dir_page("-detail".$fileview_sortname[$_], $rel_dir, $base_dir, $test_title, $trunc_dir, $overall_found, $overall_hit, $total_fn_found, $total_fn_hit, \%overview, \%testhash, \%testfnchash, 1, $_); } # Calculate resulting line counts return ($overall_found, $overall_hit, $total_fn_found, $total_fn_hit); } # # get_converted_lines(testdata) # # Return hash of line numbers of those lines which were only covered in # converted data sets. # sub get_converted_lines($) { my $testdata = $_[0]; my $testcount; my %converted; my %nonconverted; my $hash; my $testcase; my $line; my %result; # Get a hash containing line numbers with positive counts both for # converted and original data sets foreach $testcase (keys(%{$testdata})) { # Check to see if this is a converted data set if ($testcase =~ /,diff$/) { $hash = \%converted; } else { $hash = \%nonconverted; } $testcount = $testdata->{$testcase}; # Add lines with a positive count to hash foreach $line (keys%{$testcount}) { if ($testcount->{$line} > 0) { $hash->{$line} = 1; } } } # Combine both hashes to resulting list foreach $line (keys(%converted)) { if (!defined($nonconverted{$line})) { $result{$line} = 1; } } return \%result; } sub write_function_page($$$$$$$$$$$$$$) { my ($base_dir, $rel_dir, $trunc_dir, $base_name, $title, $lines_found, $lines_hit, $fn_found, $fn_hit, $sumcount, $funcdata, $sumfnccount, $testfncdata, $sort_type) = @_; my $pagetitle; my $filename; # Generate function table for this file if ($sort_type == 0) { $filename = "$rel_dir/$base_name.func.$html_ext"; } else { $filename = "$rel_dir/$base_name.func-sort-c.$html_ext"; } html_create(*HTML_HANDLE, $filename); $pagetitle = "LCOV - $title - $trunc_dir/$base_name - functions"; write_html_prolog(*HTML_HANDLE, $base_dir, $pagetitle); write_header(*HTML_HANDLE, 4, "$trunc_dir/$base_name", "$rel_dir/$base_name", $lines_found, $lines_hit, $fn_found, $fn_hit, $sort_type); write_function_table(*HTML_HANDLE, "$base_name.gcov.$html_ext", $sumcount, $funcdata, $sumfnccount, $testfncdata, $base_name, $base_dir, $sort_type); write_html_epilog(*HTML_HANDLE, $base_dir, 1); close(*HTML_HANDLE); } # # process_file(trunc_dir, rel_dir, filename) # sub process_file($$$) { info("Processing file ".apply_prefix($_[2], $dir_prefix)."\n"); my $trunc_dir = $_[0]; my $rel_dir = $_[1]; my $filename = $_[2]; my $base_name = basename($filename); my $base_dir = get_relative_base_path($rel_dir); my $testdata; my $testcount; my $sumcount; my $funcdata; my $checkdata; my $testfncdata; my $sumfnccount; my $lines_found; my $lines_hit; my $fn_found; my $fn_hit; my $converted; my @source; my $pagetitle; local *HTML_HANDLE; ($testdata, $sumcount, $funcdata, $checkdata, $testfncdata, $sumfnccount, $lines_found, $lines_hit, $fn_found, $fn_hit) = get_info_entry($info_data{$filename}); # Return after this point in case user asked us not to generate # source code view if ($no_sourceview) { return ($lines_found, $lines_hit, $fn_found, $fn_hit, $testdata); } $converted = get_converted_lines($testdata); # Generate source code view for this file html_create(*HTML_HANDLE, "$rel_dir/$base_name.gcov.$html_ext"); $pagetitle = "LCOV - $test_title - $trunc_dir/$base_name"; write_html_prolog(*HTML_HANDLE, $base_dir, $pagetitle); write_header(*HTML_HANDLE, 2, "$trunc_dir/$base_name", "$rel_dir/$base_name", $lines_found, $lines_hit, $fn_found, $fn_hit, 0); @source = write_source(*HTML_HANDLE, $filename, $sumcount, $checkdata, $converted, $funcdata); write_html_epilog(*HTML_HANDLE, $base_dir, 1); close(*HTML_HANDLE); if ($func_coverage) { # Create function tables foreach (@funcview_sortlist) { write_function_page($base_dir, $rel_dir, $trunc_dir, $base_name, $test_title, $lines_found, $lines_hit, $fn_found, $fn_hit, $sumcount, $funcdata, $sumfnccount, $testfncdata, $_); } } # Additional files are needed in case of frame output if (!$frames) { return ($lines_found, $lines_hit, $fn_found, $fn_hit, $testdata); } # Create overview png file gen_png("$rel_dir/$base_name.gcov.png", $overview_width, $tab_size, @source); # Create frameset page html_create(*HTML_HANDLE, "$rel_dir/$base_name.gcov.frameset.$html_ext"); write_frameset(*HTML_HANDLE, $base_dir, $base_name, $pagetitle); close(*HTML_HANDLE); # Write overview frame html_create(*HTML_HANDLE, "$rel_dir/$base_name.gcov.overview.$html_ext"); write_overview(*HTML_HANDLE, $base_dir, $base_name, $pagetitle, scalar(@source)); close(*HTML_HANDLE); return ($lines_found, $lines_hit, $fn_found, $fn_hit, $testdata, $testfncdata); } # # read_info_file(info_filename) # # Read in the contents of the .info file specified by INFO_FILENAME. Data will # be returned as a reference to a hash containing the following mappings: # # %result: for each filename found in file -> \%data # # %data: "test" -> \%testdata # "sum" -> \%sumcount # "func" -> \%funcdata # "found" -> $lines_found (number of instrumented lines found in file) # "hit" -> $lines_hit (number of executed lines in file) # "check" -> \%checkdata # "testfnc" -> \%testfncdata # "sumfnc" -> \%sumfnccount # # %testdata : name of test affecting this file -> \%testcount # %testfncdata: name of test affecting this file -> \%testfnccount # # %testcount : line number -> execution count for a single test # %testfnccount: function name -> execution count for a single test # %sumcount : line number -> execution count for all tests # %sumfnccount : function name -> execution count for all tests # %funcdata : function name -> line number # %checkdata : line number -> checksum of source code line # # Note that .info file sections referring to the same file and test name # will automatically be combined by adding all execution counts. # # Note that if INFO_FILENAME ends with ".gz", it is assumed that the file # is compressed using GZIP. If available, GUNZIP will be used to decompress # this file. # # Die on error. # sub read_info_file($) { my $tracefile = $_[0]; # Name of tracefile my %result; # Resulting hash: file -> data my $data; # Data handle for current entry my $testdata; # " " my $testcount; # " " my $sumcount; # " " my $funcdata; # " " my $checkdata; # " " my $testfncdata; my $testfnccount; my $sumfnccount; my $line; # Current line read from .info file my $testname; # Current test name my $filename; # Current filename my $hitcount; # Count for lines hit my $count; # Execution count of current line my $negative; # If set, warn about negative counts my $changed_testname; # If set, warn about changed testname my $line_checksum; # Checksum of current line local *INFO_HANDLE; # Filehandle for .info file info("Reading data file $tracefile\n"); # Check if file exists and is readable stat($_[0]); if (!(-r _)) { die("ERROR: cannot read file $_[0]!\n"); } # Check if this is really a plain file if (!(-f _)) { die("ERROR: not a plain file: $_[0]!\n"); } # Check for .gz extension if ($_[0] =~ /\.gz$/) { # Check for availability of GZIP tool system_no_output(1, "gunzip" ,"-h") and die("ERROR: gunzip command not available!\n"); # Check integrity of compressed file system_no_output(1, "gunzip", "-t", $_[0]) and die("ERROR: integrity check failed for ". "compressed file $_[0]!\n"); # Open compressed file open(INFO_HANDLE, "gunzip -c $_[0]|") or die("ERROR: cannot start gunzip to decompress ". "file $_[0]!\n"); } else { # Open decompressed file open(INFO_HANDLE, $_[0]) or die("ERROR: cannot read file $_[0]!\n"); } $testname = ""; while () { chomp($_); $line = $_; # Switch statement foreach ($line) { /^TN:([^,]*)/ && do { # Test name information found $testname = defined($1) ? $1 : ""; if ($testname =~ s/\W/_/g) { $changed_testname = 1; } last; }; /^[SK]F:(.*)/ && do { # Filename information found # Retrieve data for new entry $filename = $1; $data = $result{$filename}; ($testdata, $sumcount, $funcdata, $checkdata, $testfncdata, $sumfnccount) = get_info_entry($data); if (defined($testname)) { $testcount = $testdata->{$testname}; $testfnccount = $testfncdata->{$testname}; } else { $testcount = {}; $testfnccount = {}; } last; }; /^DA:(\d+),(-?\d+)(,[^,\s]+)?/ && do { # Fix negative counts $count = $2 < 0 ? 0 : $2; if ($2 < 0) { $negative = 1; } # Execution count found, add to structure # Add summary counts $sumcount->{$1} += $count; # Add test-specific counts if (defined($testname)) { $testcount->{$1} += $count; } # Store line checksum if available if (defined($3)) { $line_checksum = substr($3, 1); # Does it match a previous definition if (defined($checkdata->{$1}) && ($checkdata->{$1} ne $line_checksum)) { die("ERROR: checksum mismatch ". "at $filename:$1\n"); } $checkdata->{$1} = $line_checksum; } last; }; /^FN:(\d+),([^,]+)/ && do { # Function data found, add to structure $funcdata->{$2} = $1; # Also initialize function call data if (!defined($sumfnccount->{$2})) { $sumfnccount->{$2} = 0; } if (defined($testname)) { if (!defined($testfnccount->{$2})) { $testfnccount->{$2} = 0; } } last; }; /^FNDA:(\d+),([^,]+)/ && do { # Function call count found, add to structure # Add summary counts $sumfnccount->{$2} += $1; # Add test-specific counts if (defined($testname)) { $testfnccount->{$2} += $1; } last; }; /^end_of_record/ && do { # Found end of section marker if ($filename) { # Store current section data if (defined($testname)) { $testdata->{$testname} = $testcount; $testfncdata->{$testname} = $testfnccount; } set_info_entry($data, $testdata, $sumcount, $funcdata, $checkdata, $testfncdata, $sumfnccount); $result{$filename} = $data; last; } }; # default last; } } close(INFO_HANDLE); # Calculate lines_found and lines_hit for each file foreach $filename (keys(%result)) { $data = $result{$filename}; ($testdata, $sumcount, undef, undef, $testfncdata, $sumfnccount) = get_info_entry($data); # Filter out empty files if (scalar(keys(%{$sumcount})) == 0) { delete($result{$filename}); next; } # Filter out empty test cases foreach $testname (keys(%{$testdata})) { if (!defined($testdata->{$testname}) || scalar(keys(%{$testdata->{$testname}})) == 0) { delete($testdata->{$testname}); delete($testfncdata->{$testname}); } } $data->{"found"} = scalar(keys(%{$sumcount})); $hitcount = 0; foreach (keys(%{$sumcount})) { if ($sumcount->{$_} > 0) { $hitcount++; } } $data->{"hit"} = $hitcount; # Get found/hit values for function call data $data->{"f_found"} = scalar(keys(%{$sumfnccount})); $hitcount = 0; foreach (keys(%{$sumfnccount})) { if ($sumfnccount->{$_} > 0) { $hitcount++; } } $data->{"f_hit"} = $hitcount; } if (scalar(keys(%result)) == 0) { die("ERROR: no valid records found in tracefile $tracefile\n"); } if ($negative) { warn("WARNING: negative counts found in tracefile ". "$tracefile\n"); } if ($changed_testname) { warn("WARNING: invalid characters removed from testname in ". "tracefile $tracefile\n"); } return(\%result); } # # get_info_entry(hash_ref) # # Retrieve data from an entry of the structure generated by read_info_file(). # Return a list of references to hashes: # (test data hash ref, sum count hash ref, funcdata hash ref, checkdata hash # ref, testfncdata hash ref, sumfnccount hash ref, lines found, lines hit, # functions found, functions hit) # sub get_info_entry($) { my $testdata_ref = $_[0]->{"test"}; my $sumcount_ref = $_[0]->{"sum"}; my $funcdata_ref = $_[0]->{"func"}; my $checkdata_ref = $_[0]->{"check"}; my $testfncdata = $_[0]->{"testfnc"}; my $sumfnccount = $_[0]->{"sumfnc"}; my $lines_found = $_[0]->{"found"}; my $lines_hit = $_[0]->{"hit"}; my $fn_found = $_[0]->{"f_found"}; my $fn_hit = $_[0]->{"f_hit"}; return ($testdata_ref, $sumcount_ref, $funcdata_ref, $checkdata_ref, $testfncdata, $sumfnccount, $lines_found, $lines_hit, $fn_found, $fn_hit); } # # set_info_entry(hash_ref, testdata_ref, sumcount_ref, funcdata_ref, # checkdata_ref, testfncdata_ref, sumfcncount_ref[,lines_found, # lines_hit, f_found, f_hit]) # # Update the hash referenced by HASH_REF with the provided data references. # sub set_info_entry($$$$$$$;$$$$) { my $data_ref = $_[0]; $data_ref->{"test"} = $_[1]; $data_ref->{"sum"} = $_[2]; $data_ref->{"func"} = $_[3]; $data_ref->{"check"} = $_[4]; $data_ref->{"testfnc"} = $_[5]; $data_ref->{"sumfnc"} = $_[6]; if (defined($_[7])) { $data_ref->{"found"} = $_[7]; } if (defined($_[8])) { $data_ref->{"hit"} = $_[8]; } if (defined($_[9])) { $data_ref->{"f_found"} = $_[9]; } if (defined($_[10])) { $data_ref->{"f_hit"} = $_[10]; } } # # add_counts(data1_ref, data2_ref) # # DATA1_REF and DATA2_REF are references to hashes containing a mapping # # line number -> execution count # # Return a list (RESULT_REF, LINES_FOUND, LINES_HIT) where RESULT_REF # is a reference to a hash containing the combined mapping in which # execution counts are added. # sub add_counts($$) { my %data1 = %{$_[0]}; # Hash 1 my %data2 = %{$_[1]}; # Hash 2 my %result; # Resulting hash my $line; # Current line iteration scalar my $data1_count; # Count of line in hash1 my $data2_count; # Count of line in hash2 my $found = 0; # Total number of lines found my $hit = 0; # Number of lines with a count > 0 foreach $line (keys(%data1)) { $data1_count = $data1{$line}; $data2_count = $data2{$line}; # Add counts if present in both hashes if (defined($data2_count)) { $data1_count += $data2_count; } # Store sum in %result $result{$line} = $data1_count; $found++; if ($data1_count > 0) { $hit++; } } # Add lines unique to data2 foreach $line (keys(%data2)) { # Skip lines already in data1 if (defined($data1{$line})) { next; } # Copy count from data2 $result{$line} = $data2{$line}; $found++; if ($result{$line} > 0) { $hit++; } } return (\%result, $found, $hit); } # # merge_checksums(ref1, ref2, filename) # # REF1 and REF2 are references to hashes containing a mapping # # line number -> checksum # # Merge checksum lists defined in REF1 and REF2 and return reference to # resulting hash. Die if a checksum for a line is defined in both hashes # but does not match. # sub merge_checksums($$$) { my $ref1 = $_[0]; my $ref2 = $_[1]; my $filename = $_[2]; my %result; my $line; foreach $line (keys(%{$ref1})) { if (defined($ref2->{$line}) && ($ref1->{$line} ne $ref2->{$line})) { die("ERROR: checksum mismatch at $filename:$line\n"); } $result{$line} = $ref1->{$line}; } foreach $line (keys(%{$ref2})) { $result{$line} = $ref2->{$line}; } return \%result; } # # merge_func_data(funcdata1, funcdata2, filename) # sub merge_func_data($$$) { my ($funcdata1, $funcdata2, $filename) = @_; my %result; my $func; %result = %{$funcdata1}; foreach $func (keys(%{$funcdata2})) { my $line1 = $result{$func}; my $line2 = $funcdata2->{$func}; if (defined($line1) && ($line1 != $line2)) { warn("WARNING: function data mismatch at ". "$filename:$line2\n"); next; } $result{$func} = $line2; } return \%result; } # # add_fnccount(fnccount1, fnccount2) # # Add function call count data. Return list (fnccount_added, f_found, f_hit) # sub add_fnccount($$) { my ($fnccount1, $fnccount2) = @_; my %result; my $fn_found; my $fn_hit; my $function; %result = %{$fnccount1}; foreach $function (keys(%{$fnccount2})) { $result{$function} += $fnccount2->{$function}; } $fn_found = scalar(keys(%result)); $fn_hit = 0; foreach $function (keys(%result)) { if ($result{$function} > 0) { $fn_hit++; } } return (\%result, $fn_found, $fn_hit); } # # add_testfncdata(testfncdata1, testfncdata2) # # Add function call count data for several tests. Return reference to # added_testfncdata. # sub add_testfncdata($$) { my ($testfncdata1, $testfncdata2) = @_; my %result; my $testname; foreach $testname (keys(%{$testfncdata1})) { if (defined($testfncdata2->{$testname})) { my $fnccount; # Function call count data for this testname exists # in both data sets: add ($fnccount) = add_fnccount( $testfncdata1->{$testname}, $testfncdata2->{$testname}); $result{$testname} = $fnccount; next; } # Function call count data for this testname is unique to # data set 1: copy $result{$testname} = $testfncdata1->{$testname}; } # Add count data for testnames unique to data set 2 foreach $testname (keys(%{$testfncdata2})) { if (!defined($result{$testname})) { $result{$testname} = $testfncdata2->{$testname}; } } return \%result; } # # combine_info_entries(entry_ref1, entry_ref2, filename) # # Combine .info data entry hashes referenced by ENTRY_REF1 and ENTRY_REF2. # Return reference to resulting hash. # sub combine_info_entries($$$) { my $entry1 = $_[0]; # Reference to hash containing first entry my $testdata1; my $sumcount1; my $funcdata1; my $checkdata1; my $testfncdata1; my $sumfnccount1; my $entry2 = $_[1]; # Reference to hash containing second entry my $testdata2; my $sumcount2; my $funcdata2; my $checkdata2; my $testfncdata2; my $sumfnccount2; my %result; # Hash containing combined entry my %result_testdata; my $result_sumcount = {}; my $result_funcdata; my $result_testfncdata; my $result_sumfnccount; my $lines_found; my $lines_hit; my $fn_found; my $fn_hit; my $testname; my $filename = $_[2]; # Retrieve data ($testdata1, $sumcount1, $funcdata1, $checkdata1, $testfncdata1, $sumfnccount1) = get_info_entry($entry1); ($testdata2, $sumcount2, $funcdata2, $checkdata2, $testfncdata2, $sumfnccount2) = get_info_entry($entry2); # Merge checksums $checkdata1 = merge_checksums($checkdata1, $checkdata2, $filename); # Combine funcdata $result_funcdata = merge_func_data($funcdata1, $funcdata2, $filename); # Combine function call count data $result_testfncdata = add_testfncdata($testfncdata1, $testfncdata2); ($result_sumfnccount, $fn_found, $fn_hit) = add_fnccount($sumfnccount1, $sumfnccount2); # Combine testdata foreach $testname (keys(%{$testdata1})) { if (defined($testdata2->{$testname})) { # testname is present in both entries, requires # combination ($result_testdata{$testname}) = add_counts($testdata1->{$testname}, $testdata2->{$testname}); } else { # testname only present in entry1, add to result $result_testdata{$testname} = $testdata1->{$testname}; } # update sum count hash ($result_sumcount, $lines_found, $lines_hit) = add_counts($result_sumcount, $result_testdata{$testname}); } foreach $testname (keys(%{$testdata2})) { # Skip testnames already covered by previous iteration if (defined($testdata1->{$testname})) { next; } # testname only present in entry2, add to result hash $result_testdata{$testname} = $testdata2->{$testname}; # update sum count hash ($result_sumcount, $lines_found, $lines_hit) = add_counts($result_sumcount, $result_testdata{$testname}); } # Calculate resulting sumcount # Store result set_info_entry(\%result, \%result_testdata, $result_sumcount, $result_funcdata, $checkdata1, $result_testfncdata, $result_sumfnccount, $lines_found, $lines_hit, $fn_found, $fn_hit); return(\%result); } # # combine_info_files(info_ref1, info_ref2) # # Combine .info data in hashes referenced by INFO_REF1 and INFO_REF2. Return # reference to resulting hash. # sub combine_info_files($$) { my %hash1 = %{$_[0]}; my %hash2 = %{$_[1]}; my $filename; foreach $filename (keys(%hash2)) { if ($hash1{$filename}) { # Entry already exists in hash1, combine them $hash1{$filename} = combine_info_entries($hash1{$filename}, $hash2{$filename}, $filename); } else { # Entry is unique in both hashes, simply add to # resulting hash $hash1{$filename} = $hash2{$filename}; } } return(\%hash1); } # # get_prefix(filename_list) # # Search FILENAME_LIST for a directory prefix which is common to as many # list entries as possible, so that removing this prefix will minimize the # sum of the lengths of all resulting shortened filenames. # sub get_prefix(@) { my @filename_list = @_; # provided list of filenames my %prefix; # mapping: prefix -> sum of lengths my $current; # Temporary iteration variable # Find list of prefixes foreach (@filename_list) { # Need explicit assignment to get a copy of $_ so that # shortening the contained prefix does not affect the list $current = shorten_prefix($_); while ($current = shorten_prefix($current)) { # Skip rest if the remaining prefix has already been # added to hash if ($prefix{$current}) { last; } # Initialize with 0 $prefix{$current}="0"; } } # Calculate sum of lengths for all prefixes foreach $current (keys(%prefix)) { foreach (@filename_list) { # Add original length $prefix{$current} += length($_); # Check whether prefix matches if (substr($_, 0, length($current)) eq $current) { # Subtract prefix length for this filename $prefix{$current} -= length($current); } } } # Find and return prefix with minimal sum $current = (keys(%prefix))[0]; foreach (keys(%prefix)) { if ($prefix{$_} < $prefix{$current}) { $current = $_; } } return($current); } # # shorten_prefix(prefix) # # Return PREFIX shortened by last directory component. # sub shorten_prefix($) { my @list = split("/", $_[0]); pop(@list); return join("/", @list); } # # get_dir_list(filename_list) # # Return sorted list of directories for each entry in given FILENAME_LIST. # sub get_dir_list(@) { my %result; foreach (@_) { $result{shorten_prefix($_)} = ""; } return(sort(keys(%result))); } # # get_relative_base_path(subdirectory) # # Return a relative path string which references the base path when applied # in SUBDIRECTORY. # # Example: get_relative_base_path("fs/mm") -> "../../" # sub get_relative_base_path($) { my $result = ""; my $index; # Make an empty directory path a special case if (!$_[0]) { return(""); } # Count number of /s in path $index = ($_[0] =~ s/\//\//g); # Add a ../ to $result for each / in the directory path + 1 for (; $index>=0; $index--) { $result .= "../"; } return $result; } # # read_testfile(test_filename) # # Read in file TEST_FILENAME which contains test descriptions in the format: # # TN: # TD: # # for each test case. Return a reference to a hash containing a mapping # # test name -> test description. # # Die on error. # sub read_testfile($) { my %result; my $test_name; my $changed_testname; local *TEST_HANDLE; open(TEST_HANDLE, "<".$_[0]) or die("ERROR: cannot open $_[0]!\n"); while () { chomp($_); # Match lines beginning with TN: if (/^TN:\s+(.*?)\s*$/) { # Store name for later use $test_name = $1; if ($test_name =~ s/\W/_/g) { $changed_testname = 1; } } # Match lines beginning with TD: if (/^TD:\s+(.*?)\s*$/) { # Check for empty line if ($1) { # Add description to hash $result{$test_name} .= " $1"; } else { # Add empty line $result{$test_name} .= "\n\n"; } } } close(TEST_HANDLE); if ($changed_testname) { warn("WARNING: invalid characters removed from testname in ". "descriptions file $_[0]\n"); } return \%result; } # # escape_html(STRING) # # Return a copy of STRING in which all occurrences of HTML special characters # are escaped. # sub escape_html($) { my $string = $_[0]; if (!$string) { return ""; } $string =~ s/&/&/g; # & -> & $string =~ s/ < $string =~ s/>/>/g; # > -> > $string =~ s/\"/"/g; # " -> " while ($string =~ /^([^\t]*)(\t)/) { my $replacement = " "x($tab_size - (length($1) % $tab_size)); $string =~ s/^([^\t]*)(\t)/$1$replacement/; } $string =~ s/\n/
/g; # \n ->
return $string; } # # get_date_string() # # Return the current date in the form: yyyy-mm-dd # sub get_date_string() { my $year; my $month; my $day; ($year, $month, $day) = (localtime())[5, 4, 3]; return sprintf("%d-%02d-%02d", $year+1900, $month+1, $day); } # # create_sub_dir(dir_name) # # Create subdirectory DIR_NAME if it does not already exist, including all its # parent directories. # # Die on error. # sub create_sub_dir($) { system("mkdir", "-p" ,$_[0]) and die("ERROR: cannot create directory $_!\n"); } # # write_description_file(descriptions, overall_found, overall_hit, # total_fn_found, total_fn_hit) # # Write HTML file containing all test case descriptions. DESCRIPTIONS is a # reference to a hash containing a mapping # # test case name -> test case description # # Die on error. # sub write_description_file($$$$$) { my %description = %{$_[0]}; my $found = $_[1]; my $hit = $_[2]; my $fn_found = $_[3]; my $fn_hit = $_[4]; my $test_name; local *HTML_HANDLE; html_create(*HTML_HANDLE,"descriptions.$html_ext"); write_html_prolog(*HTML_HANDLE, "", "LCOV - test case descriptions"); write_header(*HTML_HANDLE, 3, "", "", $found, $hit, $fn_found, $fn_hit, 0); write_test_table_prolog(*HTML_HANDLE, "Test case descriptions - alphabetical list"); foreach $test_name (sort(keys(%description))) { write_test_table_entry(*HTML_HANDLE, $test_name, escape_html($description{$test_name})); } write_test_table_epilog(*HTML_HANDLE); write_html_epilog(*HTML_HANDLE, ""); close(*HTML_HANDLE); } # # write_png_files() # # Create all necessary .png files for the HTML-output in the current # directory. .png-files are used as bar graphs. # # Die on error. # sub write_png_files() { my %data; local *PNG_HANDLE; $data{"ruby.png"} = [0x89, 0x50, 0x4e, 0x47, 0x0d, 0x0a, 0x1a, 0x0a, 0x00, 0x00, 0x00, 0x0d, 0x49, 0x48, 0x44, 0x52, 0x00, 0x00, 0x00, 0x01, 0x00, 0x00, 0x00, 0x01, 0x01, 0x03, 0x00, 0x00, 0x00, 0x25, 0xdb, 0x56, 0xca, 0x00, 0x00, 0x00, 0x07, 0x74, 0x49, 0x4d, 0x45, 0x07, 0xd2, 0x07, 0x11, 0x0f, 0x18, 0x10, 0x5d, 0x57, 0x34, 0x6e, 0x00, 0x00, 0x00, 0x09, 0x70, 0x48, 0x59, 0x73, 0x00, 0x00, 0x0b, 0x12, 0x00, 0x00, 0x0b, 0x12, 0x01, 0xd2, 0xdd, 0x7e, 0xfc, 0x00, 0x00, 0x00, 0x04, 0x67, 0x41, 0x4d, 0x41, 0x00, 0x00, 0xb1, 0x8f, 0x0b, 0xfc, 0x61, 0x05, 0x00, 0x00, 0x00, 0x06, 0x50, 0x4c, 0x54, 0x45, 0xff, 0x35, 0x2f, 0x00, 0x00, 0x00, 0xd0, 0x33, 0x9a, 0x9d, 0x00, 0x00, 0x00, 0x0a, 0x49, 0x44, 0x41, 0x54, 0x78, 0xda, 0x63, 0x60, 0x00, 0x00, 0x00, 0x02, 0x00, 0x01, 0xe5, 0x27, 0xde, 0xfc, 0x00, 0x00, 0x00, 0x00, 0x49, 0x45, 0x4e, 0x44, 0xae, 0x42, 0x60, 0x82]; $data{"amber.png"} = [0x89, 0x50, 0x4e, 0x47, 0x0d, 0x0a, 0x1a, 0x0a, 0x00, 0x00, 0x00, 0x0d, 0x49, 0x48, 0x44, 0x52, 0x00, 0x00, 0x00, 0x01, 0x00, 0x00, 0x00, 0x01, 0x01, 0x03, 0x00, 0x00, 0x00, 0x25, 0xdb, 0x56, 0xca, 0x00, 0x00, 0x00, 0x07, 0x74, 0x49, 0x4d, 0x45, 0x07, 0xd2, 0x07, 0x11, 0x0f, 0x28, 0x04, 0x98, 0xcb, 0xd6, 0xe0, 0x00, 0x00, 0x00, 0x09, 0x70, 0x48, 0x59, 0x73, 0x00, 0x00, 0x0b, 0x12, 0x00, 0x00, 0x0b, 0x12, 0x01, 0xd2, 0xdd, 0x7e, 0xfc, 0x00, 0x00, 0x00, 0x04, 0x67, 0x41, 0x4d, 0x41, 0x00, 0x00, 0xb1, 0x8f, 0x0b, 0xfc, 0x61, 0x05, 0x00, 0x00, 0x00, 0x06, 0x50, 0x4c, 0x54, 0x45, 0xff, 0xe0, 0x50, 0x00, 0x00, 0x00, 0xa2, 0x7a, 0xda, 0x7e, 0x00, 0x00, 0x00, 0x0a, 0x49, 0x44, 0x41, 0x54, 0x78, 0xda, 0x63, 0x60, 0x00, 0x00, 0x00, 0x02, 0x00, 0x01, 0xe5, 0x27, 0xde, 0xfc, 0x00, 0x00, 0x00, 0x00, 0x49, 0x45, 0x4e, 0x44, 0xae, 0x42, 0x60, 0x82]; $data{"emerald.png"} = [0x89, 0x50, 0x4e, 0x47, 0x0d, 0x0a, 0x1a, 0x0a, 0x00, 0x00, 0x00, 0x0d, 0x49, 0x48, 0x44, 0x52, 0x00, 0x00, 0x00, 0x01, 0x00, 0x00, 0x00, 0x01, 0x01, 0x03, 0x00, 0x00, 0x00, 0x25, 0xdb, 0x56, 0xca, 0x00, 0x00, 0x00, 0x07, 0x74, 0x49, 0x4d, 0x45, 0x07, 0xd2, 0x07, 0x11, 0x0f, 0x22, 0x2b, 0xc9, 0xf5, 0x03, 0x33, 0x00, 0x00, 0x00, 0x09, 0x70, 0x48, 0x59, 0x73, 0x00, 0x00, 0x0b, 0x12, 0x00, 0x00, 0x0b, 0x12, 0x01, 0xd2, 0xdd, 0x7e, 0xfc, 0x00, 0x00, 0x00, 0x04, 0x67, 0x41, 0x4d, 0x41, 0x00, 0x00, 0xb1, 0x8f, 0x0b, 0xfc, 0x61, 0x05, 0x00, 0x00, 0x00, 0x06, 0x50, 0x4c, 0x54, 0x45, 0x1b, 0xea, 0x59, 0x0a, 0x0a, 0x0a, 0x0f, 0xba, 0x50, 0x83, 0x00, 0x00, 0x00, 0x0a, 0x49, 0x44, 0x41, 0x54, 0x78, 0xda, 0x63, 0x60, 0x00, 0x00, 0x00, 0x02, 0x00, 0x01, 0xe5, 0x27, 0xde, 0xfc, 0x00, 0x00, 0x00, 0x00, 0x49, 0x45, 0x4e, 0x44, 0xae, 0x42, 0x60, 0x82]; $data{"snow.png"} = [0x89, 0x50, 0x4e, 0x47, 0x0d, 0x0a, 0x1a, 0x0a, 0x00, 0x00, 0x00, 0x0d, 0x49, 0x48, 0x44, 0x52, 0x00, 0x00, 0x00, 0x01, 0x00, 0x00, 0x00, 0x01, 0x01, 0x03, 0x00, 0x00, 0x00, 0x25, 0xdb, 0x56, 0xca, 0x00, 0x00, 0x00, 0x07, 0x74, 0x49, 0x4d, 0x45, 0x07, 0xd2, 0x07, 0x11, 0x0f, 0x1e, 0x1d, 0x75, 0xbc, 0xef, 0x55, 0x00, 0x00, 0x00, 0x09, 0x70, 0x48, 0x59, 0x73, 0x00, 0x00, 0x0b, 0x12, 0x00, 0x00, 0x0b, 0x12, 0x01, 0xd2, 0xdd, 0x7e, 0xfc, 0x00, 0x00, 0x00, 0x04, 0x67, 0x41, 0x4d, 0x41, 0x00, 0x00, 0xb1, 0x8f, 0x0b, 0xfc, 0x61, 0x05, 0x00, 0x00, 0x00, 0x06, 0x50, 0x4c, 0x54, 0x45, 0xff, 0xff, 0xff, 0x00, 0x00, 0x00, 0x55, 0xc2, 0xd3, 0x7e, 0x00, 0x00, 0x00, 0x0a, 0x49, 0x44, 0x41, 0x54, 0x78, 0xda, 0x63, 0x60, 0x00, 0x00, 0x00, 0x02, 0x00, 0x01, 0xe5, 0x27, 0xde, 0xfc, 0x00, 0x00, 0x00, 0x00, 0x49, 0x45, 0x4e, 0x44, 0xae, 0x42, 0x60, 0x82]; $data{"glass.png"} = [0x89, 0x50, 0x4e, 0x47, 0x0d, 0x0a, 0x1a, 0x0a, 0x00, 0x00, 0x00, 0x0d, 0x49, 0x48, 0x44, 0x52, 0x00, 0x00, 0x00, 0x01, 0x00, 0x00, 0x00, 0x01, 0x01, 0x03, 0x00, 0x00, 0x00, 0x25, 0xdb, 0x56, 0xca, 0x00, 0x00, 0x00, 0x04, 0x67, 0x41, 0x4d, 0x41, 0x00, 0x00, 0xb1, 0x8f, 0x0b, 0xfc, 0x61, 0x05, 0x00, 0x00, 0x00, 0x06, 0x50, 0x4c, 0x54, 0x45, 0xff, 0xff, 0xff, 0x00, 0x00, 0x00, 0x55, 0xc2, 0xd3, 0x7e, 0x00, 0x00, 0x00, 0x01, 0x74, 0x52, 0x4e, 0x53, 0x00, 0x40, 0xe6, 0xd8, 0x66, 0x00, 0x00, 0x00, 0x01, 0x62, 0x4b, 0x47, 0x44, 0x00, 0x88, 0x05, 0x1d, 0x48, 0x00, 0x00, 0x00, 0x09, 0x70, 0x48, 0x59, 0x73, 0x00, 0x00, 0x0b, 0x12, 0x00, 0x00, 0x0b, 0x12, 0x01, 0xd2, 0xdd, 0x7e, 0xfc, 0x00, 0x00, 0x00, 0x07, 0x74, 0x49, 0x4d, 0x45, 0x07, 0xd2, 0x07, 0x13, 0x0f, 0x08, 0x19, 0xc4, 0x40, 0x56, 0x10, 0x00, 0x00, 0x00, 0x0a, 0x49, 0x44, 0x41, 0x54, 0x78, 0x9c, 0x63, 0x60, 0x00, 0x00, 0x00, 0x02, 0x00, 0x01, 0x48, 0xaf, 0xa4, 0x71, 0x00, 0x00, 0x00, 0x00, 0x49, 0x45, 0x4e, 0x44, 0xae, 0x42, 0x60, 0x82]; $data{"updown.png"} = [0x89, 0x50, 0x4e, 0x47, 0x0d, 0x0a, 0x1a, 0x0a, 0x00, 0x00, 0x00, 0x0d, 0x49, 0x48, 0x44, 0x52, 0x00, 0x00, 0x00, 0x0a, 0x00, 0x00, 0x00, 0x0e, 0x08, 0x06, 0x00, 0x00, 0x00, 0x16, 0xa3, 0x8d, 0xab, 0x00, 0x00, 0x00, 0x3c, 0x49, 0x44, 0x41, 0x54, 0x28, 0xcf, 0x63, 0x60, 0x40, 0x03, 0xff, 0xa1, 0x00, 0x5d, 0x9c, 0x11, 0x5d, 0x11, 0x8a, 0x24, 0x23, 0x23, 0x23, 0x86, 0x42, 0x6c, 0xa6, 0x20, 0x2b, 0x66, 0xc4, 0xa7, 0x08, 0x59, 0x31, 0x23, 0x21, 0x45, 0x30, 0xc0, 0xc4, 0x30, 0x60, 0x80, 0xfa, 0x6e, 0x24, 0x3e, 0x78, 0x48, 0x0a, 0x70, 0x62, 0xa2, 0x90, 0x81, 0xd8, 0x44, 0x01, 0x00, 0xe9, 0x5c, 0x2f, 0xf5, 0xe2, 0x9d, 0x0f, 0xf9, 0x00, 0x00, 0x00, 0x00, 0x49, 0x45, 0x4e, 0x44, 0xae, 0x42, 0x60, 0x82] if ($sort); foreach (keys(%data)) { open(PNG_HANDLE, ">".$_) or die("ERROR: cannot create $_!\n"); binmode(PNG_HANDLE); print(PNG_HANDLE map(chr,@{$data{$_}})); close(PNG_HANDLE); } } # # write_htaccess_file() # sub write_htaccess_file() { local *HTACCESS_HANDLE; my $htaccess_data; open(*HTACCESS_HANDLE, ">.htaccess") or die("ERROR: cannot open .htaccess for writing!\n"); $htaccess_data = (<<"END_OF_HTACCESS") AddEncoding x-gzip .html END_OF_HTACCESS ; print(HTACCESS_HANDLE $htaccess_data); close(*HTACCESS_HANDLE); } # # write_css_file() # # Write the cascading style sheet file gcov.css to the current directory. # This file defines basic layout attributes of all generated HTML pages. # sub write_css_file() { local *CSS_HANDLE; # Check for a specified external style sheet file if ($css_filename) { # Simply copy that file system("cp", $css_filename, "gcov.css") and die("ERROR: cannot copy file $css_filename!\n"); return; } open(CSS_HANDLE, ">gcov.css") or die ("ERROR: cannot open gcov.css for writing!\n"); # ************************************************************* my $css_data = ($_=<<"END_OF_CSS") /* All views: initial background and text color */ body { color: #000000; background-color: #FFFFFF; } /* All views: standard link format*/ a:link { color: #284FA8; text-decoration: underline; } /* All views: standard link - visited format */ a:visited { color: #00CB40; text-decoration: underline; } /* All views: standard link - activated format */ a:active { color: #FF0040; text-decoration: underline; } /* All views: main title format */ td.title { text-align: center; padding-bottom: 10px; font-family: sans-serif; font-size: 20pt; font-style: italic; font-weight: bold; } /* All views: header item format */ td.headerItem { text-align: right; padding-right: 6px; font-family: sans-serif; font-weight: bold; vertical-align: top; white-space: nowrap; } /* All views: header item value format */ td.headerValue { text-align: left; color: #284FA8; font-family: sans-serif; font-weight: bold; white-space: nowrap; } /* All views: header item coverage table heading */ td.headerCovTableHead { text-align: center; padding-right: 6px; padding-left: 6px; padding-bottom: 0px; font-family: sans-serif; font-size: 80%; white-space: nowrap; } /* All views: header item coverage table entry */ td.headerCovTableEntry { text-align: right; color: #284FA8; font-family: sans-serif; font-weight: bold; white-space: nowrap; padding-left: 12px; padding-right: 4px; background-color: #DAE7FE; } /* All views: header item coverage table entry for high coverage rate */ td.headerCovTableEntryHi { text-align: right; color: #000000; font-family: sans-serif; font-weight: bold; white-space: nowrap; padding-left: 12px; padding-right: 4px; background-color: #A7FC9D; } /* All views: header item coverage table entry for medium coverage rate */ td.headerCovTableEntryMed { text-align: right; color: #000000; font-family: sans-serif; font-weight: bold; white-space: nowrap; padding-left: 12px; padding-right: 4px; background-color: #FFEA20; } /* All views: header item coverage table entry for ow coverage rate */ td.headerCovTableEntryLo { text-align: right; color: #000000; font-family: sans-serif; font-weight: bold; white-space: nowrap; padding-left: 12px; padding-right: 4px; background-color: #FF0000; } /* All views: header legend item for legend entry */ td.headerItemLeg { text-align: right; padding-right: 6px; font-family: sans-serif; font-weight: bold; vertical-align: bottom; white-space: nowrap; } /* All views: header legend value for legend entry */ td.headerValueLeg { text-align: left; color: #000000; font-family: sans-serif; font-size: 80%; white-space: nowrap; padding-top: 4px; } /* All views: color of horizontal ruler */ td.ruler { background-color: #6688D4; } /* All views: version string format */ td.versionInfo { text-align: center; padding-top: 2px; font-family: sans-serif; font-style: italic; } /* Directory view/File view (all)/Test case descriptions: table headline format */ td.tableHead { text-align: center; color: #FFFFFF; background-color: #6688D4; font-family: sans-serif; font-size: 120%; font-weight: bold; white-space: nowrap; padding-left: 4px; padding-right: 4px; } span.tableHeadSort { padding-right: 4px; } /* Directory view/File view (all): filename entry format */ td.coverFile { text-align: left; padding-left: 10px; padding-right: 20px; color: #284FA8; background-color: #DAE7FE; font-family: monospace; } /* Directory view/File view (all): bar-graph entry format*/ td.coverBar { padding-left: 10px; padding-right: 10px; background-color: #DAE7FE; } /* Directory view/File view (all): bar-graph outline color */ td.coverBarOutline { background-color: #000000; } /* Directory view/File view (all): percentage entry for files with high coverage rate */ td.coverPerHi { text-align: right; padding-left: 10px; padding-right: 10px; background-color: #A7FC9D; font-weight: bold; } /* Directory view/File view (all): line count entry for files with high coverage rate */ td.coverNumHi { text-align: right; padding-left: 10px; padding-right: 10px; background-color: #A7FC9D; white-space: nowrap; } /* Directory view/File view (all): legend entry for high coverage rate */ span.coverLegendHi { padding-left: 10px; padding-right: 10px; padding-bottom: 2px; background-color: #A7FC9D; } /* Directory view/File view (all): percentage entry for files with medium coverage rate */ td.coverPerMed { text-align: right; padding-left: 10px; padding-right: 10px; background-color: #FFEA20; font-weight: bold; } /* Directory view/File view (all): line count entry for files with medium coverage rate */ td.coverNumMed { text-align: right; padding-left: 10px; padding-right: 10px; background-color: #FFEA20; white-space: nowrap; } /* Directory view/File view (all): legend entry for medium coverage rate */ span.coverLegendMed { padding-left: 10px; padding-right: 10px; padding-bottom: 2px; background-color: #FFEA20; } /* Directory view/File view (all): percentage entry for files with low coverage rate */ td.coverPerLo { text-align: right; padding-left: 10px; padding-right: 10px; background-color: #FF0000; font-weight: bold; } /* Directory view/File view (all): line count entry for files with low coverage rate */ td.coverNumLo { text-align: right; padding-left: 10px; padding-right: 10px; background-color: #FF0000; white-space: nowrap; } /* Directory view/File view (all): legend entry for low coverage rate */ span.coverLegendLo { padding-left: 10px; padding-right: 10px; padding-bottom: 2px; background-color: #FF0000; } /* File view (all): "show/hide details" link format */ a.detail:link { color: #B8D0FF; } /* File view (all): "show/hide details" link - visited format */ a.detail:visited { color: #B8D0FF; } /* File view (all): "show/hide details" link - activated format */ a.detail:active { color: #FFFFFF; } /* File view (detail): test name table headline format */ td.testNameHead { text-align: right; padding-right: 10px; background-color: #DAE7FE; font-family: sans-serif; font-weight: bold; } /* File view (detail): test lines table headline format */ td.testLinesHead { text-align: center; background-color: #DAE7FE; font-family: sans-serif; font-weight: bold; } /* File view (detail): test name entry */ td.testName { text-align: right; padding-right: 10px; background-color: #DAE7FE; } /* File view (detail): test percentage entry */ td.testPer { text-align: right; padding-left: 10px; padding-right: 10px; background-color: #DAE7FE; } /* File view (detail): test lines count entry */ td.testNum { text-align: right; padding-left: 10px; padding-right: 10px; background-color: #DAE7FE; } /* Test case descriptions: test name format*/ dt { font-family: sans-serif; font-weight: bold; } /* Test case descriptions: description table body */ td.testDescription { padding-top: 10px; padding-left: 30px; padding-bottom: 10px; padding-right: 30px; background-color: #DAE7FE; } /* Source code view: function entry */ td.coverFn { text-align: left; padding-left: 10px; padding-right: 20px; color: #284FA8; background-color: #DAE7FE; font-family: monospace; } /* Source code view: function entry zero count*/ td.coverFnLo { text-align: right; padding-left: 10px; padding-right: 10px; background-color: #FF0000; font-weight: bold; } /* Source code view: function entry nonzero count*/ td.coverFnHi { text-align: right; padding-left: 10px; padding-right: 10px; background-color: #DAE7FE; font-weight: bold; } /* Source code view: source code format */ /* Source code view: source code format */ pre.source { font-family: monospace; white-space: pre; } /* Source code view: line number format */ span.lineNum { background-color: #EFE383; } /* Source code view: format for lines which were executed */ td.lineCov, span.lineCov { background-color: #CAD7FE; } /* Source code view: format for Cov legend */ span.coverLegendCov { padding-left: 10px; padding-right: 10px; padding-bottom: 2px; background-color: #CAD7FE; } /* Source code view: format for lines which were not executed */ td.lineNoCov, span.lineNoCov { background-color: #FF6230; } /* Source code view: format for NoCov legend */ span.coverLegendNoCov { padding-left: 10px; padding-right: 10px; padding-bottom: 2px; background-color: #FF0000; } /* Source code view (function table): standard link - visited format */ td.lineNoCov > a:visited, td.lineCov > a:visited { color: black; text-decoration: underline; } /* Source code view: format for lines which were executed only in a previous version */ span.lineDiffCov { background-color: #B5F7AF; } /* Source code view: format for DiffCov legend */ span.LegendDiffCov { text-align: center; padding-left: 10px; padding-right: 10px; background-color: #B5F7AF; } END_OF_CSS ; # ************************************************************* # Remove leading tab from all lines $css_data =~ s/^\t//gm; print(CSS_HANDLE $css_data); close(CSS_HANDLE); } # # get_bar_graph_code(base_dir, cover_found, cover_hit) # # Return a string containing HTML code which implements a bar graph display # for a coverage rate of cover_hit * 100 / cover_found. # sub get_bar_graph_code($$$) { my $rate; my $alt; my $width; my $remainder; my $png_name; my $graph_code; # Check number of instrumented lines if ($_[1] == 0) { return ""; } $rate = $_[2] * 100 / $_[1]; $alt = sprintf("%.1f", $rate)."%"; $width = sprintf("%.0f", $rate); $remainder = sprintf("%d", 100-$width); # Decide which .png file to use $png_name = $rate_png[classify_rate($_[1], $_[2], $med_limit, $hi_limit)]; if ($width == 0) { # Zero coverage $graph_code = (<$alt END_OF_HTML ; } elsif ($width == 100) { # Full coverage $graph_code = (<$alt END_OF_HTML ; } else { # Positive coverage $graph_code = (<$alt$alt END_OF_HTML ; } # Remove leading tabs from all lines $graph_code =~ s/^\t+//gm; chomp($graph_code); return($graph_code); } # # sub classify_rate(found, hit, med_limit, high_limit) # # Return 0 for low rate, 1 for medium rate and 2 for hi rate. # sub classify_rate($$$$) { my ($found, $hit, $med, $hi) = @_; my $rate; if ($found == 0) { return 2; } $rate = $hit * 100 / $found; if ($rate < $med) { return 0; } elsif ($rate < $hi) { return 1; } return 2; } # # write_html(filehandle, html_code) # # Write out HTML_CODE to FILEHANDLE while removing a leading tabulator mark # in each line of HTML_CODE. # sub write_html(*$) { local *HTML_HANDLE = $_[0]; my $html_code = $_[1]; # Remove leading tab from all lines $html_code =~ s/^\t//gm; print(HTML_HANDLE $html_code) or die("ERROR: cannot write HTML data ($!)\n"); } # # write_html_prolog(filehandle, base_dir, pagetitle) # # Write an HTML prolog common to all HTML files to FILEHANDLE. PAGETITLE will # be used as HTML page title. BASE_DIR contains a relative path which points # to the base directory. # sub write_html_prolog(*$$) { my $basedir = $_[1]; my $pagetitle = $_[2]; my $prolog; $prolog = $html_prolog; $prolog =~ s/\@pagetitle\@/$pagetitle/g; $prolog =~ s/\@basedir\@/$basedir/g; write_html($_[0], $prolog); } # # write_header_prolog(filehandle, base_dir) # # Write beginning of page header HTML code. # sub write_header_prolog(*$) { # ************************************************************* write_html($_[0], < $title END_OF_HTML ; # ************************************************************* } # # write_header_line(filehandle, type, additional params..) # # Write a header line. # sub write_header_line(*$@) { my $HANDLE = shift; my $type = shift; my @args = @_; # Reduce indentation by using gotos if ($type eq 0) { goto header; } elsif ($type eq 1) { goto body; } elsif ($type eq 2) { goto legend_dir; } elsif ($type eq 3) { goto legend_source; } elsif ($type eq 4) { goto half_body; } header: # ************************************************************* write_html($HANDLE, < END_OF_HTML # ************************************************************* return; body: # ************************************************************* write_html($HANDLE, < END_OF_HTML # ************************************************************* return; half_body: # ************************************************************* write_html($HANDLE, < END_OF_HTML # ************************************************************* return; legend_dir: # ************************************************************* write_html($HANDLE, < END_OF_HTML # ************************************************************* return; legend_source: # ************************************************************* write_html($HANDLE, < END_OF_HTML # ************************************************************* } # # write_header_epilog(filehandle, base_dir) # # Write end of page header HTML code. # sub write_header_epilog(*$) { # ************************************************************* write_html($_[0], <
$args[0] $args[1] $args[2] $args[3] $args[4]
$args[0] $args[1] $args[2] $args[3] $args[4] $args[6]
$args[0] $args[1]
$args[0] $args[1] $args[2]
$args[0] $args[1] $args[2]
END_OF_HTML ; # ************************************************************* } # # write_file_table_prolog(filehandle, file_heading, lines_heading, func_heading) # # Write heading for file table. # sub write_file_table_prolog(*$$$) { # ************************************************************* if ($func_coverage) { write_html($_[0], < END_OF_HTML ; } else { write_html($_[0], <

$_[1] $_[2] $_[3]
END_OF_HTML ; } # ************************************************************* } # # write_file_table_entry(filehandle, cover_filename, cover_bar_graph, # cover_found, cover_hit, fn_found, fn_hit, # page_link, func_link) # # Write an entry of the file table. # sub write_file_table_entry(*$$$$$$$) { local *HANDLE = shift; my ($filename, $bar_graph, $found, $hit, $fn_found, $fn_hit, $page_link) = @_; my $rate; my $rate_string; my $funcs_string; my $class_lines = "Lo"; my $class_funcs = "Hi"; my $file_code; # Add link to source if provided if (defined($page_link) && $page_link ne "") { $file_code = "$filename"; } else { $file_code = $filename; } # Get line coverage rate if ($found > 0) { $rate = $hit * 100 / $found; $rate_string = sprintf("%.1f", $rate)." %"; $class_lines = $rate_name[classify_rate($found, $hit, $med_limit, $hi_limit)]; } else { $rate_string = "-"; } # Get function coverage rate if ($fn_found > 0) { $rate = $fn_hit * 100 / $fn_found; $class_funcs = $rate_name[classify_rate($fn_found, $fn_hit, $fn_med_limit, $fn_hi_limit)]; $funcs_string = sprintf("%.1f", $rate)." %"; } else { # Define 0 of 0 functions as 100% $rate = 100; $funcs_string = "-"; } # ************************************************************* write_html(*HANDLE, < END_OF_HTML ; if ($func_coverage) { write_html(*HANDLE, <$funcs_string END_OF_HTML ; } write_html(*HANDLE, < END_OF_HTML ; # ************************************************************* } # # write_file_table_detail_heading(filehandle, left_heading, right_heading) # # Write heading for detail section in file table. # sub write_file_table_detail_heading(*$$$) { my $func_rows = ""; if ($func_coverage) { $func_rows = ""; } # ************************************************************* write_html($_[0], < $func_rows END_OF_HTML ; # ************************************************************* } # # write_file_table_detail_entry(filehandle, test_name, # cover_found, cover_hit, func_found, func_hit) # # Write entry for detail section in file table. # sub write_file_table_detail_entry(*$$$$$) { my $rate; my $func_rate; my $name = $_[1]; if ($_[2]>0) { $rate = sprintf("%.1f", $_[3]*100/$_[2])." %"; } else { $rate = "-"; } if ($_[4]>0) { $func_rate = sprintf("%.1f", $_[5]*100/$_[4])." %"; } else { $func_rate = "-"; } if ($name =~ /^(.*),diff$/) { $name = $1." (converted)"; } if ($name eq "") { $name = "<unnamed>"; } # ************************************************************* write_html($_[0], < END_OF_HTML ; if ($func_coverage) { write_html($_[0], <$func_rate END_OF_HTML ; } write_html($_[0], < END_OF_HTML ; # ************************************************************* } # # write_file_table_epilog(filehandle) # # Write end of file table HTML code. # sub write_file_table_epilog(*) { # ************************************************************* write_html($_[0], <
END_OF_HTML ; # ************************************************************* } # # write_test_table_prolog(filehandle, table_heading) # # Write heading for test case description table. # sub write_test_table_prolog(*$) { # ************************************************************* write_html($_[0], <

$_[1] $_[2]
$file_code $bar_graph $rate_string $hit / $found$fn_hit / $fn_found$_[3]$_[1] $_[2]
$name $rate $_[3] / $_[2] lines$_[5] / $_[4]

$_[1]
END_OF_HTML ; # ************************************************************* } # # write_test_table_entry(filehandle, test_name, test_description) # # Write entry for the test table. # sub write_test_table_entry(*$$) { # ************************************************************* write_html($_[0], <$_[1] 
$_[2]

END_OF_HTML ; # ************************************************************* } # # write_test_table_epilog(filehandle) # # Write end of test description table HTML code. # sub write_test_table_epilog(*) { # ************************************************************* write_html($_[0], <

END_OF_HTML ; # ************************************************************* } # # write_source_prolog(filehandle) # # Write start of source code table. # sub write_source_prolog(*) { # ************************************************************* write_html($_[0], <
END_OF_HTML
	;

	# *************************************************************
}


#
# write_source_line(filehandle, line_num, source, hit_count, converted,
#                   add_anchor)
#
# Write formatted source code line. Return a line in a format as needed
# by gen_png()
#

sub write_source_line(*$$$$$)
{
	my $source_format;
	my $count;
	my $result;
	my $anchor_start = "";
	my $anchor_end = "";

	if (!(defined$_[3]))
	{
		$result		= "";
		$source_format	= "";
		$count		= " "x15;
	}
	elsif ($_[3] == 0)
	{
		$result		= $_[3];
		$source_format	= '';
		$count		= sprintf("%15d", $_[3]);
	}
	elsif ($_[4] && defined($highlight))
	{
		$result		= "*".$_[3];
		$source_format	= '';
		$count		= sprintf("%15d", $_[3]);
	}
	else
	{
		$result		= $_[3];
		$source_format	= '';
		$count		= sprintf("%15d", $_[3]);
	}

	$result .= ":".$_[2];

	# Write out a line number navigation anchor every $nav_resolution
	# lines if necessary
	if ($_[5])
	{
		$anchor_start	= "";
		$anchor_end	= "";
	}


	# *************************************************************

	write_html($_[0],
		   $anchor_start.
		   ''.sprintf("%8d", $_[1]).
		   " $source_format$count : ".
		   escape_html($_[2]).($source_format?"":"").
		   $anchor_end."\n");

	# *************************************************************

	return($result);
}


#
# write_source_epilog(filehandle)
#
# Write end of source code table.
#

sub write_source_epilog(*)
{
	# *************************************************************

	write_html($_[0], <
	      
	    
	  
	  
END_OF_HTML ; # ************************************************************* } # # write_html_epilog(filehandle, base_dir[, break_frames]) # # Write HTML page footer to FILEHANDLE. BREAK_FRAMES should be set when # this page is embedded in a frameset, clicking the URL link will then # break this frameset. # sub write_html_epilog(*$;$) { my $basedir = $_[1]; my $break_code = ""; my $epilog; if (defined($_[2])) { $break_code = " target=\"_parent\""; } # ************************************************************* write_html($_[0], < Generated by: $lcov_version
END_OF_HTML ; $epilog = $html_epilog; $epilog =~ s/\@basedir\@/$basedir/g; write_html($_[0], $epilog); } # # write_frameset(filehandle, basedir, basename, pagetitle) # # sub write_frameset(*$$$) { my $frame_width = $overview_width + 40; # ************************************************************* write_html($_[0], < $_[3] <center>Frames not supported by your browser!<br></center> END_OF_HTML ; # ************************************************************* } # # sub write_overview_line(filehandle, basename, line, link) # # sub write_overview_line(*$$$) { my $y1 = $_[2] - 1; my $y2 = $y1 + $nav_resolution - 1; my $x2 = $overview_width - 1; # ************************************************************* write_html($_[0], < END_OF_HTML ; # ************************************************************* } # # write_overview(filehandle, basedir, basename, pagetitle, lines) # # sub write_overview(*$$$$) { my $index; my $max_line = $_[4] - 1; my $offset; # ************************************************************* write_html($_[0], < $_[3] END_OF_HTML ; # ************************************************************* # Make $offset the next higher multiple of $nav_resolution $offset = ($nav_offset + $nav_resolution - 1) / $nav_resolution; $offset = sprintf("%d", $offset ) * $nav_resolution; # Create image map for overview image for ($index = 1; $index <= $_[4]; $index += $nav_resolution) { # Enforce nav_offset if ($index < $offset + 1) { write_overview_line($_[0], $_[2], $index, 1); } else { write_overview_line($_[0], $_[2], $index, $index - $offset); } } # ************************************************************* write_html($_[0], <
Top

Overview
END_OF_HTML ; # ************************************************************* } # rate_to_col(found, hit) # # Return Lo, Med or Hi, depending on the coverage rate. # sub rate_to_col($$) { my ($found, $hit) = @_; my $rate; if ($found == 0) { return "Hi"; } $rate = 100 * $hit / $found; if ($rate < $med_limit) { return "Lo"; } elsif ($rate < $hi_limit) { return "Med"; } return "Hi"; } # format_rate(found, hit) # # Return formatted percent string for coverage rate. # sub format_rate($$) { return $_[0] == 0 ? "-" : sprintf("%.1f", $_[1] * 100 / $_[0])." %"; } sub get_legend_code($$$) { my ($text, $med, $hi) = @_; my $result; $result = < 0% to $med% $med% to $hi% $hi% to 100% EOF return $result; } # # write_header(filehandle, type, trunc_file_name, rel_file_name, lines_found, # lines_hit, funcs_found, funcs_hit, sort_type) # # Write a complete standard page header. TYPE may be (0, 1, 2, 3, 4) # corresponding to (directory view header, file view header, source view # header, test case description header, function view header) # sub write_header(*$$$$$$$$) { local *HTML_HANDLE = $_[0]; my $type = $_[1]; my $trunc_name = $_[2]; my $rel_filename = $_[3]; my $lines_found = $_[4]; my $lines_hit = $_[5]; my $fn_found = $_[6]; my $fn_hit = $_[7]; my $sort_type = $_[8]; my $base_dir; my $view; my $test; my $base_name; $base_name = basename($rel_filename); # Prepare text for "current view" field if ($type == 0) { # Main overview $base_dir = ""; $view = $overview_title; } elsif ($type == 1) { # Directory overview $base_dir = get_relative_base_path($rel_filename); $view = "". "$overview_title - $trunc_name"; } elsif ($type == 2 || $type == 4) { # File view my $dir_name = dirname($rel_filename); $base_dir = get_relative_base_path($dir_name); if ($frames) { # Need to break frameset when clicking any of these # links $view = "$overview_title - ". "". "$dir_name - $base_name"; } else { $view = "". "$overview_title - ". "". "$dir_name - $base_name"; } # Add function suffix if ($func_coverage) { if ($type == 2) { $view .= " (source / functions)"; } elsif ($type == 4) { $view .= " (source / functions)"; } } } elsif ($type == 3) { # Test description header $base_dir = ""; $view = "". "$overview_title - test case descriptions"; } # Prepare text for "test" field $test = escape_html($test_title); # Append link to test description page if available if (%test_description && ($type != 3)) { if ($frames && ($type == 2 || $type == 4)) { # Need to break frameset when clicking this link $test .= " ( ". "view descriptions )"; } else { $test .= " ( ". "view descriptions )"; } } # Write header write_header_prolog(*HTML_HANDLE, $base_dir); write_header_line(*HTML_HANDLE, 0, "Current view:", $view, "Found", "Hit", "Coverage"); write_header_line(*HTML_HANDLE, 1, "Test:", $test, "Lines:", $lines_found, $lines_hit, $rate_name[classify_rate($lines_found, $lines_hit, $med_limit, $hi_limit)], format_rate($lines_found, $lines_hit)); if ($func_coverage) { write_header_line(*HTML_HANDLE, 1, "Date:", $date, "Functions:", $fn_found, $fn_hit, $rate_name[classify_rate($fn_found, $fn_hit, $fn_med_limit, $fn_hi_limit)], format_rate($fn_found, $fn_hit)); } else { write_header_line(*HTML_HANDLE, 4, "Date:", $date); } if ($legend) { if ($type == 0 || $type == 1) { my $line_code = get_legend_code("Line coverage:", $med_limit, $hi_limit); my $func_code = ""; if ($func_coverage) { $func_code = get_legend_code( "Function coverage:", $fn_med_limit, $fn_hi_limit); } write_header_line(*HTML_HANDLE, 2, "Colors:", $line_code, $func_code); } elsif ($type == 2 || $type == 4) { write_header_line(*HTML_HANDLE, 3, "Colors:", "not hit", "hit"); } } write_header_epilog(*HTML_HANDLE, $base_dir); } # # split_filename(filename) # # Return (path, filename, extension) for a given FILENAME. # sub split_filename($) { if (!$_[0]) { return(); } my @path_components = split('/', $_[0]); my @file_components = split('\.', pop(@path_components)); my $extension = pop(@file_components); return (join("/",@path_components), join(".",@file_components), $extension); } # # get_sorted_keys(hash_ref, sort_type) # sub get_sorted_keys($$) { my ($hash, $type) = @_; if ($type == 0) { # Sort by name return sort(keys(%{$hash})); } elsif ($type == 1) { # Sort by line coverage return sort({$hash->{$a}[5] <=> $hash->{$b}[5]} keys(%{$hash})); } elsif ($type == 2) { # Sort by function coverage; return sort({$hash->{$a}[6] <=> $hash->{$b}[6]} keys(%{$hash})); } } sub get_sort_code($$$) { my ($link, $alt, $base) = @_; my $png; my $link_start; my $link_end; if (!defined($link)) { $png = "glass.png"; $link_start = ""; $link_end = ""; } else { $png = "updown.png"; $link_start = ''; $link_end = ""; } return ' '.$link_start. ''.$link_end.''; } sub get_file_code($$$$) { my ($type, $text, $sort_button, $base) = @_; my $result = $text; my $link; if ($sort_button) { if ($type == 1) { $link = "index.$html_ext"; } else { $link = "index-detail.$html_ext"; } } $result .= get_sort_code($link, "Sort by name", $base); return $result; } sub get_line_code($$$$$) { my ($type, $sort_type, $text, $sort_button, $base) = @_; my $result = $text; my $sort_link; if ($type == 1) { # Just text if ($sort_button) { $sort_link = "index-sort-l.$html_ext"; } } elsif ($type == 2) { # Text + link to detail view $result .= ' ( show details )'; if ($sort_button) { $sort_link = "index-sort-l.$html_ext"; } } else { # Text + link to standard view $result .= ' ( hide details )'; if ($sort_button) { $sort_link = "index-detail-sort-l.$html_ext"; } } # Add sort button $result .= get_sort_code($sort_link, "Sort by line coverage", $base); return $result; } sub get_func_code($$$$) { my ($type, $text, $sort_button, $base) = @_; my $result = $text; my $link; if ($sort_button) { if ($type == 1) { $link = "index-sort-f.$html_ext"; } else { $link = "index-detail-sort-f.$html_ext"; } } $result .= get_sort_code($link, "Sort by function coverage", $base); return $result; } # # write_file_table(filehandle, base_dir, overview, testhash, testfnchash, # fileview, sort_type) # # Write a complete file table. OVERVIEW is a reference to a hash containing # the following mapping: # # filename -> "lines_found,lines_hit,funcs_found,funcs_hit,page_link, # func_link" # # TESTHASH is a reference to the following hash: # # filename -> \%testdata # %testdata: name of test affecting this file -> \%testcount # %testcount: line number -> execution count for a single test # # Heading of first column is "Filename" if FILEVIEW is true, "Directory name" # otherwise. # sub write_file_table(*$$$$$$) { local *HTML_HANDLE = $_[0]; my $base_dir = $_[1]; my $overview = $_[2]; my $testhash = $_[3]; my $testfnchash = $_[4]; my $fileview = $_[5]; my $sort_type = $_[6]; my $filename; my $bar_graph; my $hit; my $found; my $fn_found; my $fn_hit; my $page_link; my $testname; my $testdata; my $testfncdata; my $testcount; my $testfnccount; my %affecting_tests; my $line_code = ""; my $func_code; my $file_code; # Determine HTML code for column headings if (($base_dir ne "") && $show_details) { my $detailed = keys(%{$testhash}); $file_code = get_file_code($detailed ? 2 : 1, $fileview ? "Filename" : "Directory", $sort && $sort_type != 0, $base_dir); $line_code = get_line_code($detailed ? 3 : 2, $sort_type, "Line Coverage", $sort && $sort_type != 1, $base_dir); $func_code = get_func_code($detailed ? 2 : 1, "Functions", $sort && $sort_type != 2, $base_dir); } else { $file_code = get_file_code(1, $fileview ? "Filename" : "Directory", $sort && $sort_type != 0, $base_dir); $line_code = get_line_code(1, $sort_type, "Line Coverage", $sort && $sort_type != 1, $base_dir); $func_code = get_func_code(1, "Functions", $sort && $sort_type != 2, $base_dir); } write_file_table_prolog(*HTML_HANDLE, $file_code, $line_code, $func_code); foreach $filename (get_sorted_keys($overview, $sort_type)) { ($found, $hit, $fn_found, $fn_hit, $page_link) = @{$overview->{$filename}}; $bar_graph = get_bar_graph_code($base_dir, $found, $hit); $testdata = $testhash->{$filename}; $testfncdata = $testfnchash->{$filename}; write_file_table_entry(*HTML_HANDLE, $filename, $bar_graph, $found, $hit, $fn_found, $fn_hit, $page_link); # Check whether we should write test specific coverage # as well if (!($show_details && $testdata)) { next; } # Filter out those tests that actually affect this file %affecting_tests = %{ get_affecting_tests($testdata, $testfncdata) }; # Does any of the tests affect this file at all? if (!%affecting_tests) { next; } # Write test details for this entry write_file_table_detail_heading(*HTML_HANDLE, "Test name", "Lines hit", "Functions hit"); foreach $testname (keys(%affecting_tests)) { ($found, $hit, $fn_found, $fn_hit) = split(",", $affecting_tests{$testname}); # Insert link to description of available if ($test_description{$testname}) { $testname = "". "$testname"; } write_file_table_detail_entry(*HTML_HANDLE, $testname, $found, $hit, $fn_found, $fn_hit); } } write_file_table_epilog(*HTML_HANDLE); } # # get_found_and_hit(hash) # # Return the count for entries (found) and entries with an execution count # greater than zero (hit) in a hash (linenumber -> execution count) as # a list (found, hit) # sub get_found_and_hit($) { my %hash = %{$_[0]}; my $found = 0; my $hit = 0; # Calculate sum $found = 0; $hit = 0; foreach (keys(%hash)) { $found++; if ($hash{$_}>0) { $hit++; } } return ($found, $hit); } # # get_func_found_and_hit(sumfnccount) # # Return (f_found, f_hit) for sumfnccount # sub get_func_found_and_hit($) { my ($sumfnccount) = @_; my $function; my $fn_found; my $fn_hit; $fn_found = scalar(keys(%{$sumfnccount})); $fn_hit = 0; foreach $function (keys(%{$sumfnccount})) { if ($sumfnccount->{$function} > 0) { $fn_hit++; } } return ($fn_found, $fn_hit); } # # get_affecting_tests(testdata, testfncdata) # # HASHREF contains a mapping filename -> (linenumber -> exec count). Return # a hash containing mapping filename -> "lines found, lines hit" for each # filename which has a nonzero hit count. # sub get_affecting_tests($$) { my $testdata = $_[0]; my $testfncdata = $_[1]; my $testname; my $testcount; my $testfnccount; my %result; my $found; my $hit; my $fn_found; my $fn_hit; foreach $testname (keys(%{$testdata})) { # Get (line number -> count) hash for this test case $testcount = $testdata->{$testname}; $testfnccount = $testfncdata->{$testname}; # Calculate sum ($found, $hit) = get_found_and_hit($testcount); ($fn_found, $fn_hit) = get_func_found_and_hit($testfnccount); if ($hit>0) { $result{$testname} = "$found,$hit,$fn_found,$fn_hit"; } } return(\%result); } sub get_hash_reverse($) { my ($hash) = @_; my %result; foreach (keys(%{$hash})) { $result{$hash->{$_}} = $_; } return \%result; } # # write_source(filehandle, source_filename, count_data, checksum_data, # converted_data, func_data) # # Write an HTML view of a source code file. Returns a list containing # data as needed by gen_png(). # # Die on error. # sub write_source($$$$$$) { local *HTML_HANDLE = $_[0]; local *SOURCE_HANDLE; my $source_filename = $_[1]; my %count_data; my $line_number; my @result; my $checkdata = $_[3]; my $converted = $_[4]; my $funcdata = $_[5]; my $datafunc = get_hash_reverse($funcdata); my $add_anchor; if ($_[2]) { %count_data = %{$_[2]}; } open(SOURCE_HANDLE, "<".$source_filename) or die("ERROR: cannot open $source_filename for reading!\n"); write_source_prolog(*HTML_HANDLE); for ($line_number = 1; ; $line_number++) { chomp($_); # Source code matches coverage data? if (defined($checkdata->{$line_number}) && ($checkdata->{$line_number} ne md5_base64($_))) { die("ERROR: checksum mismatch at $source_filename:". "$line_number\n"); } $add_anchor = 0; if ($frames) { if (($line_number - 1) % $nav_resolution == 0) { $add_anchor = 1; } } if ($func_coverage) { if ($line_number == 1) { $add_anchor = 1; } elsif (defined($datafunc->{$line_number + $func_offset})) { $add_anchor = 1; } } push (@result, write_source_line(HTML_HANDLE, $line_number, $_, $count_data{$line_number}, $converted->{$line_number}, $add_anchor)); } close(SOURCE_HANDLE); write_source_epilog(*HTML_HANDLE); return(@result); } sub funcview_get_func_code($$$) { my ($name, $base, $type) = @_; my $result; my $link; if ($sort && $type == 1) { $link = "$name.func.$html_ext"; } $result = "Function Name"; $result .= get_sort_code($link, "Sort by function name", $base); return $result; } sub funcview_get_count_code($$$) { my ($name, $base, $type) = @_; my $result; my $link; if ($sort && $type == 0) { $link = "$name.func-sort-c.$html_ext"; } $result = "Hit count"; $result .= get_sort_code($link, "Sort by hit count", $base); return $result; } # # funcview_get_sorted(funcdata, sumfncdata, sort_type) # # Depending on the value of sort_type, return a list of functions sorted # by name (type 0) or by the associated call count (type 1). # sub funcview_get_sorted($$$) { my ($funcdata, $sumfncdata, $type) = @_; if ($type == 0) { return sort(keys(%{$funcdata})); } return sort({$sumfncdata->{$b} <=> $sumfncdata->{$a}} keys(%{$sumfncdata})); } # # write_function_table(filehandle, source_file, sumcount, funcdata, # sumfnccount, testfncdata) # # Write an HTML table listing all functions in a source file, including # also function call counts and line coverages inside of each function. # # Die on error. # sub write_function_table(*$$$$$$$$) { local *HTML_HANDLE = $_[0]; my $source = $_[1]; my $sumcount = $_[2]; my $funcdata = $_[3]; my $sumfncdata = $_[4]; my $testfncdata = $_[5]; my $name = $_[6]; my $base = $_[7]; my $type = $_[8]; my $func; my $func_code; my $count_code; # Get HTML code for headings $func_code = funcview_get_func_code($name, $base, $type); $count_code = funcview_get_count_code($name, $base, $type); write_html(*HTML_HANDLE, < END_OF_HTML ; # Get a sorted table foreach $func (funcview_get_sorted($funcdata, $sumfncdata, $type)) { my $startline = $funcdata->{$func} - $func_offset; my $name = escape_html($func); my $count = $sumfncdata->{$name}; my $countstyle; if ($startline < 1) { $startline = 1; } if ($count == 0) { $countstyle = "coverFnLo"; } else { $countstyle = "coverFnHi"; } write_html(*HTML_HANDLE, < END_OF_HTML ; } write_html(*HTML_HANDLE, <
END_OF_HTML ; } # # info(printf_parameter) # # Use printf to write PRINTF_PARAMETER to stdout only when the $quiet flag # is not set. # sub info(@) { if (!$quiet) { # Print info string printf(@_); } } # # subtract_counts(data_ref, base_ref) # sub subtract_counts($$) { my %data = %{$_[0]}; my %base = %{$_[1]}; my $line; my $data_count; my $base_count; my $hit = 0; my $found = 0; foreach $line (keys(%data)) { $found++; $data_count = $data{$line}; $base_count = $base{$line}; if (defined($base_count)) { $data_count -= $base_count; # Make sure we don't get negative numbers if ($data_count<0) { $data_count = 0; } } $data{$line} = $data_count; if ($data_count > 0) { $hit++; } } return (\%data, $found, $hit); } # # subtract_fnccounts(data, base) # # Subtract function call counts found in base from those in data. # Return (data, f_found, f_hit). # sub subtract_fnccounts($$) { my %data = %{$_[0]}; my %base = %{$_[1]}; my $func; my $data_count; my $base_count; my $fn_hit = 0; my $fn_found = 0; foreach $func (keys(%data)) { $fn_found++; $data_count = $data{$func}; $base_count = $base{$func}; if (defined($base_count)) { $data_count -= $base_count; # Make sure we don't get negative numbers if ($data_count < 0) { $data_count = 0; } } $data{$func} = $data_count; if ($data_count > 0) { $fn_hit++; } } return (\%data, $fn_found, $fn_hit); } # # apply_baseline(data_ref, baseline_ref) # # Subtract the execution counts found in the baseline hash referenced by # BASELINE_REF from actual data in DATA_REF. # sub apply_baseline($$) { my %data_hash = %{$_[0]}; my %base_hash = %{$_[1]}; my $filename; my $testname; my $data; my $data_testdata; my $data_funcdata; my $data_checkdata; my $data_testfncdata; my $data_count; my $data_testfnccount; my $base; my $base_checkdata; my $base_sumfnccount; my $base_count; my $sumcount; my $sumfnccount; my $found; my $hit; my $fn_found; my $fn_hit; foreach $filename (keys(%data_hash)) { # Get data set for data and baseline $data = $data_hash{$filename}; $base = $base_hash{$filename}; # Skip data entries for which no base entry exists if (!defined($base)) { next; } # Get set entries for data and baseline ($data_testdata, undef, $data_funcdata, $data_checkdata, $data_testfncdata) = get_info_entry($data); (undef, $base_count, undef, $base_checkdata, undef, $base_sumfnccount) = get_info_entry($base); # Check for compatible checksums merge_checksums($data_checkdata, $base_checkdata, $filename); # sumcount has to be calculated anew $sumcount = {}; $sumfnccount = {}; # For each test case, subtract test specific counts foreach $testname (keys(%{$data_testdata})) { # Get counts of both data and baseline $data_count = $data_testdata->{$testname}; $data_testfnccount = $data_testfncdata->{$testname}; ($data_count, undef, $hit) = subtract_counts($data_count, $base_count); ($data_testfnccount) = subtract_fnccounts($data_testfnccount, $base_sumfnccount); # Check whether this test case did hit any line at all if ($hit > 0) { # Write back resulting hash $data_testdata->{$testname} = $data_count; $data_testfncdata->{$testname} = $data_testfnccount; } else { # Delete test case which did not impact this # file delete($data_testdata->{$testname}); delete($data_testfncdata->{$testname}); } # Add counts to sum of counts ($sumcount, $found, $hit) = add_counts($sumcount, $data_count); ($sumfnccount, $fn_found, $fn_hit) = add_fnccounts($sumfnccount, $data_testfnccount); } # Write back resulting entry set_info_entry($data, $data_testdata, $sumcount, $data_funcdata, $data_checkdata, $data_testfncdata, $sumfnccount, $found, $hit, $fn_found, $fn_hit); $data_hash{$filename} = $data; } return (\%data_hash); } # # remove_unused_descriptions() # # Removes all test descriptions from the global hash %test_description which # are not present in %info_data. # sub remove_unused_descriptions() { my $filename; # The current filename my %test_list; # Hash containing found test names my $test_data; # Reference to hash test_name -> count_data my $before; # Initial number of descriptions my $after; # Remaining number of descriptions $before = scalar(keys(%test_description)); foreach $filename (keys(%info_data)) { ($test_data) = get_info_entry($info_data{$filename}); foreach (keys(%{$test_data})) { $test_list{$_} = ""; } } # Remove descriptions for tests which are not in our list foreach (keys(%test_description)) { if (!defined($test_list{$_})) { delete($test_description{$_}); } } $after = scalar(keys(%test_description)); if ($after < $before) { info("Removed ".($before - $after). " unused descriptions, $after remaining.\n"); } } # # apply_prefix(filename, prefix) # # If FILENAME begins with PREFIX, remove PREFIX from FILENAME and return # resulting string, otherwise return FILENAME. # sub apply_prefix($$) { my $filename = $_[0]; my $prefix = $_[1]; if (defined($prefix) && ($prefix ne "")) { if ($filename =~ /^\Q$prefix\E\/(.*)$/) { return substr($filename, length($prefix) + 1); } } return $filename; } # # system_no_output(mode, parameters) # # Call an external program using PARAMETERS while suppressing depending on # the value of MODE: # # MODE & 1: suppress STDOUT # MODE & 2: suppress STDERR # # Return 0 on success, non-zero otherwise. # sub system_no_output($@) { my $mode = shift; my $result; local *OLD_STDERR; local *OLD_STDOUT; # Save old stdout and stderr handles ($mode & 1) && open(OLD_STDOUT, ">>&STDOUT"); ($mode & 2) && open(OLD_STDERR, ">>&STDERR"); # Redirect to /dev/null ($mode & 1) && open(STDOUT, ">/dev/null"); ($mode & 2) && open(STDERR, ">/dev/null"); system(@_); $result = $?; # Close redirected handles ($mode & 1) && close(STDOUT); ($mode & 2) && close(STDERR); # Restore old handles ($mode & 1) && open(STDOUT, ">>&OLD_STDOUT"); ($mode & 2) && open(STDERR, ">>&OLD_STDERR"); return $result; } # # read_config(filename) # # Read configuration file FILENAME and return a reference to a hash containing # all valid key=value pairs found. # sub read_config($) { my $filename = $_[0]; my %result; my $key; my $value; local *HANDLE; if (!open(HANDLE, "<$filename")) { warn("WARNING: cannot read configuration file $filename\n"); return undef; } while () { chomp; # Skip comments s/#.*//; # Remove leading blanks s/^\s+//; # Remove trailing blanks s/\s+$//; next unless length; ($key, $value) = split(/\s*=\s*/, $_, 2); if (defined($key) && defined($value)) { $result{$key} = $value; } else { warn("WARNING: malformed statement in line $. ". "of configuration file $filename\n"); } } close(HANDLE); return \%result; } # # apply_config(REF) # # REF is a reference to a hash containing the following mapping: # # key_string => var_ref # # where KEY_STRING is a keyword and VAR_REF is a reference to an associated # variable. If the global configuration hash CONFIG contains a value for # keyword KEY_STRING, VAR_REF will be assigned the value for that keyword. # sub apply_config($) { my $ref = $_[0]; foreach (keys(%{$ref})) { if (defined($config->{$_})) { ${$ref->{$_}} = $config->{$_}; } } } # # get_html_prolog(FILENAME) # # If FILENAME is defined, return contents of file. Otherwise return default # HTML prolog. Die on error. # sub get_html_prolog($) { my $filename = $_[0]; my $result = ""; if (defined($filename)) { local *HANDLE; open(HANDLE, "<".$filename) or die("ERROR: cannot open html prolog $filename!\n"); while () { $result .= $_; } close(HANDLE); } else { $result = < \@pagetitle\@ END_OF_HTML ; } return $result; } # # get_html_epilog(FILENAME) # # If FILENAME is defined, return contents of file. Otherwise return default # HTML epilog. Die on error. # sub get_html_epilog($) { my $filename = $_[0]; my $result = ""; if (defined($filename)) { local *HANDLE; open(HANDLE, "<".$filename) or die("ERROR: cannot open html epilog $filename!\n"); while () { $result .= $_; } close(HANDLE); } else { $result = < END_OF_HTML ; } return $result; } sub warn_handler($) { my ($msg) = @_; warn("$tool_name: $msg"); } sub die_handler($) { my ($msg) = @_; die("$tool_name: $msg"); }

$func_code $count_code
$name $count