Edit file File name : ack Content :#!/usr/bin/perl use strict; use warnings; our $VERSION = 'v3.3.1'; # Check https://beyondgrep.com/ for updates use 5.010001; use File::Spec (); use File::Next (); use App::Ack (); use App::Ack::ConfigLoader (); use App::Ack::File (); use App::Ack::Files (); use App::Ack::Filter (); use App::Ack::Filter::Default (); use App::Ack::Filter::Extension (); use App::Ack::Filter::FirstLineMatch (); use App::Ack::Filter::Inverse (); use App::Ack::Filter::Is (); use App::Ack::Filter::IsPath (); use App::Ack::Filter::Match (); use App::Ack::Filter::Collection (); # Global command-line options our $opt_1; our $opt_A; our $opt_B; our $opt_break; our $opt_color; our $opt_column; our $opt_debug; our $opt_c; our $opt_f; our $opt_g; our $opt_heading; our $opt_L; our $opt_l; our $opt_m; our $opt_output; our $opt_passthru; our $opt_p; our $opt_range_start; our $opt_range_end; our $opt_range_invert; our $opt_regex; our $opt_show_filename; our $opt_show_types; our $opt_underline; our $opt_v; # Flag if we need any context tracking. our $is_tracking_context; # The regex that we search for in each file. our $search_re; # Special /m version of our $search_re. our $scan_re; our @special_vars_used_by_opt_output; our $using_ranges; # Internal stats for debugging. our %stats; MAIN: { $App::Ack::ORIGINAL_PROGRAM_NAME = $0; $0 = join(' ', 'ack', $0); $App::Ack::ors = "\n"; if ( $App::Ack::VERSION ne $main::VERSION ) { App::Ack::die( "Program/library version mismatch\n\t$0 is $main::VERSION\n\t$INC{'App/Ack.pm'} is $App::Ack::VERSION" ); } # Do preliminary arg checking; my $env_is_usable = 1; for my $arg ( @ARGV ) { last if ( $arg eq '--' ); # Get the --thpppt, --bar, --cathy and --man checking out of the way. $arg =~ /^--th[pt]+t+$/ and App::Ack::thpppt($arg); $arg eq '--bar' and App::Ack::ackbar(); $arg eq '--cathy' and App::Ack::cathy(); # See if we want to ignore the environment. (Don't tell Al Gore.) $arg eq '--env' and $env_is_usable = 1; $arg eq '--noenv' and $env_is_usable = 0; } if ( $env_is_usable ) { if ( $ENV{ACK_OPTIONS} ) { App::Ack::warn( 'WARNING: ack no longer uses the ACK_OPTIONS environment variable. Use an ackrc file instead.' ); } } else { my @keys = ( 'ACKRC', grep { /^ACK_/ } keys %ENV ); delete @ENV{@keys}; } # Load colors my $modules_loaded_ok = eval 'use Term::ANSIColor 1.10 (); 1;'; if ( $modules_loaded_ok && $App::Ack::is_windows ) { $modules_loaded_ok = eval 'use Win32::Console::ANSI; 1;'; } if ( $modules_loaded_ok ) { $ENV{ACK_COLOR_MATCH} ||= 'black on_yellow'; $ENV{ACK_COLOR_FILENAME} ||= 'bold green'; $ENV{ACK_COLOR_LINENO} ||= 'bold yellow'; $ENV{ACK_COLOR_COLNO} ||= 'bold yellow'; } my $p = App::Ack::ConfigLoader::opt_parser( 'no_auto_abbrev', 'pass_through' ); $p->getoptions( help => sub { App::Ack::show_help(); exit; }, version => sub { App::Ack::print( App::Ack::get_version_statement() ); exit; }, man => sub { App::Ack::show_man(); }, ); if ( !@ARGV ) { App::Ack::show_help(); exit 1; } my @arg_sources = App::Ack::ConfigLoader::retrieve_arg_sources(); my $opt = App::Ack::ConfigLoader::process_args( @arg_sources ); $opt_1 = $opt->{1}; $opt_A = $opt->{A}; $opt_B = $opt->{B}; $opt_break = $opt->{break}; $opt_c = $opt->{c}; $opt_color = $opt->{color}; $opt_column = $opt->{column}; $opt_debug = $opt->{debug}; $opt_f = $opt->{f}; $opt_g = $opt->{g}; $opt_heading = $opt->{heading}; $opt_L = $opt->{L}; $opt_l = $opt->{l}; $opt_m = $opt->{m}; $opt_output = $opt->{output}; $opt_p = $opt->{p}; $opt_passthru = $opt->{passthru}; $opt_range_start = $opt->{range_start}; $opt_range_end = $opt->{range_end}; $opt_range_invert = $opt->{range_invert}; $opt_regex = $opt->{regex}; $opt_show_filename = $opt->{show_filename}; $opt_show_types = $opt->{show_types}; $opt_underline = $opt->{underline}; $opt_v = $opt->{v}; if ( $opt_show_types && not( $opt_f || $opt_g ) ) { App::Ack::die( '--show-types can only be used with -f or -g.' ); } if ( $opt_range_start ) { ($opt_range_start, undef) = build_regex( $opt_range_start, {} ); } if ( $opt_range_end ) { ($opt_range_end, undef) = build_regex( $opt_range_end, {} ); } $using_ranges = $opt_range_start || $opt_range_end; $App::Ack::report_bad_filenames = !$opt->{s}; $App::Ack::ors = $opt->{print0} ? "\0" : "\n"; if ( !defined($opt_color) && !$opt_g ) { my $windows_color = 1; if ( $App::Ack::is_windows ) { $windows_color = eval { require Win32::Console::ANSI; }; } $opt_color = !App::Ack::output_to_pipe() && $windows_color; } $opt_heading //= !App::Ack::output_to_pipe(); $opt_break //= !App::Ack::output_to_pipe(); if ( defined($opt->{H}) || defined($opt->{h}) ) { $opt_show_filename = $opt->{show_filename} = $opt->{H} && !$opt->{h}; } if ( defined $opt_output ) { # Expand out \t, \n and \r. $opt_output =~ s/\\n/\n/g; $opt_output =~ s/\\r/\r/g; $opt_output =~ s/\\t/\t/g; my @supported_special_variables = ( 1..9, qw( _ . ` & ' + f ) ); @special_vars_used_by_opt_output = grep { $opt_output =~ /\$$_/ } @supported_special_variables; # If the $opt_output contains $&, $` or $', those vars won't be # captured until they're used at least once in the program. # Do the eval to make this happen. for my $i ( @special_vars_used_by_opt_output ) { if ( $i eq q{&} || $i eq q{'} || $i eq q{`} ) { no warnings; # They will be undef, so don't warn. eval qq{"\$$i"}; ## no critic ( ErrorHandling::RequireCheckingReturnValueOfEval ) } } } # Set up file filters. my $files; if ( $App::Ack::is_filter_mode && !$opt->{files_from} ) { # probably -x $files = App::Ack::Files->from_stdin(); $opt_regex //= shift @ARGV; ($search_re, $scan_re) = build_regex( $opt_regex, $opt ); $stats{search_re} = $search_re; $stats{scan_re} = $scan_re; } else { if ( $opt_f ) { # No need to check for regex, since mutex options are handled elsewhere. } else { $opt_regex //= shift @ARGV; ($search_re, $scan_re) = build_regex( $opt_regex, $opt ); $stats{search_re} = $search_re; $stats{scan_re} = $scan_re; } # XXX What is this checking for? if ( $search_re && $search_re =~ /\n/ ) { App::Ack::exit_from_ack( 0 ); } my @start; if ( not defined $opt->{files_from} ) { @start = @ARGV; } if ( !exists($opt->{show_filename}) ) { unless(@start == 1 && !(-d $start[0])) { $opt_show_filename = $opt->{show_filename} = 1; } } if ( defined $opt->{files_from} ) { $files = App::Ack::Files->from_file( $opt, $opt->{files_from} ); exit 1 unless $files; } else { @start = ('.') unless @start; foreach my $target (@start) { if ( !-e $target && $App::Ack::report_bad_filenames) { App::Ack::warn( "$target: No such file or directory" ); } } $opt->{file_filter} = _compile_file_filter($opt, \@start); $opt->{descend_filter} = _compile_descend_filter($opt); $files = App::Ack::Files->from_argv( $opt, \@start ); } } App::Ack::set_up_pager( $opt->{pager} ) if defined $opt->{pager}; my $nmatches; if ( $opt_f || $opt_g ) { $nmatches = file_loop_fg( $files ); } elsif ( $opt_c ) { $nmatches = file_loop_c( $files ); } elsif ( $opt_l || $opt_L ) { $nmatches = file_loop_lL( $files ); } else { $nmatches = file_loop_normal( $files ); } if ( $opt_debug ) { require List::Util; my @stats = qw( search_re scan_re prescans linescans filematches linematches ); my $width = List::Util::max( map { length } @stats ); for my $stat ( @stats ) { App::Ack::warn( sprintf( '%-*.*s = %s', $width, $width, $stat, $stats{$stat} // 'undef' ) ); } } close $App::Ack::fh; App::Ack::exit_from_ack( $nmatches ); } # End of MAIN sub file_loop_fg { my $files = shift; my $nmatches = 0; while ( defined( my $file = $files->next ) ) { if ( $opt_show_types ) { App::Ack::show_types( $file ); } elsif ( $opt_g ) { print_line_with_options( undef, $file->name, 0, $App::Ack::ors ); } else { App::Ack::say( $file->name ); } ++$nmatches; last if defined($opt_m) && ($nmatches >= $opt_m); } return $nmatches; } sub file_loop_c { my $files = shift; my $total_count = 0; while ( defined( my $file = $files->next ) ) { my $matches_for_this_file = count_matches_in_file( $file ); if ( not $opt_show_filename ) { $total_count += $matches_for_this_file; next; } if ( !$opt_l || $matches_for_this_file > 0 ) { if ( $opt_show_filename ) { App::Ack::say( $file->name, ':', $matches_for_this_file ); } else { App::Ack::say( $matches_for_this_file ); } } } if ( !$opt_show_filename ) { App::Ack::say( $total_count ); } return; } sub file_loop_lL { my $files = shift; my $nmatches = 0; while ( defined( my $file = $files->next ) ) { my $is_match = count_matches_in_file( $file, 1 ); if ( $opt_L ? !$is_match : $is_match ) { App::Ack::say( $file->name ); ++$nmatches; last if $opt_1; last if defined($opt_m) && ($nmatches >= $opt_m); } } return $nmatches; } sub _compile_descend_filter { my ( $opt ) = @_; my $idirs = 0; my $dont_ignore_dirs = 0; for my $filter (@{$opt->{idirs} || []}) { if ($filter->is_inverted()) { $dont_ignore_dirs++; } else { $idirs++; } } # If we have one or more --noignore-dir directives, we can't ignore # entire subdirectory hierarchies, so we return an "accept all" # filter and scrutinize the files more in _compile_file_filter. return if $dont_ignore_dirs; return unless $idirs; $idirs = $opt->{idirs}; return sub { my $file = App::Ack::File->new($File::Next::dir); return !grep { $_->filter($file) } @{$idirs}; }; } sub _compile_file_filter { my ( $opt, $start ) = @_; my $ifiles_filters = $opt->{ifiles}; my $filters = $opt->{'filters'} || []; my $direct_filters = App::Ack::Filter::Collection->new(); my $inverse_filters = App::Ack::Filter::Collection->new(); foreach my $filter (@{$filters}) { if ($filter->is_inverted()) { # We want to check if files match the uninverted filters $inverse_filters->add($filter->invert()); } else { $direct_filters->add($filter); } } my %is_member_of_starting_set = map { (get_file_id($_) => 1) } @{$start}; my @ignore_dir_filter = @{$opt->{idirs} || []}; my @is_inverted = map { $_->is_inverted() } @ignore_dir_filter; # This depends on InverseFilter->invert returning the original filter (for optimization). @ignore_dir_filter = map { $_->is_inverted() ? $_->invert() : $_ } @ignore_dir_filter; my $dont_ignore_dir_filter = grep { $_ } @is_inverted; my $previous_dir = ''; my $previous_dir_ignore_result; return sub { if ( $opt_g ) { if ( $File::Next::name =~ /$search_re/o ) { return 0 if $opt_v; } else { return 0 if !$opt_v; } } # ack always selects files that are specified on the command # line, regardless of filetype. If you want to ack a JPEG, # and say "ack foo whatever.jpg" it will do it for you. return 1 if $is_member_of_starting_set{ get_file_id($File::Next::name) }; if ( $dont_ignore_dir_filter ) { if ( $previous_dir eq $File::Next::dir ) { if ( $previous_dir_ignore_result ) { return 0; } } else { my @dirs = File::Spec->splitdir($File::Next::dir); my $is_ignoring = 0; for ( my $i = 0; $i < @dirs; $i++) { my $dir_rsrc = App::Ack::File->new(File::Spec->catfile(@dirs[0 .. $i])); my $j = 0; for my $filter (@ignore_dir_filter) { if ( $filter->filter($dir_rsrc) ) { $is_ignoring = !$is_inverted[$j]; } $j++; } } $previous_dir = $File::Next::dir; $previous_dir_ignore_result = $is_ignoring; if ( $is_ignoring ) { return 0; } } } # Ignore named pipes found in directory searching. Named # pipes created by subprocesses get specified on the command # line, so the rule of "always select whatever is on the # command line" wins. return 0 if -p $File::Next::name; # We can't handle unreadable filenames; report them. if ( not -r _ ) { use filetest 'access'; if ( not -R $File::Next::name ) { if ( $App::Ack::report_bad_filenames ) { App::Ack::warn( "${File::Next::name}: cannot open file for reading" ); } return 0; } } my $file = App::Ack::File->new($File::Next::name); if ( $ifiles_filters && $ifiles_filters->filter($file) ) { return 0; } my $match_found = $direct_filters->filter($file); # Don't bother invoking inverse filters unless we consider the current file a match. if ( $match_found && $inverse_filters->filter( $file ) ) { $match_found = 0; } return $match_found; }; } # Returns a (fairly) unique identifier for a file. # Use this function to compare two files to see if they're # equal (ie. the same file, but with a different path/links/etc). sub get_file_id { my ( $filename ) = @_; if ( $App::Ack::is_windows ) { return File::Next::reslash( $filename ); } else { # XXX Is this the best method? It always hits the FS. if ( my ( $dev, $inode ) = (stat($filename))[0, 1] ) { return join(':', $dev, $inode); } else { # XXX This could be better. return $filename; } } } # Returns a regex object based on a string and command-line options. # Dies when the regex $str is undefined (i.e. not given on command line). sub build_regex { my $str = shift; my $opt = shift; defined $str or App::Ack::die( 'No regular expression found.' ); if ( !$opt->{Q} ) { # Compile the regex to see if it dies or throws warnings. local $SIG{__WARN__} = sub { die @_ }; # Anything that warns becomes a die. my $scratch_regex = eval { qr/$str/ }; if ( not $scratch_regex ) { my $err = $@; chomp $err; if ( $err =~ m{^(.+?); marked by <-- HERE in m/(.+?) <-- HERE} ) { my ($why, $where) = ($1,$2); my $pointy = ' ' x (6+length($where)) . '^---HERE'; App::Ack::die( "Invalid regex '$str'\nRegex: $str\n$pointy $why" ); } else { App::Ack::die( "Invalid regex '$str'\n$err" ); } } } # Check for lowercaseness before we do any modifications. my $regex_is_lc = App::Ack::is_lowercase( $str ); $str = quotemeta( $str ) if $opt->{Q}; my $scan_str = $str; # Whole words only. if ( $opt->{w} ) { my $ok = 1; if ( $str =~ /^\\[wd]/ ) { # Explicit \w is good. } else { # Can start with \w, (, [ or dot. if ( $str !~ /^[\w\(\[\.]/ ) { $ok = 0; } } # Can end with \w, }, ), ], +, *, or dot. if ( $str !~ /[\w\}\)\]\+\*\?\.]$/ ) { $ok = 0; } # ... unless it's escaped. elsif ( $str =~ /\\[\}\)\]\+\*\?\.]$/ ) { $ok = 0; } if ( !$ok ) { App::Ack::die( '-w will not do the right thing if your regex does not begin and end with a word character.' ); } if ( $str =~ /^\w+$/ ) { # No need for fancy regex if it's a simple word. $str = sprintf( '\b(?:%s)\b', $str ); } else { $str = sprintf( '(?:^|\b|\s)\K(?:%s)(?=\s|\b|$)', $str ); } } if ( $opt->{i} || ($opt->{S} && $regex_is_lc) ) { $_ = "(?i)$_" for ( $str, $scan_str ); } my $scan_regex = undef; my $regex = eval { qr/$str/ }; if ( $regex ) { if ( $scan_str !~ /\$/ ) { # No line_scan is possible if there's a $ in the regex. $scan_regex = eval { qr/$scan_str/m }; } } else { my $err = $@; chomp $err; App::Ack::die( "Invalid regex '$str':\n $err" ); } return ($regex, $scan_regex); } my $match_colno; { # Number of context lines my $n_before_ctx_lines; my $n_after_ctx_lines; # Array to keep track of lines that might be required for a "before" context my @before_context_buf; # Position to insert next line in @before_context_buf my $before_context_pos; # Number of "after" context lines still pending my $after_context_pending; # Number of latest line that got printed my $printed_lineno; my $is_first_match; state $has_printed_from_any_file = 0; sub file_loop_normal { my $files = shift; $n_before_ctx_lines = $opt_output ? 0 : ($opt_B || 0); $n_after_ctx_lines = $opt_output ? 0 : ($opt_A || 0); @before_context_buf = (undef) x $n_before_ctx_lines; $before_context_pos = 0; $is_tracking_context = $n_before_ctx_lines || $n_after_ctx_lines; $is_first_match = 1; my $nmatches = 0; while ( defined( my $file = $files->next ) ) { if ($is_tracking_context) { $printed_lineno = 0; $after_context_pending = 0; if ( $opt_heading ) { $is_first_match = 1; } } my $needs_line_scan = 1; if ( !$opt_passthru && !$opt_v ) { $stats{prescans}++; if ( $file->may_be_present( $scan_re ) ) { $file->reset(); } else { $needs_line_scan = 0; } } if ( $needs_line_scan ) { $stats{linescans}++; $nmatches += print_matches_in_file( $file ); } last if $opt_1 && $nmatches; } return $nmatches; } sub print_matches_in_file { my $file = shift; my $max_count = $opt_m || -1; # Go negative for no limit so it can never reduce to 0. my $nmatches = 0; my $filename = $file->name; my $has_printed_from_this_file = 0; my $fh = $file->open; if ( !$fh ) { if ( $App::Ack::report_bad_filenames ) { App::Ack::warn( "$filename: $!" ); } return 0; } my $display_filename = $filename; if ( $opt_show_filename && $opt_heading && $opt_color ) { $display_filename = Term::ANSIColor::colored($display_filename, $ENV{ACK_COLOR_FILENAME}); } # Check for context before the main loop, so we don't pay for it if we don't need it. if ( $is_tracking_context ) { local $_ = undef; $after_context_pending = 0; my $in_range = range_setup(); while ( <$fh> ) { chomp; $match_colno = undef; $in_range = 1 if ( $using_ranges && !$in_range && $opt_range_start && /$opt_range_start/o ); my $does_match; if ( $in_range ) { if ( $opt_v ) { $does_match = !/$search_re/o; } else { if ( $does_match = /$search_re/o ) { # @- = @LAST_MATCH_START # @+ = @LAST_MATCH_END $match_colno = $-[0] + 1; } } } if ( $does_match && $max_count ) { if ( !$has_printed_from_this_file ) { $stats{filematches}++; if ( $opt_break && $has_printed_from_any_file ) { App::Ack::print_blank_line(); } if ( $opt_show_filename && $opt_heading ) { App::Ack::say( $display_filename ); } } print_line_with_context( $filename, $_, $. ); $has_printed_from_this_file = 1; $stats{linematches}++; $nmatches++; $max_count--; } else { if ( $after_context_pending ) { # Disable $opt_column since there are no matches in the context lines. local $opt_column = 0; print_line_with_options( $filename, $_, $., '-' ); --$after_context_pending; } elsif ( $n_before_ctx_lines ) { # Save line for "before" context. $before_context_buf[$before_context_pos] = $_; $before_context_pos = ($before_context_pos+1) % $n_before_ctx_lines; } } $in_range = 0 if ( $using_ranges && $in_range && $opt_range_end && /$opt_range_end/o ); last if ($max_count == 0) && ($after_context_pending == 0); } } elsif ( $opt_passthru ) { local $_ = undef; my $in_range = range_setup(); while ( <$fh> ) { chomp; $in_range = 1 if ( $using_ranges && !$in_range && $opt_range_start && /$opt_range_start/o ); $match_colno = undef; if ( $in_range && ($opt_v xor /$search_re/o) ) { if ( !$opt_v ) { $match_colno = $-[0] + 1; } if ( !$has_printed_from_this_file ) { if ( $opt_break && $has_printed_from_any_file ) { App::Ack::print_blank_line(); } if ( $opt_show_filename && $opt_heading ) { App::Ack::say( $display_filename ); } } print_line_with_options( $filename, $_, $., ':' ); $has_printed_from_this_file = 1; $nmatches++; $max_count--; } else { if ( $opt_break && !$has_printed_from_this_file && $has_printed_from_any_file ) { App::Ack::print_blank_line(); } print_line_with_options( $filename, $_, $., '-', 1 ); $has_printed_from_this_file = 1; } $in_range = 0 if ( $using_ranges && $in_range && $opt_range_end && /$opt_range_end/o ); last if $max_count == 0; } } elsif ( $opt_v ) { local $_ = undef; $match_colno = undef; my $in_range = range_setup(); while ( <$fh> ) { chomp; $in_range = 1 if ( $using_ranges && !$in_range && $opt_range_start && /$opt_range_start/o ); if ( $in_range ) { if ( !/$search_re/o ) { if ( !$has_printed_from_this_file ) { if ( $opt_break && $has_printed_from_any_file ) { App::Ack::print_blank_line(); } if ( $opt_show_filename && $opt_heading ) { App::Ack::say( $display_filename ); } } print_line_with_context( $filename, $_, $. ); $has_printed_from_this_file = 1; $nmatches++; $max_count--; } } $in_range = 0 if ( $using_ranges && $in_range && $opt_range_end && /$opt_range_end/o ); last if $max_count == 0; } } else { # Normal search: No context, no -v, no --passthru local $_ = undef; my $last_match_lineno; my $in_range = range_setup(); while ( <$fh> ) { chomp; $in_range = 1 if ( $using_ranges && !$in_range && $opt_range_start && /$opt_range_start/o ); if ( $in_range ) { $match_colno = undef; if ( /$search_re/o ) { $match_colno = $-[0] + 1; if ( !$has_printed_from_this_file ) { $stats{filematches}++; if ( $opt_break && $has_printed_from_any_file ) { App::Ack::print_blank_line(); } if ( $opt_show_filename && $opt_heading ) { App::Ack::say( $display_filename ); } } if ( $opt_p ) { if ( $last_match_lineno ) { if ( $. > $last_match_lineno + $opt_p ) { App::Ack::print_blank_line(); } } elsif ( !$opt_break && $has_printed_from_any_file ) { App::Ack::print_blank_line(); } } s/[\r\n]+$//; print_line_with_options( $filename, $_, $., ':' ); $has_printed_from_this_file = 1; $nmatches++; $stats{linematches}++; $max_count--; $last_match_lineno = $.; } } $in_range = 0 if ( $using_ranges && $in_range && $opt_range_end && /$opt_range_end/o ); last if $max_count == 0; } } return $nmatches; } sub print_line_with_options { my ( $filename, $line, $lineno, $separator, $skip_coloring ) = @_; $has_printed_from_any_file = 1; $printed_lineno = $lineno; my @line_parts; if ( $opt_show_filename && defined($filename) ) { my $colno; $colno = get_match_colno() if $opt_column; if ( $opt_color ) { $filename = Term::ANSIColor::colored( $filename, $ENV{ACK_COLOR_FILENAME} ); $lineno = Term::ANSIColor::colored( $lineno, $ENV{ACK_COLOR_LINENO} ); $colno = Term::ANSIColor::colored( $colno, $ENV{ACK_COLOR_COLNO} ) if $opt_column; } if ( $opt_heading ) { push @line_parts, $lineno; } else { push @line_parts, $filename, $lineno; } push @line_parts, $colno if $opt_column; } if ( $opt_output ) { while ( $line =~ /$search_re/og ) { my $output = $opt_output; if ( @special_vars_used_by_opt_output ) { no strict; # Stash copies of the special variables because we can't rely # on them not changing in the process of doing the s///. my %keep = map { ($_ => ${$_} // '') } @special_vars_used_by_opt_output; $keep{_} = $line if exists $keep{_}; # Manually set it because $_ gets reset in a map. $keep{f} = $filename if exists $keep{f}; my $special_vars_used_by_opt_output = join( '', @special_vars_used_by_opt_output ); $output =~ s/\$([$special_vars_used_by_opt_output])/$keep{$1}/ego; } App::Ack::say( join( $separator, @line_parts, $output ) ); } } else { my $underline = ''; # We have to do underlining before any highlighting because highlighting modifies string length. if ( $opt_underline && !$skip_coloring ) { while ( $line =~ /$search_re/og ) { my $match_start = $-[0] // next; my $match_end = $+[0]; my $match_length = $match_end - $match_start; last if $match_length <= 0; my $spaces_needed = $match_start - length $underline; $underline .= (' ' x $spaces_needed); $underline .= ('^' x $match_length); } } if ( $opt_color && !$skip_coloring ) { my $highlighted = 0; # If highlighted, need to escape afterwards. while ( $line =~ /$search_re/og ) { my $match_start = $-[0] // next; my $match_end = $+[0]; my $match_length = $match_end - $match_start; last if $match_length <= 0; my $substring = substr( $line, $match_start, $match_length ); my $substitution = Term::ANSIColor::colored( $substring, $ENV{ACK_COLOR_MATCH} ); # Fourth argument replaces the string specified by the first three. substr( $line, $match_start, $match_length, $substitution ); # Move the offset of where /g left off forward the number of spaces of highlighting. pos($line) = $match_end + (length( $substitution ) - length( $substring )); $highlighted = 1; } # Reset formatting and delete everything to the end of the line. $line .= "\e[0m\e[K" if $highlighted; } push @line_parts, $line; App::Ack::say( join( $separator, @line_parts ) ); # Print the underline, if appropriate. if ( $underline ne '' ) { # Figure out how many spaces are used per line for the ANSI coloring. state $chars_used_by_coloring; if ( !defined($chars_used_by_coloring) ) { $chars_used_by_coloring = 0; if ( $opt_color ) { my $len_fn = sub { length( Term::ANSIColor::colored( 'x', $ENV{$_[0]} ) ) - 1 }; $chars_used_by_coloring += $len_fn->('ACK_COLOR_FILENAME') unless $opt_heading; $chars_used_by_coloring += $len_fn->('ACK_COLOR_LINENO'); $chars_used_by_coloring += $len_fn->('ACK_COLOR_COLNO') if $opt_column; } } pop @line_parts; # Leave only the stuff on the left. if ( @line_parts ) { my $stuff_on_the_left = join( $separator, @line_parts ); my $spaces_needed = length($stuff_on_the_left) - $chars_used_by_coloring + 1; App::Ack::print( ' ' x $spaces_needed ); } App::Ack::say( $underline ); } } return; } sub print_line_with_context { my ( $filename, $matching_line, $lineno ) = @_; $matching_line =~ s/[\r\n]+$//; # Check if we need to print context lines first. if ( $opt_A || $opt_B ) { my $before_unprinted = $lineno - $printed_lineno - 1; if ( !$is_first_match && ( !$printed_lineno || $before_unprinted > $n_before_ctx_lines ) ) { App::Ack::say( '--' ); } # We want at most $n_before_ctx_lines of context. if ( $before_unprinted > $n_before_ctx_lines ) { $before_unprinted = $n_before_ctx_lines; } while ( $before_unprinted > 0 ) { my $line = $before_context_buf[($before_context_pos - $before_unprinted + $n_before_ctx_lines) % $n_before_ctx_lines]; chomp $line; # Disable $opt->{column} since there are no matches in the context lines. local $opt_column = 0; print_line_with_options( $filename, $line, $lineno-$before_unprinted, '-' ); $before_unprinted--; } } print_line_with_options( $filename, $matching_line, $lineno, ':' ); # We want to get the next $n_after_ctx_lines printed. $after_context_pending = $n_after_ctx_lines; $is_first_match = 0; return; } } sub get_match_colno { return $match_colno; } sub count_matches_in_file { my $file = shift; my $bail = shift; # True if we're just checking for existence. my $nmatches = 0; my $do_scan = 1; if ( !$file->open() ) { $do_scan = 0; if ( $App::Ack::report_bad_filenames ) { App::Ack::warn( $file->name . ": $!" ); } } else { if ( !$opt_v ) { if ( !$file->may_be_present( $scan_re ) ) { $do_scan = 0; } } } if ( $do_scan ) { $file->reset(); my $in_range = range_setup(); my $fh = $file->{fh}; if ( $using_ranges ) { while ( <$fh> ) { chomp; $in_range = 1 if ( !$in_range && $opt_range_start && /$opt_range_start/o ); if ( $in_range ) { if ( /$search_re/o xor $opt_v ) { ++$nmatches; last if $bail; } } $in_range = 0 if ( $in_range && $opt_range_end && /$opt_range_end/o ); } } else { while ( <$fh> ) { chomp; if ( /$search_re/o xor $opt_v ) { ++$nmatches; last if $bail; } } } } $file->close; return $nmatches; } sub range_setup { return !$using_ranges || (!$opt_range_start && $opt_range_end); } =pod =encoding UTF-8 =head1 NAME ack - grep-like text finder =head1 SYNOPSIS ack [options] PATTERN [FILE...] ack -f [options] [DIRECTORY...] =head1 DESCRIPTION ack is designed as an alternative to F<grep> for programmers. ack searches the named input FILEs or DIRECTORYs for lines containing a match to the given PATTERN. By default, ack prints the matching lines. If no FILE or DIRECTORY is given, the current directory will be searched. PATTERN is a Perl regular expression. Perl regular expressions are commonly found in other programming languages, but for the particulars of their behavior, please consult L<perlreref|https://perldoc.perl.org/perlreref.html>. If you don't know how to use regular expression but are interested in learning, you may consult L<perlretut|https://perldoc.perl.org/perlretut.html>. If you do not need or want ack to use regular expressions, please see the C<-Q>/C<--literal> option. Ack can also list files that would be searched, without actually searching them, to let you take advantage of ack's file-type filtering capabilities. =head1 FILE SELECTION If files are not specified for searching, either on the command line or piped in with the C<-x> option, I<ack> delves into subdirectories selecting files for searching. I<ack> is intelligent about the files it searches. It knows about certain file types, based on both the extension on the file and, in some cases, the contents of the file. These selections can be made with the B<--type> option. With no file selection, I<ack> searches through regular files that are not explicitly excluded by B<--ignore-dir> and B<--ignore-file> options, either present in F<ackrc> files or on the command line. The default options for I<ack> ignore certain files and directories. These include: =over 4 =item * Backup files: Files matching F<#*#> or ending with F<~>. =item * Coredumps: Files matching F<core.\d+> =item * Version control directories like F<.svn> and F<.git>. =back Run I<ack> with the C<--dump> option to see what settings are set. However, I<ack> always searches the files given on the command line, no matter what type. If you tell I<ack> to search in a coredump, it will search in a coredump. =head1 DIRECTORY SELECTION I<ack> descends through the directory tree of the starting directories specified. If no directories are specified, the current working directory is used. However, it will ignore the shadow directories used by many version control systems, and the build directories used by the Perl MakeMaker system. You may add or remove a directory from this list with the B<--[no]ignore-dir> option. The option may be repeated to add/remove multiple directories from the ignore list. For a complete list of directories that do not get searched, run C<ack --dump>. =head1 MATCHING IN A RANGE OF LINES The C<--range-start> and C<--range-end> options let you specify ranges of lines to search within each file. Say you had the following file, called F<testfile>: # This function calls print on "foo". sub foo { print 'foo'; } my $print = 1; sub bar { print 'bar'; } my $task = 'print'; Calling C<ack print> will give us five matches: $ ack print testfile # This function calls print on "foo". print 'foo'; my $print = 1; print 'bar'; my $task = 'print'; What if we only want to search for C<print> within the subroutines? We can specify ranges of lines that we want ack to search. The range starts with any line that matches the pattern C<^sub \w+>, and stops with any line that matches C<^}>. $ ack --range-start='^sub \w+' --range-end='^}' print testfile print 'foo'; print 'bar'; Note that ack searched two ranges of lines. The listing below shows which lines were in a range and which were out of the range. Out # This function calls print on "foo". In sub foo { In print 'foo'; In } Out my $print = 1; In sub bar { In print 'bar'; In } Out my $task = 'print'; You don't have to specify both C<--range-start> and C<--range-end>. IF C<--range-start> is omitted, then the range runs from the first line in the file unitl the first line that matches C<--range-end>. Similarly, if C<--range-end> is omitted, the range runs from the first line matching C<--range-start> to the end of the file. For example, if you wanted to search all HTML files up until the first instance of the C<< <body> >>, you could do ack foo --range-end='<body>' Or to search after Perl's `__DATA__` or `__END__` markers, you would do ack pattern --range-end='^__(END|DATA)__' It's possible for a range to start and stop on the same line. For example --range-start='<title>' --range-end='</title>' would match this line as both the start and end of the range, making a one-line range. <title>Page title</title> Note that the patterns in C<--range-start> and C<--range-end> are not affected by options like C<-i>, C<-w> and C<-Q> that modify the behavior of the main pattern being matched. Again, ranges only affect where matches are looked for. Everything else in ack works the same way. Using C<-c> option with a range will give a count of all the matches that appear within those ranges. The C<-l> shows those files that have a match within a range, and the C<-L> option shows files that do not have a match within a range. The C<-v> option for negating a match works inside the range, too. To see lines that don't match "google" within the "<head>" section of your HTML files, you could do: ack google -v --html --range-start='<head' --range-end='</head>' Specifying a range to search does not affect how matches are displayed. The context for a match will still be the same, and Using the context options work the same way, and will show context lines for matches even if the context lines fall outside the range. Similarly, C<--passthru> will show all lines in the file, but only show matches for lines within the range. =head1 OPTIONS =over 4 =item B<--ackrc> Specifies an ackrc file to load after all others; see L</"ACKRC LOCATION SEMANTICS">. =item B<-A I<NUM>>, B<--after-context=I<NUM>> Print I<NUM> lines of trailing context after matching lines. =item B<-B I<NUM>>, B<--before-context=I<NUM>> Print I<NUM> lines of leading context before matching lines. =item B<--[no]break> Print a break between results from different files. On by default when used interactively. =item B<-C [I<NUM>]>, B<--context[=I<NUM>]> Print I<NUM> lines (default 2) of context around matching lines. You can specify zero lines of context to override another context specified in an ackrc. =item B<-c>, B<--count> Suppress normal output; instead print a count of matching lines for each input file. If B<-l> is in effect, it will only show the number of lines for each file that has lines matching. Without B<-l>, some line counts may be zeroes. If combined with B<-h> (B<--no-filename>) ack outputs only one total count. =item B<--[no]color>, B<--[no]colour> B<--color> highlights the matching text. B<--nocolor> suppresses the color. This is on by default unless the output is redirected. On Windows, this option is off by default unless the L<Win32::Console::ANSI> module is installed or the C<ACK_PAGER_COLOR> environment variable is used. =item B<--color-filename=I<color>> Sets the color to be used for filenames. =item B<--color-match=I<color>> Sets the color to be used for matches. =item B<--color-colno=I<color>> Sets the color to be used for column numbers. =item B<--color-lineno=I<color>> Sets the color to be used for line numbers. =item B<--[no]column> Show the column number of the first match. This is helpful for editors that can place your cursor at a given position. =item B<--create-ackrc> Dumps the default ack options to standard output. This is useful for when you want to customize the defaults. =item B<--dump> Writes the list of options loaded and where they came from to standard output. Handy for debugging. =item B<--[no]env> B<--noenv> disables all environment processing. No F<.ackrc> is read and all environment variables are ignored. By default, F<ack> considers F<.ackrc> and settings in the environment. =item B<--flush> B<--flush> flushes output immediately. This is off by default unless ack is running interactively (when output goes to a pipe or file). =item B<-f> Only print the files that would be searched, without actually doing any searching. PATTERN must not be specified, or it will be taken as a path to search. =item B<--files-from=I<FILE>> The list of files to be searched is specified in I<FILE>. The list of files are separated by newlines. If I<FILE> is C<->, the list is loaded from standard input. Note that the list of files is B<not> filtered in any way. If you add C<--type=html> in addition to C<--files-from>, the C<--type> will be ignored. =item B<--[no]filter> Forces ack to act as if it were receiving input via a pipe. =item B<--[no]follow> Follow or don't follow symlinks, other than whatever starting files or directories were specified on the command line. This is off by default. =item B<-g I<PATTERN>> Print searchable files where the relative path + filename matches I<PATTERN>. Note that ack -g foo is exactly the same as ack -f | ack foo This means that just as ack will not search, for example, F<.jpg> files, C<-g> will not list F<.jpg> files either. ack is not intended to be a general-purpose file finder. Note also that if you have C<-i> in your .ackrc that the filenames to be matched will be case-insensitive as well. This option can be combined with B<--color> to make it easier to spot the match. =item B<--[no]group> B<--group> groups matches by file name. This is the default when used interactively. B<--nogroup> prints one result per line, like grep. This is the default when output is redirected. =item B<-H>, B<--with-filename> Print the filename for each match. This is the default unless searching a single explicitly specified file. =item B<-h>, B<--no-filename> Suppress the prefixing of filenames on output when multiple files are searched. =item B<--[no]heading> Print a filename heading above each file's results. This is the default when used interactively. =item B<--help> Print a short help statement. =item B<--help-types> Print all known types. =item B<--help-colors> Print a chart of various color combinations. =item B<--help-rgb-colors> Like B<--help-colors> but with more precise RGB colors. =item B<-i>, B<--ignore-case> Ignore case distinctions in PATTERN. Overrides B<--smart-case> and B<-I>. =item B<-I>, B<--no-ignore-case> Turns on case distinctions in PATTERN. Overrides B<--smart-case> and B<-i>. =item B<--ignore-ack-defaults> Tells ack to completely ignore the default definitions provided with ack. This is useful in combination with B<--create-ackrc> if you I<really> want to customize ack. =item B<--[no]ignore-dir=I<DIRNAME>>, B<--[no]ignore-directory=I<DIRNAME>> Ignore directory (as CVS, .svn, etc are ignored). May be used multiple times to ignore multiple directories. For example, mason users may wish to include B<--ignore-dir=data>. The B<--noignore-dir> option allows users to search directories which would normally be ignored (perhaps to research the contents of F<.svn/props> directories). The I<DIRNAME> must always be a simple directory name. Nested directories like F<foo/bar> are NOT supported. You would need to specify B<--ignore-dir=foo> and then no files from any foo directory are taken into account by ack unless given explicitly on the command line. =item B<--ignore-file=I<FILTER:ARGS>> Ignore files matching I<FILTER:ARGS>. The filters are specified identically to file type filters as seen in L</"Defining your own types">. =item B<-k>, B<--known-types> Limit selected files to those with types that ack knows about. =item B<-l>, B<--files-with-matches> Only print the filenames of matching files, instead of the matching text. =item B<-L>, B<--files-without-matches> Only print the filenames of files that do I<NOT> match. =item B<--match I<PATTERN>> Specify the I<PATTERN> explicitly. This is helpful if you don't want to put the regex as your first argument, e.g. when executing multiple searches over the same set of files. # search for foo and bar in given files ack file1 t/file* --match foo ack file1 t/file* --match bar =item B<-m=I<NUM>>, B<--max-count=I<NUM>> Print only I<NUM> matches out of each file. If you want to stop ack after printing the first match of any kind, use the B<-1> options. =item B<--man> Print this manual page. =item B<-n>, B<--no-recurse> No descending into subdirectories. =item B<-o> Show only the part of each line matching PATTERN (turns off text highlighting). This is exactly the same as C<--output=$&>. =item B<--output=I<expr>> Output the evaluation of I<expr> for each line (turns off text highlighting). If PATTERN matches more than once then a line is output for each non-overlapping match. I<expr> may contain the strings "\n", "\r" and "\t", which will be expanded to their corresponding characters line feed, carriage return and tab, respectively. I<expr> may also contain the following Perl special variables: =over 4 =item C<$1> through C<$9> The subpattern from the corresponding set of capturing parentheses. If your pattern is C<(.+) and (.+)>, and the string is "this and that', then C<$1> is "this" and C<$2> is "that". =item C<$_> The contents of the line in the file. =item C<$.> The number of the line in the file. =item C<$&>, C<$`> and C<$'> C<$&> is the the string matched by the pattern, C<$`> is what precedes the match, and C<$'> is what follows it. If the pattern is C<gra(ph|nd)> and the string is "lexicographic", then C<$&> is "graph", C<$`> is "lexico" and C<$'> is "ic". Use of these variables in your output will slow down the pattern matching. =item C<$+> The match made by the last parentheses that matched in the pattern. For example, if your pattern is C<Version: (.+)|Revision: (.+)>, then C<$+> will contain whichever set of parentheses matched. =item C<$f> C<$f> is available, in C<--output> only, to insert the filename. This is a stand-in for the discovered C<$filename> usage in old C<< ack2 --output >>, which is disallowed with C<ack3> improved security. The intended usage is to provide the grep or compile-error syntax needed for editor/IDE go-to-line integration, e.g. C<--output=$f:$.:$_> or C<--output=$f\t$.\t$&> =back =item B<--pager=I<program>>, B<--nopager> B<--pager> directs ack's output through I<program>. This can also be specified via the C<ACK_PAGER> and C<ACK_PAGER_COLOR> environment variables. Using --pager does not suppress grouping and coloring like piping output on the command-line does. B<--nopager> cancels any setting in F<~/.ackrc>, C<ACK_PAGER> or C<ACK_PAGER_COLOR>. No output will be sent through a pager. =item B<--passthru> Prints all lines, whether or not they match the expression. Highlighting will still work, though, so it can be used to highlight matches while still seeing the entire file, as in: # Watch a log file, and highlight a certain IP address. $ tail -f ~/access.log | ack --passthru 123.45.67.89 =item B<--print0> Only works in conjunction with B<-f>, B<-g>, B<-l> or B<-c>, options that only list filenames. The filenames are output separated with a null byte instead of the usual newline. This is helpful when dealing with filenames that contain whitespace, e.g. # Remove all files of type HTML. ack -f --html --print0 | xargs -0 rm -f =item B<-p[N]>, B<--proximate[=N]> Groups together match lines that are within N lines of each other. This is useful for visually picking out matches that appear close to other matches. For example, if you got these results without the C<--proximate> option, 15: First match 18: Second match 19: Third match 37: Fourth match they would look like this with C<--proximate=1> 15: First match 18: Second match 19: Third match 37: Fourth match and this with C<--proximate=3>. 15: First match 18: Second match 19: Third match 37: Fourth match If N is omitted, N is set to 1. =item B<-P> Negates the effect of the B<--proximate> option. Shortcut for B<--proximate=0>. =item B<-Q>, B<--literal> Quote all metacharacters in PATTERN, it is treated as a literal. =item B<-r>, B<-R>, B<--recurse> Recurse into sub-directories. This is the default and just here for compatibility with grep. You can also use it for turning B<--no-recurse> off. =item B<--range-start=PATTERN>, B<--range-end=PATTERN> Specifies patterns that mark the start and end of a range. See L<MATCHING IN A RANGE OF LINES> for details. =item B<-s> Suppress error messages about nonexistent or unreadable files. This is taken from fgrep. =item B<-S>, B<--[no]smart-case>, B<--no-smart-case> Ignore case in the search strings if PATTERN contains no uppercase characters. This is similar to C<smartcase> in the vim text editor. The options overrides B<-i> and B<-I>. B<-S> is a synonym for B<--smart-case>. B<-i> always overrides this option. =item B<--sort-files> Sorts the found files lexicographically. Use this if you want your file listings to be deterministic between runs of I<ack>. =item B<--show-types> Outputs the filetypes that ack associates with each file. Works with B<-f> and B<-g> options. =item B<-t TYPE>, B<--type=TYPE>, B<--TYPE> Specify the types of files to include in the search. TYPE is a filetype, like I<perl> or I<xml>. B<--type=perl> can also be specified as B<--perl>, although this is deprecated. Type inclusions can be repeated and are ORed together. See I<ack --help-types> for a list of valid types. =item B<-T TYPE>, B<--type=noTYPE>, B<--noTYPE> Specifies the type of files to exclude from the search. B<--type=noperl> can be done as B<--noperl>, although this is deprecated. If a file is of both type "foo" and "bar", specifying both B<--type=foo> and B<--type=nobar> will exclude the file, because an exclusion takes precedence over an inclusion. =item B<--type-add I<TYPE>:I<FILTER>:I<ARGS>> Files with the given ARGS applied to the given FILTER are recognized as being of (the existing) type TYPE. See also L</"Defining your own types">. =item B<--type-set I<TYPE>:I<FILTER>:I<ARGS>> Files with the given ARGS applied to the given FILTER are recognized as being of type TYPE. This replaces an existing definition for type TYPE. See also L</"Defining your own types">. =item B<--type-del I<TYPE>> The filters associated with TYPE are removed from Ack, and are no longer considered for searches. =item B<--[no]underline> Turns on underlining of matches, where "underlining" is printing a line of carets under the match. $ ack -u foo peanuts.txt 17: Come kick the football you fool ^^^ ^^^ 623: Price per square foot ^^^ This is useful if you're dumping the results of an ack run into a text file or printer that doesn't support ANSI color codes. The setting of underline does not affect highlighting of matches. =item B<-v>, B<--invert-match> Invert match: select non-matching lines. =item B<--version> Display version and copyright information. =item B<-w>, B<--word-regexp> Force PATTERN to match only whole words. =item B<-x> An abbreviation for B<--files-from=->. The list of files to search are read from standard input, with one line per file. Note that the list of files is B<not> filtered in any way. If you add C<--type=html> in addition to C<-x>, the C<--type> will be ignored. =item B<-1> Stops after reporting first match of any kind. This is different from B<--max-count=1> or B<-m1>, where only one match per file is shown. Also, B<-1> works with B<-f> and B<-g>, where B<-m> does not. =item B<--thpppt> Display the all-important Bill The Cat logo. Note that the exact spelling of B<--thpppppt> is not important. It's checked against a regular expression. =item B<--bar> Check with the admiral for traps. =item B<--cathy> Chocolate, Chocolate, Chocolate! =back =head1 THE .ackrc FILE The F<.ackrc> file contains command-line options that are prepended to the command line before processing. Multiple options may live on multiple lines. Lines beginning with a # are ignored. A F<.ackrc> might look like this: # Always sort the files --sort-files # Always color, even if piping to another program --color # Use "less -r" as my pager --pager=less -r Note that arguments with spaces in them do not need to be quoted, as they are not interpreted by the shell. Basically, each I<line> in the F<.ackrc> file is interpreted as one element of C<@ARGV>. F<ack> looks in several locations for F<.ackrc> files; the searching process is detailed in L</"ACKRC LOCATION SEMANTICS">. These files are not considered if B<--noenv> is specified on the command line. =head1 Defining your own types ack allows you to define your own types in addition to the predefined types. This is done with command line options that are best put into an F<.ackrc> file - then you do not have to define your types over and over again. In the following examples the options will always be shown on one command line so that they can be easily copy & pasted. File types can be specified both with the the I<--type=xxx> option, or the file type as an option itself. For example, if you create a filetype of "cobol", you can specify I<--type=cobol> or simply I<--cobol>. File types must be at least two characters long. This is why the C language is I<--cc> and the R language is I<--rr>. I<ack --perl foo> searches for foo in all perl files. I<ack --help-types> tells you, that perl files are files ending in .pl, .pm, .pod or .t. So what if you would like to include .xs files as well when searching for --perl files? I<ack --type-add perl:ext:xs --perl foo> does this for you. B<--type-add> appends additional extensions to an existing type. If you want to define a new type, or completely redefine an existing type, then use B<--type-set>. I<ack --type-set eiffel:ext:e,eiffel> defines the type I<eiffel> to include files with the extensions .e or .eiffel. So to search for all eiffel files containing the word Bertrand use I<ack --type-set eiffel:ext:e,eiffel --eiffel Bertrand>. As usual, you can also write B<--type=eiffel> instead of B<--eiffel>. Negation also works, so B<--noeiffel> excludes all eiffel files from a search. Redefining also works: I<ack --type-set cc:ext:c,h> and I<.xs> files no longer belong to the type I<cc>. When defining your own types in the F<.ackrc> file you have to use the following: --type-set=eiffel:ext:e,eiffel or writing on separate lines --type-set eiffel:ext:e,eiffel The following does B<NOT> work in the F<.ackrc> file: --type-set eiffel:ext:e,eiffel In order to see all currently defined types, use I<--help-types>, e.g. I<ack --type-set backup:ext:bak --type-add perl:ext:perl --help-types> In addition to filtering based on extension, ack offers additional filter types. The generic syntax is I<--type-set TYPE:FILTER:ARGS>; I<ARGS> depends on the value of I<FILTER>. =over 4 =item is:I<FILENAME> I<is> filters match the target filename exactly. It takes exactly one argument, which is the name of the file to match. Example: --type-set make:is:Makefile =item ext:I<EXTENSION>[,I<EXTENSION2>[,...]] I<ext> filters match the extension of the target file against a list of extensions. No leading dot is needed for the extensions. Example: --type-set perl:ext:pl,pm,t =item match:I<PATTERN> I<match> filters match the target filename against a regular expression. The regular expression is made case-insensitive for the search. Example: --type-set make:match:/(gnu)?makefile/ =item firstlinematch:I<PATTERN> I<firstlinematch> matches the first line of the target file against a regular expression. Like I<match>, the regular expression is made case insensitive. Example: --type-add perl:firstlinematch:/perl/ =back =head1 ACK COLORS ack allows customization of the colors it uses when presenting matches onscreen. It uses the colors available in Perl's L<Term::ANSIColor> module, which provides the following listed values. Note that case does not matter when using these values. There are four different colors ack uses: Aspect Option Env. variable Default -------- ----------------- ------------------ --------------- filename --color-filename ACK_COLOR_FILENAME black on_yellow match --color-match ACK_COLOR_MATCH bold green line no. --color-lineno ACK COLOR_LINENO bold yellow column no. --color-colno ACK COLOR_COLNO bold yellow The column number column is only used if the column number is shown because of the --column option. Colors may be specified by command-line option, such as C<ack --color-filename='red on_white'>, or by setting an environment variable, such as C<ACK_COLOR_FILENAME='red on_white'>. Options for colors can be set in your ACKRC file (See "THE .ackrc FILE"). ack can understand the following colors for the foreground: black red green yellow blue magenta cyan white The optional background color is specified by prepending "on_" to one of the foreground colors: on_black on_red on_green on_yellow on_blue on_magenta on_cyan on_white Each of the foreground colors can be modified with the following attributes, which may or may not be supported by your terminal: bold faint italic underline blink reverse concealed Any combinations of modifiers can be added to the foreground color. If your terminal supports it, and you enjoy visual punishment, you can specify: ack --color-filename="blink italic underline bold red on_yellow" For charts of the colors and what they look like, run C<ack --help-colors> and C<ack --help-rgb-colors>. If the eight standard colors, in their bold, faint and unmodified states, aren't enough for you to choose from, you can also specify colors by their RGB values. They are specified as "rgbXYZ" where X, Y, and Z are values between 0 and 5 giving the intensity of red, green and blue, respectively. Therefore, "rgb500" is pure red, "rgb505" is purple, and so on. Background colors can be specified with the "on_" prefix prepended on an RGB color, so that "on_rgb505" would be a purple background. The modifier attributes of blink, italic, underscore and so on may or may not work on the RGB colors. For a chart of the 216 possible RGB colors, run C<ack --help-rgb-colors>. =head1 ENVIRONMENT VARIABLES For commonly-used ack options, environment variables can make life much easier. These variables are ignored if B<--noenv> is specified on the command line. =over 4 =item ACKRC Specifies the location of the user's F<.ackrc> file. If this file doesn't exist, F<ack> looks in the default location. =item ACK_COLOR_COLNO Color specification for the column number in ack's output. By default, the column number is not shown. You have to enable it with the B<--column> option. See the section "ack Colors" above. =item ACK_COLOR_FILENAME Color specification for the filename in ack's output. See the section "ack Colors" above. =item ACK_COLOR_LINENO Color specification for the line number in ack's output. See the section "ack Colors" above. =item ACK_COLOR_MATCH Color specification for the matched text in ack's output. See the section "ack Colors" above. =item ACK_PAGER Specifies a pager program, such as C<more>, C<less> or C<most>, to which ack will send its output. Using C<ACK_PAGER> does not suppress grouping and coloring like piping output on the command-line does, except that on Windows ack will assume that C<ACK_PAGER> does not support color. C<ACK_PAGER_COLOR> overrides C<ACK_PAGER> if both are specified. =item ACK_PAGER_COLOR Specifies a pager program that understands ANSI color sequences. Using C<ACK_PAGER_COLOR> does not suppress grouping and coloring like piping output on the command-line does. If you are not on Windows, you never need to use C<ACK_PAGER_COLOR>. =back =head1 ACK & OTHER TOOLS =head2 Simple vim integration F<ack> integrates easily with the Vim text editor. Set this in your F<.vimrc> to use F<ack> instead of F<grep>: set grepprg=ack\ -k That example uses C<-k> to search through only files of the types ack knows about, but you may use other default flags. Now you can search with F<ack> and easily step through the results in Vim: :grep Dumper perllib =head2 Editor integration Many users have integrated ack into their preferred text editors. For details and links, see L<https://beyondgrep.com/more-tools/>. =head2 Shell and Return Code For greater compatibility with I<grep>, I<ack> in normal use returns shell return or exit code of 0 only if something is found and 1 if no match is found. (Shell exit code 1 is C<$?=256> in perl with C<system> or backticks.) The I<grep> code 2 for errors is not used. If C<-f> or C<-g> are specified, then 0 is returned if at least one file is found. If no files are found, then 1 is returned. =cut =head1 DEBUGGING ACK PROBLEMS If ack gives you output you're not expecting, start with a few simple steps. =head2 Try it with B<--noenv> Your environment variables and F<.ackrc> may be doing things you're not expecting, or forgotten you specified. Use B<--noenv> to ignore your environment and F<.ackrc>. =head2 Use B<-f> to see what files have been selected for searching Ack's B<-f> was originally added as a debugging tool. If ack is not finding matches you think it should find, run F<ack -f> to see what files have been selected. You can also add the C<--show-types> options to show the type of each file selected. =head2 Use B<--dump> This lists the ackrc files that are loaded and the options loaded from them. You may be loading an F<.ackrc> file that you didn't know you were loading. =head1 ACKRC LOCATION SEMANTICS Ack can load its configuration from many sources. The following list specifies the sources Ack looks for configuration files; each one that is found is loaded in the order specified here, and each one overrides options set in any of the sources preceding it. (For example, if I set --sort-files in my user ackrc, and --nosort-files on the command line, the command line takes precedence) =over 4 =item * Defaults are loaded from App::Ack::ConfigDefaults. This can be omitted using C<--ignore-ack-defaults>. =item * Global ackrc Options are then loaded from the global ackrc. This is located at C</etc/ackrc> on Unix-like systems. Under Windows XP and earlier, the global ackrc is at C<C:\Documents and Settings\All Users\Application Data\ackrc> Under Windows Vista/7, the global ackrc is at C<C:\ProgramData\ackrc> The C<--noenv> option prevents all ackrc files from being loaded. =item * User ackrc Options are then loaded from the user's ackrc. This is located at C<$HOME/.ackrc> on Unix-like systems. Under Windows XP and earlier, the user's ackrc is at C<C:\Documents and Settings\$USER\Application Data\ackrc>. Under Windows Vista/7, the user's ackrc is at C<C:\Users\$USER\AppData\Roaming\ackrc>. If you want to load a different user-level ackrc, it may be specified with the C<$ACKRC> environment variable. The C<--noenv> option prevents all ackrc files from being loaded. =item * Project ackrc Options are then loaded from the project ackrc. The project ackrc is the first ackrc file with the name C<.ackrc> or C<_ackrc>, first searching in the current directory, then the parent directory, then the grandparent directory, etc. This can be omitted using C<--noenv>. =item * --ackrc The C<--ackrc> option may be included on the command line to specify an ackrc file that can override all others. It is consulted even if C<--noenv> is present. =item * Command line Options are then loaded from the command line. =back =head1 BUGS & ENHANCEMENTS ack is based at GitHub at L<https://github.com/beyondgrep/ack3> Please report any bugs or feature requests to the issues list at Github: L<https://github.com/beyondgrep/ack3/issues>. Please include the operating system that you're using; the output of the command C<ack --version>; and any customizations in your F<.ackrc> you may have. To suggest enhancements, please submit an issue at L<https://github.com/beyondgrep/ack3/issues>. Also read the F<DEVELOPERS.md> file in the ack code repository. Also, feel free to discuss your issues on the ack mailing list at L<https://groups.google.com/group/ack-users>. =head1 SUPPORT Support for and information about F<ack> can be found at: =over 4 =item * The ack homepage L<https://beyondgrep.com/> =item * Source repository L<https://github.com/beyondgrep/ack3> =item * The ack issues list at Github L<https://github.com/beyondgrep/ack3/issues> =item * The ack announcements mailing list L<https://groups.google.com/group/ack-announcement> =item * The ack users' mailing list L<https://groups.google.com/group/ack-users> =item * The ack development mailing list L<https://groups.google.com/group/ack-users> =back =head1 COMMUNITY There are ack mailing lists and a Slack channel for ack. See L<https://beyondgrep.com/community/> for details. =head1 FAQ This is the Frequently Asked Questions list for ack. =head2 Can I stop using grep now? Many people find I<ack> to be better than I<grep> as an everyday tool 99% of the time, but don't throw I<grep> away, because there are times you'll still need it. For example, you might be looking through huge log files and not using regular expressions. In that case, I<grep> will probably perform better. =head2 Why isn't ack finding a match in (some file)? First, take a look and see if ack is even looking at the file. ack is intelligent in what files it will search and which ones it won't, but sometimes that can be surprising. Use the C<-f> switch, with no regex, to see a list of files that ack will search for you. If your file doesn't show up in the list of files that C<ack -f> shows, then ack never looks in it. =head2 Wouldn't it be great if F<ack> did search & replace? No, ack will always be read-only. Perl has a perfectly good way to do search & replace in files, using the C<-i>, C<-p> and C<-n> switches. You can certainly use ack to select your files to update. For example, to change all "foo" to "bar" in all PHP files, you can do this from the Unix shell: $ perl -i -p -e's/foo/bar/g' $(ack -f --php) =head2 Can I make ack recognize F<.xyz> files? Yes! Please see L</"Defining your own types"> in the ack manual. =head2 Will you make ack recognize F<.xyz> files by default? We might, depending on how widely-used the file format is. Submit an issue at in the GitHub issue queue at L<https://github.com/beyondgrep/ack3/issues>. Explain what the file format is, where we can find out more about it, and what you have been using in your F<.ackrc> to support it. Please do not bother creating a pull request. The code for filetypes is trivial compared to the rest of the process we go through. =head2 Why is it called ack if it's called ack-grep? The name of the program is "ack". Some packagers have called it "ack-grep" when creating packages because there's already a package out there called "ack" that has nothing to do with this ack. I suggest you make a symlink named F<ack> that points to F<ack-grep> because one of the crucial benefits of ack is having a name that's so short and simple to type. To do that, run this with F<sudo> or as root: ln -s /usr/bin/ack-grep /usr/bin/ack Alternatively, you could use a shell alias: # bash/zsh alias ack=ack-grep # csh alias ack ack-grep =head2 What does F<ack> mean? Nothing. I wanted a name that was easy to type and that you could pronounce as a single syllable. =head2 Can I do multi-line regexes? No, ack does not support regexes that match multiple lines. Doing so would require reading in the entire file at a time. If you want to see lines near your match, use the C<--A>, C<--B> and C<--C> switches for displaying context. =head2 Why is ack telling me I have an invalid option when searching for C<+foo>? ack treats command line options beginning with C<+> or C<-> as options; if you would like to search for these, you may prefix your search term with C<--> or use the C<--match> option. (However, don't forget that C<+> is a regular expression metacharacter!) =head2 Why does C<"ack '.{40000,}'"> fail? Isn't that a valid regex? The Perl language limits the repetition quantifier to 32K. You can search for C<.{32767}> but not C<.{32768}>. =head2 Ack does "X" and shouldn't, should it? We try to remain as close to grep's behavior as possible, so when in doubt, see what grep does! If there's a mismatch in functionality there, please submit an issue to GitHub, and/or bring it up on the ack-users mailing list. =cut =head1 ACKNOWLEDGEMENTS How appropriate to have I<ack>nowledgements! Thanks to everyone who has contributed to ack in any way, including Dan Book, Tomasz Konojacki, Salomon Smeke, M. Scott Ford, Anders Eriksson, H.Merijn Brand, Duke Leto, Gerhard Poul, Ethan Mallove, Marek Kubica, Ray Donnelly, Nikolaj Schumacher, Ed Avis, Nick Morrott, Austin Chamberlin, Varadinsky, SE<eacute>bastien FeugE<egrave>re, Jakub Wilk, Pete Houston, Stephen Thirlwall, Jonah Bishop, Chris Rebert, Denis Howe, RaE<uacute>l GundE<iacute>n, James McCoy, Daniel Perrett, Steven Lee, Jonathan Perret, Fraser Tweedale, RaE<aacute>l GundE<aacute>n, Steffen Jaeckel, Stephan Hohe, Michael Beijen, Alexandr Ciornii, Christian Walde, Charles Lee, Joe McMahon, John Warwick, David Steinbrunner, Kara Martens, Volodymyr Medvid, Ron Savage, Konrad Borowski, Dale Sedivic, Michael McClimon, Andrew Black, Ralph Bodenner, Shaun Patterson, Ryan Olson, Shlomi Fish, Karen Etheridge, Olivier Mengue, Matthew Wild, Scott Kyle, Nick Hooey, Bo Borgerson, Mark Szymanski, Marq Schneider, Packy Anderson, JR Boyens, Dan Sully, Ryan Niebur, Kent Fredric, Mike Morearty, Ingmar Vanhassel, Eric Van Dewoestine, Sitaram Chamarty, Adam James, Richard Carlsson, Pedro Melo, AJ Schuster, Phil Jackson, Michael Schwern, Jan Dubois, Christopher J. Madsen, Matthew Wickline, David Dyck, Jason Porritt, Jjgod Jiang, Thomas Klausner, Uri Guttman, Peter Lewis, Kevin Riggle, Ori Avtalion, Torsten Blix, Nigel Metheringham, GE<aacute>bor SzabE<oacute>, Tod Hagan, Michael Hendricks, E<AElig>var ArnfjE<ouml>rE<eth> Bjarmason, Piers Cawley, Stephen Steneker, Elias Lutfallah, Mark Leighton Fisher, Matt Diephouse, Christian Jaeger, Bill Sully, Bill Ricker, David Golden, Nilson Santos F. Jr, Elliot Shank, Merijn Broeren, Uwe Voelker, Rick Scott, Ask BjE<oslash>rn Hansen, Jerry Gay, Will Coleda, Mike O'Regan, Slaven ReziE<0x107>, Mark Stosberg, David Alan Pisoni, Adriano Ferreira, James Keenan, Leland Johnson, Ricardo Signes, Pete Krawczyk and Rob Hoelz. =head1 AUTHOR Andy Lester, C<< <andy at petdance.com> >> =head1 COPYRIGHT & LICENSE Copyright 2005-2020 Andy Lester. This program is free software; you can redistribute it and/or modify it under the terms of the Artistic License v2.0. See https://www.perlfoundation.org/artistic-license-20.html or the LICENSE.md file that comes with the ack distribution. =cut 1; Save