package Text::Autoformat; $Text::Autoformat::VERSION = '1.75'; use 5.006; use strict; use warnings; use Carp; require Exporter; use Text::Reform qw( form tag break_at break_with break_wrap break_TeX ); use Text::Autoformat::Hang; use Text::Autoformat::NullHang; our @ISA = qw(Exporter); our @EXPORT = qw( autoformat ); our @EXPORT_OK = qw( form tag break_at break_with break_wrap break_TeX ignore_headers ); my %std_highlight_ignore = map {$_=>1} qw { a an at as and are but by ere for from in into is of on onto or over per the to that than until unto upon via with while whilst within without }; my $STD_HIGHLIGHT_IGNORES = sub { my ($word) = @_; return $std_highlight_ignore{lc $word} ? recase($word,'lower') : recase($word,'title'); }; my @entities = qw { Á á  â Æ æ À à Α α à ã Ä ä Β β Ç ç Χ χ Δ δ É é Ê ê È è Ε ε Η η Ð ð Ë ë Γ γ Í í Î î Ì ì Ι ι Ï ï Κ κ Λ λ Μ μ Ñ ñ Ν ν Ó ó Ô ô Œ œ Ò ò Ω ω Ο ο Õ õ Ö ö Φ φ Π π ″ ′ Ψ ψ Ρ ρ Š š Σ σ Τ τ Θ θ Þ þ Ú ú Û û Ù ù Υ υ Ü ü Ξ ξ Ý ý Ÿ ÿ Ζ ζ }; my %lower_entities = @entities; my %upper_entities = reverse @entities; my %casing = ( lower => [ \%lower_entities, \%lower_entities, sub { $_ = lc }, sub { $_ = lc } ], upper => [ \%upper_entities, \%upper_entities, sub { $_ = uc }, sub { $_ = uc } ], title => [ \%upper_entities, \%lower_entities, sub { $_ = ucfirst lc }, sub { $_ = lc } ], ); my $default_margin = 72; my $default_widow = 10; $Text::Autoformat::widow_slack = 0.1; sub defn($) { return $_[0] if defined $_[0]; return ""; } my $ignore_headers = qr/ \A (?: From \b .* $)? (?: [^:\n]+ : .* \n (?: [ \t] .* \n)* )+ \s* \Z /mx; my $ignore_indent = qr/^[^\S\n].*(\n[^\S\n].*)*$/; sub ignore_headers { $_[0] && /$ignore_headers/ } # BITS OF A TEXT LINE my $quotechar = qq{[!#%=|:;]}; my $quotechunk = qq{(?:$quotechar(?![a-z])|(?:[a-z]\\w*)?>+)}; my $QUOTER = qq{(?:(?i)(?:$quotechunk(?:[ \\t]*$quotechunk)*))}; my $separator = q/(?:[-_]{2,}|[=#*]{3,}|[+~]{4,})/; use overload; sub autoformat # ($text, %args) { my ($text,%args,$toSTDOUT); foreach ( @_ ) { if (ref eq 'HASH') { %args = (%args, %$_) } elsif (!defined($text) && !ref || overload::Method($_,'""')) { $text = "$_" } else { croak q{Usage: autoformat([text],[{options}])} } } unless (defined $text) { $text = join("",); $toSTDOUT = !defined wantarray(); } return $text unless $text =~ /\S/; $args{right} = $default_margin unless exists $args{right}; $args{justify} = "" unless exists $args{justify}; $args{widow} = 0 if ($args{justify}||"") =~ /full/; $args{widow} = $default_widow unless exists $args{widow}; $args{case} = '' unless exists $args{case}; $args{lists} = 1 unless exists $args{lists}; $args{squeeze} = 1 unless exists $args{squeeze}; $args{gap} = 0 unless exists $args{gap}; $args{break} = break_at('-') unless exists $args{break}; $args{impfill} = ! exists $args{fill}; $args{expfill} = $args{fill}; $args{tabspace} = 8 unless exists $args{tabspace}; $args{renumber} = 1 unless exists $args{renumber}; $args{autocentre} = 1 unless exists $args{autocentre}; $args{_centred} = 1 if $args{justify} =~ /cent(er(ed)?|red?)/; $args{all} ||= $args{mail}; # SPECIAL IGNORANCE... if ($args{ignore}) { $args{all} = 1; $args{ignore} = _build_ignore( $args{ignore} ); } else { $args{ignore} = sub{0}; } if ( $args{mail} ) { my $ignore = $args{ignore}; $args{ignore} = sub { $ignore->(@_) || ignore_headers(@_) }; } # DETABIFY my @rawlines = split /\n/, $text; use Text::Tabs; $tabstop = $args{tabspace}; @rawlines = expand(@rawlines); # HANDLE QUOTING CHANGE my $quoter = exists $args{quoter} ? $args{quoter} : $QUOTER; $quoter =~ s//$QUOTER/g; # PARSE EACH LINE my $pre = 0; my @lines; foreach (@rawlines) { push @lines, { raw => $_ }; s/\A([ \t]*)($quoter?)([ \t]*)// or die "Internal Error ($@) on '$_'"; $lines[-1]{presig} = $lines[-1]{prespace} = defn $1; $lines[-1]{presig} .= $lines[-1]{quoter} = defn $2; $lines[-1]{presig} .= $lines[-1]{quotespace} = defn $3; $lines[-1]{hang} = Text::Autoformat::Hang->new($_, $args{lists}); s/([ \t]*)(.*?)(\s*)$// or die "Internal Error ($@) on '$_'"; $lines[-1]{hangspace} = defn $1; $lines[-1]{text} = defn $2; $lines[-1]{empty} = $lines[-1]{hang}->empty() && $2 !~ /\S/; $lines[-1]{separator} = $lines[-1]{text} =~ /^$separator$/; } # SUBDIVIDE DOCUMENT INTO COHERENT SUBSECTIONS my @chunks; push @chunks, [shift @lines]; foreach my $line (@lines) { if ($line->{separator} || $line->{quoter} ne $chunks[-1][-1]->{quoter} || $line->{empty} || @chunks && $chunks[-1][-1]->{empty}) { push @chunks, [$line]; } else { push @{$chunks[-1]}, $line; } } # DETECT CENTRED PARAS CHUNK: foreach my $chunk ( @chunks ) { next CHUNK if !$args{autocentre} || @$chunk < 2 || $chunk->[0]{hang}; my @length; my $ave = 0; foreach my $line (@$chunk) { my $prespace = $line->{quoter} ? $line->{quotespace} : $line->{prespace}; my $pagewidth = 2*length($prespace) + length($line->{text}); push @length, [length $prespace,$pagewidth]; $ave += $pagewidth; } $ave /= @length; my $diffpre = 0; foreach my $l (0..$#length) { next CHUNK unless abs($length[$l][1]-$ave) <= 2; $diffpre ||= $length[$l-1][0] != $length[$l][0] if $l > 0; } next CHUNK unless $diffpre; foreach my $line (@$chunk) { $line->{centred} = 1; ($line->{quoter} ? $line->{quotespace} : $line->{prespace}) = ""; } } # REDIVIDE INTO PARAGRAPHS my @paras; foreach my $chunk ( @chunks ) { my $first = 1; my $firstfrom; foreach my $line ( @{$chunk} ) { if ($first || $line->{quoter} ne $paras[-1]->{quoter} || $paras[-1]->{separator} || !$line->{hang}->empty ) { push @paras, $line; $first = 0; $firstfrom = length($line->{raw}) - length($line->{text}); } else { my $extraspace = length($line->{raw}) - length($line->{text}) - $firstfrom; $extraspace = 0 if $extraspace < 0; $paras[-1]->{text} .= "\n" . q{ }x$extraspace . $line->{text}; $paras[-1]->{raw} .= "\n" . $line->{raw}; } } } # SELECT PARAS TO HANDLE my $remainder = ""; if ($args{all}) { # STOP AT MAIL TERMINATOR IF $args{mail} my $lastignored = 1; for my $index (0..$#paras) { local $_ = $paras[$index]{raw} . "\n"; $paras[$index]{ignore} = $args{ignore}($lastignored); $lastignored &&= $paras[$index]{ignore}; next unless $args{mail} && /^--\s*$/; $remainder = join "\n", map { $_->{raw} } splice @paras, $index; $remainder .= "\n" unless $remainder =~ /\n\z/; last; } } else { # JUST THE FIRST PARA $remainder = join "\n", map { $_->{raw} } @paras[1..$#paras]; $remainder .= "\n" unless $remainder =~ /\n\z/; @paras = ( $paras[0] ); } # RE-CASE TEXT if ($args{case}) { foreach my $para ( @paras ) { next if $para->{ignore}; if (ref $args{case} eq 'CODE') { $para->{text} = entitle($para->{text}, $args{case}); } elsif ($args{case} =~ /upper/i) { $para->{text} = recase($para->{text}, 'upper'); } elsif ($args{case} =~ /lower/i) { $para->{text} = recase($para->{text}, 'lower'); } elsif ($args{case} =~ /title/i) { $para->{text} = entitle($para->{text}, 0); } elsif ($args{case} =~ /highlight/i) { $para->{text} = entitle($para->{text}, $STD_HIGHLIGHT_IGNORES); } elsif ($args{case} =~ /sentence(\s*)/i) { my $trailer = $1; $args{squeeze}=0 if $trailer && $trailer ne " "; ensentence(); $para->{text} =~ s/(\S+(\s+|$))/ensentence($1, $trailer)/ge; } $para->{text} =~ s/\b([A-Z])[.]/\U$1./gi; # ABBREVS } } # ALIGN QUOTERS # DETERMINE HANGING MARKER TYPE (BULLET, ALPHA, ROMAN, ETC.) my %sigs; my $lastquoted = 0; my $lastprespace = 0; for my $i ( 0..$#paras ) { my $para = $paras[$i]; next if $para->{ignore}; if ($para->{quoter}) { if ($lastquoted) { $para->{prespace} = $lastprespace } else { $lastquoted = 1; $lastprespace = $para->{prespace} } } else { $lastquoted = 0; } } # RENUMBER PARAGRAPHS for my $para ( @paras ) { next if $para->{ignore}; my $sig = $para->{presig} . $para->{hang}->signature(); push @{$sigs{$sig}{hangref}}, $para; $sigs{$sig}{hangfields} = $para->{hang}->fields()-1 unless defined $sigs{$sig}{hangfields}; } while (my ($sig,$val) = each %sigs) { next unless $sig =~ /rom/; field: for my $field ( 0..$val->{hangfields} ) { my $romlen = 0; foreach my $para ( @{$val->{hangref}} ) { my $hang = $para->{hang}; my $fieldtype = $hang->field($field); next field unless $fieldtype && $fieldtype =~ /rom|let/; if ($fieldtype eq 'let') { foreach my $para ( @{$val->{hangref}} ) { $hang->field($field=>'let') } } else { $romlen += length $hang->val($field); } } # NO ROMAN LETTER > 1 CHAR -> ALPHABETICS if ($romlen <= @{$val->{hangref}}) { foreach my $para ( @{$val->{hangref}} ) { $para->{hang}->field($field=>'let') } } } } my %prev; for my $para ( @paras ) { next if $para->{ignore}; my $sig = $para->{presig} . $para->{hang}->signature(); if ($args{renumber}) { unless ($para->{quoter}) { $para->{hang}->incr($prev{""}, $prev{$sig}); $prev{""} = $prev{$sig} = $para->{hang} unless $para->{hang}->empty; } } # COLLECT MAXIMAL HANG LENGTHS BY SIGNATURE my $siglen = $para->{hang}->length(); $sigs{$sig}{hanglen} = $siglen if ! $sigs{$sig}{hanglen} || $sigs{$sig}{hanglen} < $siglen; } # PROPAGATE MAXIMAL HANG LENGTH while (my ($sig,$val) = each %sigs) { foreach (@{$val->{hangref}}) { $_->{hanglen} = $val->{hanglen}; } } # BUILD FORMAT FOR EACH PARA THEN FILL IT $text = ""; my $gap = @paras && $paras[0]->{empty} ? 0 : $args{gap}; for my $para ( @paras ) { if ($para->{empty}) { $gap += 1 + ($para->{text} =~ tr/\n/\n/); } if ($para->{ignore}) { $text .= (!$para->{empty} ? "\n"x($args{gap}-$gap > 0 ? ($args{gap}-$gap) : 0) : "") ; $text .= $para->{raw}; $text .= "\n" unless $para->{raw} =~ /\n\z/; } else { my $leftmargin = $args{left} ? " "x($args{left}-1) : $para->{prespace}; my $hlen = $para->{hanglen} || $para->{hang}->length; my $hfield = ($hlen==1 ? '~' : '>'x$hlen); my @hang; push @hang, $para->{hang}->stringify if $hlen; my $format = $leftmargin . quotemeta($para->{quoter}) . $para->{quotespace} . $hfield . $para->{hangspace}; my $rightslack = int (($args{right}-length $leftmargin)*$Text::Autoformat::widow_slack); my ($widow_okay, $rightindent, $firsttext, $newtext) = (0,0); do { my $tlen = $args{right}-$rightindent-length($leftmargin . $para->{quoter} . $para->{quotespace} . $hfield . $para->{hangspace}); next if blockquote($text,$para, $format, $tlen, \@hang, \%args); my $tfield = ( $tlen==1 ? '~' : $para->{centred}||$args{_centred} ? '|'x$tlen : $args{justify} eq 'right' ? ']'x$tlen : $args{justify} eq 'full' ? '['x($tlen-2) . ']]' : $para->{centred}||$args{_centred} ? '|'x$tlen : '['x$tlen ); my $tryformat = "$format$tfield"; $newtext = (!$para->{empty} ? "\n"x($args{gap} > $gap ? ($args{gap}-$gap) : 0) : "") . form( { squeeze=>$args{squeeze}, trim=>1, break=>$args{break}, fill => !(!($args{expfill} || $args{impfill} && !$para->{centred})) }, $tryformat, @hang, $para->{text}); $firsttext ||= $newtext; (my $widow) = $newtext =~ /([^\n]*)$/; $widow =~ s/^\s+//; $widow_okay = $para->{empty} || length($widow) >= $args{widow}; } until $widow_okay || ++$rightindent > $rightslack; $text .= $widow_okay ? $newtext : $firsttext; } $gap = 0 unless $para->{empty}; } # RETURN FORMATTED TEXT if ($toSTDOUT) { print STDOUT $text . $remainder; return } return $text . $remainder; } sub _build_ignore { my $ignore_arg = shift; my $ig_type = ref $ignore_arg; my $ignore; if ($ig_type eq 'Regexp') { my $regex = $ignore_arg; $ignore = sub { /$regex/ }; } elsif ($ig_type eq 'ARRAY') { my @elements = map { _build_ignore($_) } @$ignore_arg; $ignore = sub { for my $sub (@elements) { return 1 if $sub->(@_) } return 0; }; } elsif ($ignore_arg =~ /^indent/i) { $ignore = sub { ignore_headers(@_) || /$ignore_indent/ }; } else { $ignore = $ignore_arg; } croak "Expected suboutine reference as value for -ignore option" if ref $ignore ne 'CODE'; return $ignore; } my $alpha = qr/[^\W\d_]/; my $notalpha = qr/[\W\d_]/; my $word = qr/\pL(?:\pL'?)*/; my $upper = qr/[^\Wa-z\d_]/; my $lower = qr/[^\WA-Z\d_]/; my $mixed = qr/$alpha*?(?:$lower$upper|$upper$lower)$alpha*/; sub recase { my ($origtext, $case) = @_; my ($entities, $other_entities, $first, $rest) = @{$casing{$case}}; my $text = ""; my @pieces = split /(&[a-z]+;)/i, $origtext; push @pieces, "" if @pieces % 2; return $text unless @pieces; local $_ = shift @pieces; if (length $_) { $entities = $other_entities; &$first; $text .= $_; } return $text unless @pieces; $_ = shift @pieces; $text .= $entities->{$_} || $_; while (@pieces) { $_ = shift @pieces; &$rest; $text .= $_; $_ = shift @pieces; $text .= $other_entities->{$_} || $_; } return $text; } my $alword = qr{(?:\pL|&[a-z]+;)(?:[\pL']|&[a-z]+;)*}i; sub entitle { my ($text, $retitler_ref) = @_; # put into lowercase if on stop list, else titlecase $text =~ s{($alword)} { $retitler_ref ? $retitler_ref->($1) : recase($1,'title') }gex; if ($retitler_ref == $STD_HIGHLIGHT_IGNORES) { # First and final words always capitalized... $text =~ s/^($alword) /recase($1,'title')/ex; $text =~ s/ ($alword)$/recase($1,'title')/ex; # treat parethesized portion as a complete title $text =~ s/\( ($alword) /'('.recase($1,'title')/ex; $text =~ s/($alword) \) /recase($1,'title').')'/ex; # capitalize first word following colon or semi-colon $text =~ s/ ( [:;] \s+ ) ($alword) /$1 . recase($2,'title')/ex; } return $text; } my $gen_abbrev = join '|', qw{ etc[.] pp[.] ph[.]?d[.] }, '(?:[A-Z][.])(?:[A-Z][.])+', '(^[^a-zA-Z]*([a-z][.])+)'; my $term = q{(?:[.]|[!?]+)}; my $eos = 1; my $brsent = 0; sub ensentence { do { $eos = 1; return } unless @_; my ($str, $trailer) = @_; if ($str =~ /^([^a-z]*)I[^a-z]*?($term?)[^a-z]*$/i) { $eos = $2; $brsent = $1 =~ /^[[(]/; return uc $str } unless ($str =~ /[a-z].*[A-Z]|[A-Z].*[a-z]/) { $str = lc $str; } if ($eos) { $str =~ s/([a-z])/uc $1/ie; $brsent = $str =~ /^[[(]/; } $eos = $str !~ /^($gen_abbrev)[^a-z]*\s/i && $str =~ /[a-z][^a-z]*$term([^a-z]*)\s/ && !($1=~/[])]/ && !$brsent); $str =~ s/\s+$/$trailer/ if $eos && $trailer; return $str; } # blockquote($text,$para, $format, $tlen, \@hang, \%args); sub blockquote { my ($dummy, $para, $format, $tlen, $hang, $args) = @_; $para->{text} =~ / \A(\s*) # $1 - leading whitespace (quotation) (["']|``) # $2 - opening quotemark (.*) # $3 - quotation (''|\2) # $4 closing quotemark \s*?\n # trailing whitespace (\1[ ]+) # $5 - leading whitespace (attribution) (--|-) # $6 - attribution introducer (.*?$) # $7 - attribution line 1 ((\5.*?$)*) # $8 - attributions lines 2-N \s*\Z /xsm or return; #print "[$1][$2][$3][$4][$5][$6][$7]\n"; my $indent = length $1; my $text = $2.$3.$4; my $qindent = length $2; my $aindent = length $5; my $attribintro = $6; my $attrib = $7.$8; $text =~ s/\n/ /g; $_[0] .= form {squeeze=>$args->{squeeze}, trim=>1, fill => $args->{expfill} }, $format . q{ }x$indent . q{<}x$tlen, @$hang, $text, $format . q{ }x($qindent) . q{[}x($tlen-$qindent), @$hang, $text, {squeeze=>0}, $format . q{ } x $aindent . q{>> } . q{[}x($tlen-$aindent-3), @$hang, $attribintro, $attrib; return 1; } 1; __END__ =head1 NAME Text::Autoformat - Automatic text wrapping and reformatting =head1 VERSION This document describes version 1.72 of Text::Autoformat =head1 SYNOPSIS # Minimal use: read from STDIN, format to STDOUT... use Text::Autoformat; autoformat; # In-memory formatting... $formatted = autoformat $rawtext; # Configuration... $formatted = autoformat $rawtext, { %options }; # Margins (1..72 by default)... $formatted = autoformat $rawtext, { left=>8, right=>70 }; # Justification (left by default)... $formatted = autoformat $rawtext, { justify => 'left' }; $formatted = autoformat $rawtext, { justify => 'right' }; $formatted = autoformat $rawtext, { justify => 'full' }; $formatted = autoformat $rawtext, { justify => 'centre' }; # Filling (does so by default)... $formatted = autoformat $rawtext, { fill=>0 }; # Squeezing whitespace (does so by default)... $formatted = autoformat $rawtext, { squeeze=>0 }; # Select appropriate tabspacing (default is 8 spaces per tab): $formatted = autoformat $rawtext, { tabspace=>4 }; # Case conversions... $formatted = autoformat $rawtext, { case => 'lower' }; $formatted = autoformat $rawtext, { case => 'upper' }; $formatted = autoformat $rawtext, { case => 'sentence' }; $formatted = autoformat $rawtext, { case => 'title' }; $formatted = autoformat $rawtext, { case => 'highlight' }; $formatted = autoformat $rawtext, { case => \&my_case_func }; # Selective reformatting $formatted = autoformat $rawtext, { ignore=>qr/^\t/ }; =head1 BACKGROUND =head2 The problem Perl plaintext formatters just aren't smart enough. Given a typical piece of plaintext in need of formatting: In comp.lang.perl.misc you wrote: : > writes: : > CN> PERL sux because: : > CN> * It doesn't have a switch statement and you have to put $ : > CN>signs in front of everything : > CN> * There are too many OR operators: having |, || and 'or' : > CN>operators is confusing : > CN> * VB rools, yeah!!!!!!!!! : > CN> So anyway, how can I stop reloads on a web page? : > CN> Email replies only, thanks - I don't read this newsgroup. : > : > Begone, sirrah! You are a pathetic, Bill-loving, microcephalic : > script-infant. : Sheesh, what's with this group - ask a question, get toasted! And how : *dare* you accuse me of Ianuphilia! both the venerable Unix L tool and Perl's standard Text::Wrap module produce: In comp.lang.perl.misc you wrote: : > writes: : > CN> PERL sux because: : > CN> * It doesn't have a switch statement and you have to put $ : > CN>signs in front of everything : > CN> * There are too many OR operators: having |, || and 'or' : > CN>operators is confusing : > CN> * VB rools, yeah!!!!!!!!! : > CN> So anyway, how can I stop reloads on a web page? : > CN> Email replies only, thanks - I don't read this newsgroup. : > : > Begone, sirrah! You are a pathetic, Bill-loving, microcephalic : > script-infant. : Sheesh, what's with this group - ask a question, get toasted! And how : *dare* you accuse me of Ianuphilia! Other formatting modules -- such as Text::Correct and Text::Format -- provide more control over their output, but produce equally poor results when applied to arbitrary input. They simply don't understand the structural conventions of the text they're reformatting. =head2 The solution The Text::Autoformat module provides a subroutine named C that wraps text to specified margins. However, C reformats its input by analysing the text's structure, so it wraps the above example like so: In comp.lang.perl.misc you wrote: : > writes: : > CN> PERL sux because: : > CN> * It doesn't have a switch statement and you : > CN> have to put $ signs in front of everything : > CN> * There are too many OR operators: having |, || : > CN> and 'or' operators is confusing : > CN> * VB rools, yeah!!!!!!!!! So anyway, how can I : > CN> stop reloads on a web page? Email replies : > CN> only, thanks - I don't read this newsgroup. : > : > Begone, sirrah! You are a pathetic, Bill-loving, : > microcephalic script-infant. : Sheesh, what's with this group - ask a question, get toasted! : And how *dare* you accuse me of Ianuphilia! Note that the various quoting conventions have been observed. In fact, their structure has been used to determine where some paragraphs begin. Furthermore C correctly distinguished between the leading '*' bullets of the nested list (which were outdented) and the leading emphatic '*' of "*dare*" (which was inlined). =head1 DESCRIPTION =head2 Paragraphs The fundamental task of the C subroutine is to identify and rearrange independent paragraphs in a text. Paragraphs typically consist of a series of lines containing at least one non-whitespace character, followed by one or more lines containing only optional whitespace. This is a more liberal definition than many other formatters use: most require an empty line to terminate a paragraph. Paragraphs may also be denoted by bulleting, numbering, or quoting (see the following sections). Once a paragraph has been isolated, C fills and re-wraps its lines according to the margins that are specified in its argument list. These are placed after the text to be formatted, in a hash reference: $tidied = autoformat($messy, {left=>20, right=>60}); By default, C uses a left margin of 1 (first column) and a right margin of 72. You can also control whether (and how) C breaks words at the end of a line, using the C<'break'> option: # Turn off all hyphenation use Text::Autoformat qw(autoformat break_wrap); $tidied = autoformat($messy, {break=>break_wrap}); # Default hyphenation use Text::Autoformat qw(autoformat break_at); $tidied = autoformat($messy, {break=>break_at('-')}); # Use TeX::Hyphen module's hyphenation (module must be installed) use Text::Autoformat qw(autoformat break_TeX); $tidied = autoformat($messy, {break=>break_TeX}); Normally, C only reformats the first paragraph it encounters, and leaves the remainder of the text unaltered. This behaviour is useful because it allows a one-liner invoking the subroutine to be mapped onto a convenient keystroke in a text editor, to provide one-paragraph-at-a-time reformatting: % cat .exrc map f !Gperl -MText::Autoformat -e'autoformat' (Note that to facilitate such one-liners, if C is called in a void context without any text data, it takes its text from C and writes its result to C). To enable C to rearrange the entire input text at once, the C argument is used: $tidied_all = autoformat($messy, {left=>20, right=>60, all=>1}); C can also be directed to selectively reformat paragraphs, using the C argument: $tidied_some = autoformat($messy, {ignore=>qr/^[ \t]/}); The value for C may be a C'd regex, a subroutine reference, or the special string C<'indented'>. If a regex is specified, any paragraph whose original text matches that regex will not be reformatted (i.e. it will be printed verbatim). If a subroutine is specified, that subroutine will be called once for each paragraph (with C<$_> set to the paragraph's text). The subroutine is expected to return a true or false value. If it returns true, the paragraph will not be reformatted. If the value of the C option is the string C<'indented'>, C will ignore any paragraph in which I line begins with a whitespace. You may also specify multiple C options by including them in an array-ref: $tidied_mesg = autoformat($messy, {ignore=>[qr/1/,'indented']}); One other special case of ignorance is ignoring mail headers and signature. This option is specified using the C argument: $tidied_mesg = autoformat($messy_mesg, {mail=>1}); Note that the C or C options automatically imply C. =head2 Bulleting and (re-)numbering Often plaintext will include lists that are either: * bulleted, * simply numbered (i.e. 1., 2., 3., etc.), or * hierarchically numbered (1, 1.1, 1.2, 1.3, 2, 2.1. and so forth). In such lists, each bulleted item is implicitly a separate paragraph, and is formatted individually, with the appropriate indentation: * bulleted, * simply numbered (i.e. 1., 2., 3., etc.), or * hierarchically numbered (1, 1.1, 1.2, 1.3, 2, 2.1. and so forth). More importantly, if the points are numbered, the numbering is checked and reordered. For example, a list whose points have been rearranged: 1. Analyze problem 3. Design algorithm 1. Code solution 5. Test 4. Ship would be renumbered automatically by C: 1. Analyze problem 2. Design algorithm 3. Code solution 4. Test 5. Ship The same reordering would be performed if the "numbering" was by letters (C C C etc.) or Roman numerals (C C C or by some combination of these (C<1a.> C<1b.> C<2a.> C<2b.> etc.) Handling disordered lists of letters and Roman numerals presents an interesting challenge. A list such as: A. Put cat in box. D. Close lid. E. Activate Geiger counter. should be reordered as C C C whereas: I. Put cat in box. D. Close lid. XLI. Activate Geiger counter. should be reordered C C C The C subroutine solves this problem by always interpreting alphabetic bullets as being letters, unless the full list consists only of valid Roman numerals, at least one of which is two or more characters long. Note that renumbering starts at the first number actually given, rather than restarting at the first possible number. To renumber from 1 (or A.) you must change the first numbered bullet to that. If automatic renumbering isn't wanted, just specify the C<'renumber'> option with a false value. Note that normal numbers above 1000 at the start of a line are no longer considered to be paragraph numbering. Numbered paragraphs running that high are exceptionally rare, and much rarer than paragraphs that look like these: Although it has long been popular (especially in the year 2001) to point out that we now live in the Future, many of the promised miracles of Future Life have failed to eventuate. This is a new phenomenon (it didn't happen in 1001) because the idea that the future might be different is a new phenomenon. which the former numbering rules caused to be formatted like this: Although it has long been popular (especially in the year 2001) to point out that we now live in the Future, many of the promised miracles of Future Life have failed to eventuate. This is a new phenomenon (it didn't happen in 2002) because the idea that the future might be different is a new phenomenon. but which are now formatted: Although it has long been popular (especially in the year 2001) to point out that we now live in the Future, many of the promised miracles of Future Life have failed to eventuate. This is a new phenomenon (it didn't happen in 1001) because the idea that the future might be different is a new phenomenon. If you want numbers less than 1000 (or other characters strings currently treated as bullets) to be ignored in this way, you can turn of list formatting entirely by setting the C<'lists'> option to a false value. You can also select which kinds of lists are recognized, by using a string as the value of lists: # Don't recognize Roman numerals or alphabetics as list markers... autoformat { lists => 'number, bullet' }, $text; # Don't recognize bullets or numbers as list markers... autoformat { lists => 'roman, alpha' }, $text; # Recognize everything except Roman numerals as list markers... autoformat { lists => 'number, bullet, alpha' }, $text; The string should contain one or more of the following words: C, C, C, C. C will ignore any list type that doesn't appear in the C<'lists'> string. =head2 Quoting Another case in which contiguous lines may be interpreted as belonging to different paragraphs, is where they are quoted with distinct quoters. For example: : > CN> So anyway, how can I stop reloads on a web page? Email : > CN> replies only, thanks - I don't read this newsgroup. : > Begone, sirrah! You are a pathetic, Bill-loving, : > microcephalic script-infant. : Sheesh, what's with this group - ask a question, get toasted! : And how *dare* you accuse me of Ianuphilia! C recognizes the various quoting conventions used in this example and treats it as three paragraphs to be independently reformatted. You may also override the default set of recognized quoters by specifying a C<'quoter'> argument when calling C. For example, to format lines such as: // This is a comment // in the standard C(++) // comment-to-EOL // format specify: autoformat($text, { quoter =E qr{//} }) Instead of completely replacing the existing set of quoters, you can I them by specifying a pattern that includes the metasequence C<< >>, which is then replaced by the module's standard pattern for quoters. So, for example, to add C to the set of existing quoters: autoformat($text, { quoter =E qr{//|} }) Block quotations present a different challenge. A typical formatter would render the following quotation: "We are all of us in the gutter, but some of us are looking at the stars" -- Oscar Wilde like so: "We are all of us in the gutter, but some of us are looking at the stars" -- Oscar Wilde C recognizes the quotation structure by matching the following regular expression against the text component of each paragraph: / \A(\s*) # leading whitespace for quotation (["']|``) # opening quotemark (.*) # quotation (''|\2) # closing quotemark \s*?\n # trailing whitespace after quotation (\1[ ]+) # leading whitespace for attribution # (must be indented more than # quotation) (--|-) # attribution introducer ([^\n]*?\n) # first attribution line ((\5[^\n]*?$)*) # other attribution lines # (indented no less than first line) \s*\Z # optional whitespace to end of paragraph /xsm When reformatted (see below), the indentation and the attribution structure will be preserved: "We are all of us in the gutter, but some of us are looking at the stars" -- Oscar Wilde =head2 Widow control Note that in the last example, C broke the line at column 68, four characters earlier than it should have. It did so because, if the full margin width had been used, the formatting would have left the last two words by themselves on an oddly short last line: "We are all of us in the gutter, but some of us are looking at the stars" This phenomenon is known as "widowing" and is heavily frowned upon in typesetting circles. It looks ugly in plaintext too, so C avoids it by stealing extra words from earlier lines in a paragraph, so as to leave enough for a reasonable last line. The heuristic used is that final lines must be at least 10 characters long (though this number may be adjusted by passing a C I> argument to C). If the last line is too short, the paragraph's right margin is reduced by one column, and the paragraph is reformatted. This process iterates until either the last line exceeds nine characters or the margins have been narrowed by 10% of their original separation. In the latter case, the reformatter gives up and uses its original formatting. =head2 Justification The C subroutine also takes a named argument: C<{justify =E I}>, which specifies how each paragraph is to be justified. The options are: C<'left'> (the default), C<'right',> C<'centre'> (or C<'center'>), and C<'full'>. These act on the complete paragraph text (but I on any quoters before that text). For example, with C<'right'> justification: R3> Now is the Winter of our discontent made R3> glorious Summer by this son of York. And all R3> the clouds that lour'd upon our house In the R3> deep bosom of the ocean buried. Full justification is interesting in a fixed-width medium like plaintext because it usually results in uneven spacing between words. Typically, formatters provide this by distributing the extra spaces into the first available gaps of each line: R3> Now is the Winter of our discontent made R3> glorious Summer by this son of York. And all R3> the clouds that lour'd upon our house In R3> the deep bosom of the ocean buried. This produces a rather jarring visual effect, so C reverses the strategy and inserts extra spaces at the end of lines: R3> Now is the Winter of our discontent made R3> glorious Summer by this son of York. And all R3> the clouds that lour'd upon our house In R3> the deep bosom of the ocean buried. Most readers find this less disconcerting. =head2 Implicit centring Even if explicit centring is not specified, C will attempt to automatically detect centred paragraphs and preserve their justification. It does this by examining each line of the paragraph and asking: "if this line were part of a centred paragraph, where would the centre line have been?" The answer can be determined by adding the length of leading whitespace before the first word, plus half the length of the full set of words on the line. That is, for a single line: $line =~ /^(\s*)(.*?)(\s*)$/ $centre = length($1)+0.5*length($2); By making the same estimate for every line, and then comparing the estimates, it is possible to deduce whether all the lines are centred with respect to the same axis of symmetry (with an allowance of E1 to cater for the inevitable rounding when the centre positions of even-length rows were originally computed). If a common axis of symmetry is detected, C assumes that the lines are supposed to be centred, and switches to centre-justification mode for that paragraph. Note that this behaviour can to switched off entirely by setting the C<"autocentre"> argument false. =head2 Case transformations The C subroutine can also optionally perform case conversions on the text it processes. The C<{case =E I}> argument allows the user to specify six different conversions: =over 4 =item C<'upper'> This mode unconditionally converts every letter in the reformatted text to upper-case; =item C<'lower'> This mode unconditionally converts every letter in the reformatted text to lower-case; =item C<'sentence'> This mode attempts to generate correctly-cased sentences from the input text. That is, the first letter after a sentence-terminating punctuator is converted to upper-case. Then, each subsequent word in the sentence is converted to lower-case, unless that word is originally mixed-case or contains punctuation. For example, under C<{case =E 'sentence'}>: 'POVERTY, MISERY, ETC. are the lot of the PhD candidate. alas!' becomes: 'Poverty, misery, etc. are the lot of the PhD candidate. Alas!' Note that C is clever enough to recognize that the period after abbreviations such as C is not a sentence terminator. If the argument is specified as C<'sentence '> (with one or more trailing whitespace characters) those characters are used to replace the single space that appears at the end of the sentence. For example, C'sentence '}>) would produce: 'Poverty, misery, etc. are the lot of the PhD candidate. Alas!' =item C<'title'> This mode behaves like C<'sentence'> except that the first letter of I word is capitalized: 'What I Did On My Summer Vacation In Monterey' =item C<'highlight'> This mode behaves like C<'title'> except that trivial words are not capitalized: 'What I Did on my Summer Vacation in Monterey' =item C If the argument for C<'case'> is a subroutine reference, that subroutine is applied to each word and the result replaces the word in the text. For example, to convert a string to hostage-case: my $ransom_note = sub { return join "", # ^ Reconcatenate map {/[aeiou]/i ? lc : uc} # | uPPeR aND LoWeR each split //, # | Break into chars shift; # | Take argument }; $text = autoformat($text, {case => $ransom_note }); # "FoR eXaMPLe, To CoNVeRT a STRiNG To HoSTaGe-CaSe:" Or to highlight particular words: my @SPECIAL = qw( perl camel wall ); sub highlight_specials { my ($word) = @_; return $word ~~ @SPECIAL ? uc($word) : $word; } $text = autoformat($text, {case => \&highlight_specials}); # "It is easier for a CAMEL to pass through a WALL of PERL..." =back =head2 Selective reformatting You can select which paragraphs C actually reformats (or, rather, those it I reformat) using the C<"ignore"> flag. For example: # Reformat all paras except those containing "verbatim"... print autoformat { all => 1, ignore => qr/verbatim/i }, $text; # Reformat all paras except those less that 3 lines long... print autoformat { all => 1, ignore => sub { tr/\n/\n/ < 3 } }, $text; # Reformat all paras except those that are indented... print autoformat { all => 1, ignore => qr/^\s/m }, $text; # Reformat all paras except those that are indented (easier)... print autoformat { all => 1, ignore => 'indented' }, $text; =head2 Handling tabs Text::Autoformat replaces any tabs in the text it's formatting with the appropriate number of spaces (using Text::Tabs to do its dirty work). It normally assumes that each tab is equivalent to 8 space characters, but you can change that default using the 'tabspace' option: print autoformat { tabspace => 4 }, $text; =head1 SEE ALSO L - provides functions for manual text wrapping and reformatting. L - provides a single function for justifying strings according to various styles. L - a class that provides methods for formatting text in various ways. L - format various Perl data structures as text, in different ways according to the type of data. =head1 REPOSITORY L =head1 AUTHOR Damian Conway (damian@conway.org) =head1 BUGS There are undoubtedly serious bugs lurking somewhere in code this funky :-) Bug reports and other feedback are most welcome. =head1 LICENCE AND COPYRIGHT Copyright (c) 1997-2007, Damian Conway C<< >>. All rights reserved. This module is free software; you can redistribute it and/or modify it under the same terms as Perl itself. See L. =head1 DISCLAIMER OF WARRANTY BECAUSE THIS SOFTWARE IS LICENSED FREE OF CHARGE, THERE IS NO WARRANTY FOR THE SOFTWARE, TO THE EXTENT PERMITTED BY APPLICABLE LAW. EXCEPT WHEN OTHERWISE STATED IN WRITING THE COPYRIGHT HOLDERS AND/OR OTHER PARTIES PROVIDE THE SOFTWARE "AS IS" WITHOUT WARRANTY OF ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. THE ENTIRE RISK AS TO THE QUALITY AND PERFORMANCE OF THE SOFTWARE IS WITH YOU. SHOULD THE SOFTWARE PROVE DEFECTIVE, YOU ASSUME THE COST OF ALL NECESSARY SERVICING, REPAIR, OR CORRECTION. IN NO EVENT UNLESS REQUIRED BY APPLICABLE LAW OR AGREED TO IN WRITING WILL ANY COPYRIGHT HOLDER, OR ANY OTHER PARTY WHO MAY MODIFY AND/OR REDISTRIBUTE THE SOFTWARE AS PERMITTED BY THE ABOVE LICENCE, BE LIABLE TO YOU FOR DAMAGES, INCLUDING ANY GENERAL, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES ARISING OUT OF THE USE OR INABILITY TO USE THE SOFTWARE (INCLUDING BUT NOT LIMITED TO LOSS OF DATA OR DATA BEING RENDERED INACCURATE OR LOSSES SUSTAINED BY YOU OR THIRD PARTIES OR A FAILURE OF THE SOFTWARE TO OPERATE WITH ANY OTHER SOFTWARE), EVEN IF SUCH HOLDER OR OTHER PARTY HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES.