package Color::Calc; use attributes; use strict; use utf8; use warnings; use Carp; use Exporter; use Params::Validate qw(:all); use POSIX; use Scalar::Util qw(dualvar); use List::Util qw(min max reduce sum); use Graphics::ColorNames qw( hex2tuple tuple2hex ); use Graphics::ColorNames::HTML qw(); our $VERSION = "1.072"; $VERSION = eval $VERSION; our $MODE = (); my %__HTMLColors = (); our @__subs = qw( blend blend_bw bw contrast contrast_bw dark get gray grey invert light mix opposite round safe ); sub __put_tuple { map { my $a = int($_); length($a) % 3 ? $a : dualvar($a, "0$a") } @_ }; sub __put_hex { dualvar((reduce { ($a << 8) | ($b & 0xFF) } @_), tuple2hex(@_)) }; sub __put_html { my $col = lc(tuple2hex(@_)); $__HTMLColors{$col} || '#'.$col; }; sub __put_object{ return Graphics::ColorObject->new_RGB255( \@_, '', '' ); }; sub __put_obj { return Color::Object->newRGB(map { 255*$_; } @_); }; my %__formats = ( map { m/^__put_(.*)/ ? ( $1 => $Color::Calc::{$_} ) : () } keys %Color::Calc:: ); # use Data::Dumper; # print STDERR Dumper(\%__formats); my %__formats_require = ( 'obj' => 'Color::Object', 'object' => 'Graphics::ColorObject', ); $__formats{'pdf'} = $__formats{'html'}; my @__formats = keys %__formats; my $__formats_re = join('|', @__formats,'__MODEvar'); { my $table = Graphics::ColorNames::HTML::NamesRgbTable(); %__HTMLColors = map { ( sprintf('%06x', $$table{$_}) => $_ ) } grep { $_ ne 'fuscia' } keys %$table; }; our @EXPORT = ('color', map({"color_$_"} @__formats, map({my $s=$_; (map{$s.'_'.$_} @__formats)} @__subs), @__subs)); our @ISA = ('Exporter'); my %new_param = ( 'ColorScheme' => { type => SCALAR | HANDLE | HASHREF | ARRAYREF | CODEREF, optional => 1 }, 'OutputFormat' => { type => SCALAR, untaint => 1, regexp => qr($__formats_re), optional => 1 }, ); sub new { my $pkg = shift; validate(@_, \%new_param); my $self = {@_}; bless($self, $pkg); unless(UNIVERSAL::isa($self->{'ColorScheme'}, 'Graphics::ColorNames')) { my %ColorNames; if(defined $self->{'ColorScheme'}) { if(!ref $self->{'ColorScheme'} && $self->{'ColorScheme'} =~ m/^([[:alnum:]_]+)$/) { my $module = 'Graphics::ColorNames::'.$1; eval "use $module;"; croak $! if $@; my $names = UNIVERSAL::can($module, 'NamesRgbTable'); croak "$module is not compatible with Graphics::ColorNames" if !$names; $self->{'ColorScheme'} = &$names(); } tie %ColorNames, 'Graphics::ColorNames', $self->{'ColorScheme'}; } else { tie %ColorNames, 'Graphics::ColorNames'; } $self->{'ColorScheme'} = \%ColorNames; } $self->set_output_format($self->{'OutputFormat'} || 'tuple'); return $self; } my $__default_object = undef; sub __get_default { $__default_object = __PACKAGE__->new('OutputFormat' => '__MODEvar') unless $__default_object; return $__default_object; } my $__raw_object = undef; sub __get_raw { $__raw_object = __PACKAGE__->new('OutputFormat' => 'tuple') unless $__raw_object; return $__raw_object; } my %import_param = ( %new_param, 'Prefix' => { type => SCALAR, optional => 1, regexp => qr/^[[:alpha:]\d]\w*$/ }, '__Prefix' => { type => SCALAR, optional => 1, regexp => qr/^[[:alpha:]\d]\w*$/ }, '__Suffix' => { type => SCALAR, optional => 1, regexp => qr/^\w+$/ }, ); my %import_param_names = map { ($_=>1) } keys %import_param; sub import { my $pkg = shift; if(!@_ || !exists $import_param_names{$_[0]}) { local $Exporter::ExportLevel; $Exporter::ExportLevel++; return Exporter::import($pkg, @_); } return __import(scalar caller(0),@_) ? 1 : 0; } sub __import { my $pkg = shift; validate(@_, \%import_param); my %param = @_; my $std_prefix = (exists $param{'Prefix'}) ? $param{'Prefix'} : 'color'; delete $param{'Prefix'}; my $prefix = (exists $param{'__Prefix'}) ? $param{'__Prefix'} : $std_prefix ? $std_prefix.'_' : ''; delete $param{'__Prefix'}; my $suffix = (exists $param{'__Suffix'}) ? $param{'__Suffix'} : ''; delete $param{'__Suffix'}; my $obj = new(__PACKAGE__, %param); { no strict 'refs'; { $prefix = $pkg.'::'.$prefix; foreach my $sub (@__subs) { my $name = $prefix.$sub.$suffix; *$name = sub { $obj->$sub(@_); }; }; }; if($std_prefix) { my $name = $pkg.'::'.$std_prefix.$suffix; *$name = sub { $obj->get(@_); }; } } return 1; } sub __dualvar_tuple { my $str = shift; my $num = reduce { ($a << 8) | ($b & 0xFF) } @_; return dualvar $num, $str; } sub __normtuple_in { return map { (!defined($_) || $_ < 0) ? 0 : (($_ > 255) ? 255 : int($_+.5)) } @_; } sub __is_col_val { return undef unless defined $_[0]; return undef if $_[0] eq ''; my ($n,$u) = POSIX::strtod($_[0]); return undef if $u != 0; return ($n <= 255) && ($n>= 0); } # Note: Color::Object was supported in versions before 0.2. This # is kept for compatibility, but no longer documented. # # Note: versions before 0.2 allowed calling some functions (those # with one parameter) with a list instead of an arrayref. This is # kept for compatibility, but no longer documented. sub __get { my ($self,$p,$q) = @_; if ((ref $$p[0]) eq 'ARRAY' && $#{$$p[0]} == 0 ) { $$p[0] = $$p[0]->[0]; } if ((ref $$p[0]) eq 'ARRAY' && $#{$$p[0]} == 2 ) { return __normtuple_in(@{shift @$p}); } elsif( my $f255 = UNIVERSAL::can($$p[0],'asRGB255') || UNIVERSAL::can($$p[0],'as_RGB255') ) { return ($f255->(shift(@{$p}))); } elsif( my $f1 = UNIVERSAL::can($$p[0],'asRGB') || UNIVERSAL::can($$p[0],'as_RGB') ) { return (map { 255 * $_; } $f1->(shift(@{$p}))); } elsif( $#$p >= (2 + ($q||0)) && __is_col_val($$p[0]) && __is_col_val($$p[1]) && __is_col_val($$p[2])) { return (splice @$p, 0, 3); } elsif( $$p[0] =~ m/^#?(([0-9A-F][0-9A-F][0-9A-F])+)$/i ) { shift @$p; my $hh = $1; my $hl = (length $hh)/3; return map { hex($_) * 255.0 / hex('F' x $hl) } (substr($hh,0,$hl), substr($hh,$hl,$hl), substr($hh,2*$hl)); } else { my $col = $self->{'ColorScheme'}->{$$p[0]}; if(defined $col) { shift @$p; return hex2tuple($col); } else { carp("Invalid color name '$$p[0]'"); return undef; } } } sub __require_format { my $new_fmt = shift; if(exists $__formats_require{$new_fmt}) { eval "use $__formats_require{$new_fmt}()"; croak $@ if $@; } return 1; } sub set_output_format { validate_pos(@_, { isa => __PACKAGE__ }, { type => SCALAR, regexp => qr($__formats_re) }); my $self = shift; my $new_fmt = shift; my $old = $self->{'OutputFormat'}; $self->{'OutputFormat'} = $new_fmt; $self->{'__put'} = $self->{'OutputFormat'} eq '__MODEvar' ? sub{ return $__formats{$MODE || 'tuple'}->(@_); } : $__formats{$self->{'OutputFormat'}}; return $old; } sub __put { my $self = shift; return $self->{'__put'}->(__normtuple_in(@_)); } sub __get_self { if(UNIVERSAL::isa($_[0]->[0], __PACKAGE__)) { return shift @{$_[0]}; } else { return __get_default; } } =head1 NAME Color::Calc - Simple calculations with RGB colors. =head1 SYNOPSIS use Color::Calc (); my $background = 'green'; print 'background: ',Color::Calc::color_html($background),";\n"; print 'border-top: solid 1px ',Color::Calc::light_html($background),";\n"; print 'border-bottom: solid 1px ',Color::Calc::dark_html($background),";\n"; print 'color: ',Color::Calc::contrast_bw_html($background),";\n"; =head1 DESCRIPTION The C module implements simple calculations with RGB colors. This can be used to create a full color scheme from a few colors. =head2 USAGE =head3 Constructors =over =item Color::Calc->new( ... ) This class method creates a new C object. use Color::Calc(); my $cc = new Color::Calc( 'ColorScheme' => 'X', OutputFormat => 'HTML' ); print $cc->invert( 'white' ); It accepts the following parameters: =over =item ColorScheme One of the color schemes accepted by C, which is used to interpret color names on input. Valid values include C (color names used in X-Windows) and C (color names defined in the HTML 4.0 specification). For a full list of possible values, please refer to the documentation of of C. Unlike C, barewords are I interpreted as a module name under C. If you really want to use a filename like "foo", you have to write it as "./foo". Default: C (Note: This is incompatible with HTML color names). =item OutputFormat One of the output formats defined by this module. Possible values are: =over =item tuple Returns a list of three values in the range 0..255. The first value is guaranteed to have a C that is not a multiple of three. =item hex Returns a hexadecimal RGB value as a scalar that contains a string in the format RRGGBB and a number representing the hexadecimal number 0xRRGGBB. =item html Returns a string compatible with W3C's HTML and CSS specifications, i.e. I<#RRGGBB> or one of the sixteen HTML color names. =item obj (DEPRECATED) Returns a C reference. The module C must be installed, of course. =item object Returns a C reference. The module C must be installed, of course. =item pdf Returns a string compatible with C, i.e. I<#RRGGBB>. =item __MODEvar (DEPRECATED) Uses the value of C<$Color::Calc::MODE> to select one of the above output formats. You should use C when setting this variable: local $Color::Calc::MODE = 'html'; =back Default: C<__MODEvar> (for compatibility) =back =item Color::Calc->import( ... ) This method creates a new, hidden object and binds its methods to the namespace of the calling module. This method is usually not called directly but from perl's C statement: use Color::Calc( 'ColorScheme' => 'X', 'OutputFormat' => 'HTML', 'Prefix' => 'cc' ); print cc_invert( 'white' ); # prints 'black' On import, you can specify the following parameters: =over =item ColorScheme See above. =item OutputFormat See above. =item Prefix Adds a prefix to the front of the method names. The calculation methods are bound to the name I_I (the specified prefix, an underscore, the calculation method's name). Further, I is made an alias for IC<_get>. Default: C =back Please note that with perl's C and C statemehts, omitting the list and specifying an empty list has different meanings: use Color::Calc; # import with default settings (see below) use Color::Calc(); # don't import anything =back =head3 Property "set"/"get" methods These methods are inaccessible without a object reference, i.e. when the functions have been Ced. =over =item $cc->set_output_format( $format) Changes the output format for an existing C object. =back =head3 Calculation methods All calculation methods I accept the following formats for C<$color> or C<$color1>/C<$color2>: =over =item * An arrayref pointing to an array with three elements in the range C<0>..C<255> corresponding to the red, green, and blue component. =item * A list of three values in the range C<0>..C<255> corresponding to the red, green, and blue component where the first value does not have 3 or a multiple of 3 digits (e.g. C<('0128',128,128)>). =item * A string containing a hexadecimal RGB value like C<#I>/C<#I>/C<#I>/..., or C>/C>/C>/... =item * A color name accepted by C. The interpretation is controlled by the C parameter. =item * A C reference. =back The calculation methods can be either accessed through a C object reference (here: C<$cc>) or through the method names imported by C (here using the prefix L). =over =item $cc->get($color) / color($color) Returns C<$color> as-is (but in the selected output format). This function can be used for color format conversion/normalisation. =cut sub get { my $self = __get_self(\@_); return $self->__put($self->__get(\@_)); } =item $cc->invert($color) / color_invert($color) Returns the inverse of C<$color>. =cut sub invert { my $self = __get_self(\@_); return $self->__put(map { 255 - $_ } $self->__get(\@_)); } =item $cc->opposite($color) / color_opposite($color) Returns a color that is on the opposite side of the color wheel but roughly keeps the saturation and lightness. =cut sub opposite { my $self = __get_self(\@_); my @rgb = $self->__get(\@_); my $min = min @rgb; my $max = max @rgb; return $self->__put( map { $max - $_ + $min } @rgb ); } =item $cc->bw($color) / color_bw($color) =item $cc->grey($color) / color_grey($color) =item $cc->gray($color) / color_gray($color) Converts C<$color> to greyscale. =cut sub bw { my $self = __get_self(\@_); my @c = $self->__get(\@_); my $g = $c[0]*.3 + $c[1]*.59 + $c[2]*.11; return $self->__put($g, $g, $g); } *grey = \&bw; *gray = \&bw; =item $cc->round($color, $value_count) / color_round($color, $value_count) Rounds each component to to the nearest number determined by dividing the range 0..255 into C<$value_count>+1 portions. The default for C<$value_count> is 6, yielding S<6^3 = 216> colors. Values that are one higher than divisors of 255 yield the best results (e.g. 3+1, 5+1, 7+1, 9+1, 15+1, 17+1, ...). =cut sub round { my $self = __get_self(\@_); my @rgb = $self->__get(\@_); my $steps = shift || 6; $steps--; return $self->__put( map { int(int( $_ * $steps / 255 + 0.5) * 255 / $steps + 0.5) } @rgb ); } =item $cc->safe($color) / color_safe($color) Rounds each color component to a multiple of 0x33 (dec. 51) or to a named color defined in the HTML 4.01 specification. Historically, these colors have been known as web-safe colors. They still provide a convenient color palette. =cut sub __dist2 { my @a = splice @_, 0, 3; return sum map { POSIX::pow($_ - shift @a, 2) } @_; } sub safe { my $self = __get_self(\@_); my @rgb = $self->__get(\@_); my @new_rgb = __get_raw->round(@rgb); my $new_d2 = __dist2(@rgb, @new_rgb); foreach my $h (keys %__HTMLColors) { my @h_rgb = hex2tuple($h); my $h_d2 = __dist2(@rgb, @h_rgb); if($h_d2 <= $new_d2) { @new_rgb = @h_rgb; $new_d2 = $h_d2; } } return $self->__put(@new_rgb); } =item $cc->mix($color1, $color2 [, $alpha]) / color_mix($color1, $color2 [, $alpha]) Returns a color that is the mixture of C<$color1> and C<$color2>. The optional C<$alpha> parameter can be a value between 0.0 (use C<$color1> only) and 1.0 (use C<$color2> only), the default is 0.5. =cut sub mix { my $self = __get_self(\@_); my @c1 = ($self->__get(\@_,1)); my @c2 = ($self->__get(\@_)); my $alpha = shift(@_); $alpha = 0.5 unless defined $alpha; return $self->__put( ($c1[0] + ($c2[0]-$c1[0])*$alpha), ($c1[1] + ($c2[1]-$c1[1])*$alpha), ($c1[2] + ($c2[2]-$c1[2])*$alpha) ); } =item $cc->light($color [, $alpha]) / color_light($color [, $alpha]) Returns a lighter version of C<$color>, i.e. returns C. The optional C<$alpha> parameter can be a value between 0.0 (use C<$color> only) and 1.0 (use [255,255,255] only), the default is 0.5. =cut sub light { my $self = __get_self(\@_); return $self->__put(__get_raw->mix([$self->__get(\@_)],[255,255,255],shift)); } =item $cc->dark($color [, $alpha]) / color_dark($color [, $alpha]) Returns a darker version of C<$color>, i.e. returns C. The optional C<$alpha> parameter can be a value between 0.0 (use C<$color> only) and 1.0 (use [0,0,0] only), the default is 0.5. =cut sub dark { my $self = __get_self(\@_); return $self->__put(__get_raw->mix([$self->__get(\@_)],[0,0,0],shift)); } =item $cc->contrast($color [, $cut]) / color_contrast($color [, $cut]) Returns a color that has the highest possible contrast to the input color. This is done by setting the red, green, and blue values to 0 if the corresponding value in the input is above C<($cut * 255)> and to 255 otherwise. The default for C<$cut> is .5, representing a cutoff between 127 and 128. =cut sub contrast { my $self = __get_self(\@_); my @rgb = $self->__get(\@_); my $cut = (shift || .5) * 255; return $self->__put(map { $_ >= $cut ? 0 : 255 } @rgb); } =item $cc->contrast_bw($color [, $cut]) / color_contrast_bw($color [, $cut]) Returns black or white, whichever has the higher contrast to C<$color>. This is done by returning black if the grey value of C<$color> is above C<($cut * 255)> and white otherwise. The default for C<$cut> is .5, representing a cutoff between 127 and 128. =cut sub contrast_bw { my $self = __get_self(\@_); my @rgb = $self->__get(\@_); return $self->__put(__get_raw->contrast([__get_raw->bw(@rgb)], shift)); } =item $cc->blend($color [, $alpha]) / color_blend($color [, $alpha]) Returns a color that blends into the background, i.e. it returns C. The optional C<$alpha> parameter can be a value between 0.0 (use C<$color> only) and 1.0 (use C only), the default is 0.5. The idea is that C<$color> is the foreground color, so C is similar to the background color. Mixing them returns a color somewhere between them. You might want to use C instead if you know the real background color. =cut sub blend { my $self = __get_self(\@_); my @c1 = $self->__get(\@_); return $self->mix(\@c1,[__get_raw->contrast(\@c1)],shift); } =item $cc->blend_bw($color [, $alpha]) / color_blend_bw($color [, $alpha]) Returns a mix of C<$color> and black or white, whichever has the higher contrast to C<$color>. The optional C<$alpha> parameter can be a value between 0.0 (use C<$color> only) and 1.0 (use black/white only), the default is 0.5. =cut sub blend_bw { my $self = __get_self(\@_); my @c = $self->__get(\@_); return $self->mix(\@c,[__get_raw->contrast_bw(\@c)],shift); } =back =head3 Functions The calculation methods are also available as functions. The output format is selected through the function name. These functions are deprecated as they do not allow selecting the scheme of recognized color names, which defaults to L (and is incompatible with HTML's color names). By default, i.e. when no list is specified with C or C, all of these functions are exported. =over =item color, color_mix, ... Use C<$Color::Calc::MODE> as the output format. This is the default. =item color_hex, color_mix_html, ... Use C as the output format. =item color_html, color_mix_html, ... Use C as the output format. Please note that the color names recognized are still based on X's color names, which are incompatible with HTML. You can't use the output of these functions as input for other color_*_html functions. See L for an alternative that does not suffer from this problem. =item color_pdf, color_mix_pdf, ... Use C as the output format. =item color_object, color_mix_object, ... Use C as the output format. =back =cut foreach my $format (@__formats) { next if !eval{__require_format($format)}; __import(__PACKAGE__, 'Prefix' => 'color', '__Suffix' => "_$format", 'OutputFormat' => $format); __import(__PACKAGE__, 'Prefix' => '', '__Suffix' => "_$format", 'OutputFormat' => $format); } __import(__PACKAGE__, 'Prefix' => 'color', 'OutputFormat' => '__MODEvar'); =head1 SEE ALSO L (required); L (optional) =head1 AUTHOR Claus FErber =head1 LICENSE Copyright 2004-2010 Claus FErber. All rights reserved. This library is free software; you can redistribute it and/or modify it under the same terms as Perl itself. =cut 1; __END__