package Imager;
use strict;
-use vars qw($VERSION @ISA @EXPORT @EXPORT_OK %EXPORT_TAGS %formats $DEBUG %filters %DSOs $ERRSTR $fontstate %OPCODES $I2P $FORMATGUESS);
+use vars qw($VERSION @ISA @EXPORT @EXPORT_OK %EXPORT_TAGS %formats $DEBUG %filters %DSOs $ERRSTR $fontstate %OPCODES $I2P $FORMATGUESS $warn_obsolete);
use IO::File;
use Imager::Color;
i_img_setmask
i_img_getmask
- i_draw
+ i_line
i_line_aa
i_box
i_box_filled
i_bezier_multi
i_poly_aa
+ i_poly_aa_cfill
i_copyto
i_rubthru
i_writepng_wiol
i_readgif
+ i_readgif_wiol
i_readgif_callback
i_writegif
i_writegifmc
NF
);
-@EXPORT=qw(
+@EXPORT=qw(
init_log
i_list_formats
i_has_format
require Exporter;
require DynaLoader;
- $VERSION = '0.39pre1';
+ $VERSION = '0.43_02';
@ISA = qw(Exporter DynaLoader);
bootstrap Imager $VERSION;
}
{
callseq => [ qw(image bump elevation lightx lighty st) ],
defaults => { elevation=>0, st=> 2 },
- callsub => sub {
+ callsub => sub {
my %hsh = @_;
i_bumpmap($hsh{image}, $hsh{bump}{IMG}, $hsh{elevation},
$hsh{lightx}, $hsh{lighty}, $hsh{st});
},
};
+ $filters{bumpmap_complex} =
+ {
+ callseq => [ qw(image bump channel tx ty Lx Ly Lz cd cs n Ia Il Is) ],
+ defaults => {
+ channel => 0,
+ tx => 0,
+ ty => 0,
+ Lx => 0.2,
+ Ly => 0.4,
+ Lz => -1.0,
+ cd => 1.0,
+ cs => 40,
+ n => 1.3,
+ Ia => Imager::Color->new(rgb=>[0,0,0]),
+ Il => Imager::Color->new(rgb=>[255,255,255]),
+ Is => Imager::Color->new(rgb=>[255,255,255]),
+ },
+ callsub => sub {
+ my %hsh = @_;
+ i_bumpmap_complex($hsh{image}, $hsh{bump}{IMG}, $hsh{channel},
+ $hsh{tx}, $hsh{ty}, $hsh{Lx}, $hsh{Ly}, $hsh{Lz},
+ $hsh{cd}, $hsh{cs}, $hsh{n}, $hsh{Ia}, $hsh{Il},
+ $hsh{Is});
+ },
+ };
$filters{postlevels} =
{
callseq => [ qw(image levels) ],
multiply => 2, mult => 2,
dissolve => 3,
add => 4,
- subtract => 5, sub => 5,
+ subtract => 5, 'sub' => 5,
diff => 6,
lighten => 7,
darken => 8,
$hsh{ssample_param}, $hsh{segments});
},
};
+ $filters{unsharpmask} =
+ {
+ callseq => [ qw(image stddev scale) ],
+ defaults => { stddev=>2.0, scale=>1.0 },
+ callsub =>
+ sub {
+ my %hsh = @_;
+ i_unsharp_mask($hsh{image}, $hsh{stddev}, $hsh{scale});
+ },
+ };
$FORMATGUESS=\&def_guess_type;
+
+ $warn_obsolete = 1;
}
#
# print Dumper(@_);
#}
+sub init_log {
+ m_init_log($_[0],$_[1]);
+ log_entry("Imager $VERSION starting\n", 1);
+}
+
+
sub init {
my %parms=(loglevel=>1,@_);
if ($parms{'log'}) {
init_log($parms{'log'},$parms{'loglevel'});
}
+ if (exists $parms{'warn_obsolete'}) {
+ $warn_obsolete = $parms{'warn_obsolete'};
+ }
+
# if ($parms{T1LIB_CONFIG}) { $ENV{T1LIB_CONFIG}=$parms{T1LIB_CONFIG}; }
# if ( $ENV{T1LIB_CONFIG} and ( $fontstate eq 'missing conf' )) {
# i_init_fonts();
# $fontstate='ok';
# }
+ if (exists $parms{'t1log'}) {
+ i_init_fonts($parms{'t1log'});
+ }
}
END {
return join(": ", map $_->[0], i_errors());
}
+# this function tries to DWIM for color parameters
+# color objects are used as is
+# simple scalars are simply treated as single parameters to Imager::Color->new
+# hashrefs are treated as named argument lists to Imager::Color->new
+# arrayrefs are treated as list arguments to Imager::Color->new iff any
+# parameter is > 1
+# other arrayrefs are treated as list arguments to Imager::Color::Float
+
+sub _color {
+ my $arg = shift;
+ # perl 5.6.0 seems to do weird things to $arg if we don't make an
+ # explicitly stringified copy
+ # I vaguely remember a bug on this on p5p, but couldn't find it
+ # through bugs.perl.org (I had trouble getting it to find any bugs)
+ my $copy = $arg . "";
+ my $result;
+
+ if (ref $arg) {
+ if (UNIVERSAL::isa($arg, "Imager::Color")
+ || UNIVERSAL::isa($arg, "Imager::Color::Float")) {
+ $result = $arg;
+ }
+ else {
+ if ($copy =~ /^HASH\(/) {
+ $result = Imager::Color->new(%$arg);
+ }
+ elsif ($copy =~ /^ARRAY\(/) {
+ if (grep $_ > 1, @$arg) {
+ $result = Imager::Color->new(@$arg);
+ }
+ else {
+ $result = Imager::Color::Float->new(@$arg);
+ }
+ }
+ else {
+ $Imager::ERRSTR = "Not a color";
+ }
+ }
+ }
+ else {
+ # assume Imager::Color::new knows how to handle it
+ $result = Imager::Color->new($arg);
+ }
+
+ return $result;
+}
+
+
#
# Methods to be called on objects.
#
$self->{ERRSTR}=undef; #
$self->{DEBUG}=$DEBUG;
$self->{DEBUG} && print "Initialized Imager\n";
- if ($hsh{xsize} && $hsh{ysize}) { $self->img_set(%hsh); }
+ if (defined $hsh{xsize} && defined $hsh{ysize}) {
+ unless ($self->img_set(%hsh)) {
+ $Imager::ERRSTR = $self->{ERRSTR};
+ return;
+ }
+ }
return $self;
}
sub crop {
my $self=shift;
unless ($self->{IMG}) { $self->{ERRSTR}='empty input image'; return undef; }
- my %hsh=(left=>0,right=>0,top=>0,bottom=>0,@_);
- my ($w,$h,$l,$r,$b,$t)=($self->getwidth(),$self->getheight(),
- @hsh{qw(left right bottom top)});
- $l=0 if not defined $l;
- $t=0 if not defined $t;
+
+ my %hsh=@_;
- $r||=$l+delete $hsh{'width'} if defined $l and exists $hsh{'width'};
- $b||=$t+delete $hsh{'height'} if defined $t and exists $hsh{'height'};
- $l||=$r-delete $hsh{'width'} if defined $r and exists $hsh{'width'};
- $t||=$b-delete $hsh{'height'} if defined $b and exists $hsh{'height'};
+ my ($w, $h, $l, $r, $b, $t) =
+ @hsh{qw(width height left right bottom top)};
- $r=$self->getwidth if not defined $r;
- $b=$self->getheight if not defined $b;
+ # work through the various possibilities
+ if (defined $l) {
+ if (defined $w) {
+ $r = $l + $w;
+ }
+ elsif (!defined $r) {
+ $r = $self->getwidth;
+ }
+ }
+ elsif (defined $r) {
+ if (defined $w) {
+ $l = $r - $w;
+ }
+ else {
+ $l = 0;
+ }
+ }
+ elsif (defined $w) {
+ $l = int(0.5+($self->getwidth()-$w)/2);
+ $r = $l + $w;
+ }
+ else {
+ $l = 0;
+ $r = $self->getwidth;
+ }
+ if (defined $t) {
+ if (defined $h) {
+ $b = $t + $h;
+ }
+ elsif (!defined $b) {
+ $b = $self->getheight;
+ }
+ }
+ elsif (defined $b) {
+ if (defined $h) {
+ $t = $b - $h;
+ }
+ else {
+ $t = 0;
+ }
+ }
+ elsif (defined $h) {
+ $t=int(0.5+($self->getheight()-$h)/2);
+ $b=$t+$h;
+ }
+ else {
+ $t = 0;
+ $b = $self->getheight;
+ }
($l,$r)=($r,$l) if $l>$r;
($t,$b)=($b,$t) if $t>$b;
- if ($hsh{'width'}) {
- $l=int(0.5+($w-$hsh{'width'})/2);
- $r=$l+$hsh{'width'};
- } else {
- $hsh{'width'}=$r-$l;
- }
- if ($hsh{'height'}) {
- $b=int(0.5+($h-$hsh{'height'})/2);
- $t=$h+$hsh{'height'};
- } else {
- $hsh{'height'}=$b-$t;
- }
+ $l < 0 and $l = 0;
+ $r > $self->getwidth and $r = $self->getwidth;
+ $t < 0 and $t = 0;
+ $b > $self->getheight and $b = $self->getheight;
-# print "l=$l, r=$r, h=$hsh{'width'}\n";
-# print "t=$t, b=$b, w=$hsh{'height'}\n";
+ if ($l == $r || $t == $b) {
+ $self->_set_error("resulting image would have no content");
+ return;
+ }
- my $dst=Imager->new(xsize=>$hsh{'width'}, ysize=>$hsh{'height'}, channels=>$self->getchannels());
+ my $dst = $self->_sametype(xsize=>$r-$l, ysize=>$b-$t);
i_copyto($dst->{IMG},$self->{IMG},$l,$t,$r,$b,0,0);
return $dst;
}
+sub _sametype {
+ my ($self, %opts) = @_;
+
+ $self->{IMG} or return $self->_set_error("Not a valid image");
+
+ my $x = $opts{xsize} || $self->getwidth;
+ my $y = $opts{ysize} || $self->getheight;
+ my $channels = $opts{channels} || $self->getchannels;
+
+ my $out = Imager->new;
+ if ($channels == $self->getchannels) {
+ $out->{IMG} = i_sametype($self->{IMG}, $x, $y);
+ }
+ else {
+ $out->{IMG} = i_sametype_chans($self->{IMG}, $x, $y, $channels);
+ }
+ unless ($out->{IMG}) {
+ $self->{ERRSTR} = $self->_error_as_msg;
+ return;
+ }
+
+ return $out;
+}
+
# Sets an image to a certain size and channel number
# if there was previously data in the image it is discarded
$self->{IMG} = i_img_pal_new($hsh{xsize}, $hsh{ysize}, $hsh{channels},
$hsh{maxcolors} || 256);
}
+ elsif ($hsh{bits} eq 'double') {
+ $self->{IMG} = i_img_double_new($hsh{xsize}, $hsh{ysize}, $hsh{channels});
+ }
elsif ($hsh{bits} == 16) {
$self->{IMG} = i_img_16_new($hsh{xsize}, $hsh{ysize}, $hsh{channels});
}
$self->{IMG}=Imager::ImgRaw::new($hsh{'xsize'}, $hsh{'ysize'},
$hsh{'channels'});
}
+
+ unless ($self->{IMG}) {
+ $self->{ERRSTR} = Imager->_error_as_msg();
+ return;
+ }
+
+ $self;
}
# created a masked version of the current image
#print "Type ", i_img_type($result->{IMG}), "\n";
- $result->{IMG} or undef $result;
-
- return $result;
+ if ($result->{IMG}) {
+ return $result;
+ }
+ else {
+ $self->{ERRSTR} = $self->_error_as_msg;
+ return;
+ }
}
# convert a paletted (or any image) to an 8-bit/channel RGB images
sub bits {
my $self = shift;
- $self->{IMG} and i_img_bits($self->{IMG});
+ my $bits = $self->{IMG} && i_img_bits($self->{IMG});
+ if ($bits && $bits == length(pack("d", 1)) * 8) {
+ $bits = 'double';
+ }
+ $bits;
}
sub type {
return 0 unless $self->{IMG};
- if (defined $opts{index}) {
- return i_tags_delete($self->{IMG}, $opts{index});
+ if (defined $opts{'index'}) {
+ return i_tags_delete($self->{IMG}, $opts{'index'});
}
elsif (defined $opts{name}) {
return i_tags_delbyname($self->{IMG}, $opts{name});
}
}
+sub settag {
+ my ($self, %opts) = @_;
+
+ if ($opts{name}) {
+ $self->deltag(name=>$opts{name});
+ return $self->addtag(name=>$opts{name}, value=>$opts{value});
+ }
+ elsif (defined $opts{code}) {
+ $self->deltag(code=>$opts{code});
+ return $self->addtag(code=>$opts{code}, value=>$opts{value});
+ }
+ else {
+ return undef;
+ }
+}
+
+
+sub _get_reader_io {
+ my ($self, $input) = @_;
+
+ if ($input->{io}) {
+ return $input->{io}, undef;
+ }
+ elsif ($input->{fd}) {
+ return io_new_fd($input->{fd});
+ }
+ elsif ($input->{fh}) {
+ my $fd = fileno($input->{fh});
+ unless ($fd) {
+ $self->_set_error("Handle in fh option not opened");
+ return;
+ }
+ return io_new_fd($fd);
+ }
+ elsif ($input->{file}) {
+ my $file = IO::File->new($input->{file}, "r");
+ unless ($file) {
+ $self->_set_error("Could not open $input->{file}: $!");
+ return;
+ }
+ binmode $file;
+ return (io_new_fd(fileno($file)), $file);
+ }
+ elsif ($input->{data}) {
+ return io_new_buffer($input->{data});
+ }
+ elsif ($input->{callback} || $input->{readcb}) {
+ if (!$input->{seekcb}) {
+ $self->_set_error("Need a seekcb parameter");
+ }
+ if ($input->{maxbuffer}) {
+ return io_new_cb($input->{writecb},
+ $input->{callback} || $input->{readcb},
+ $input->{seekcb}, $input->{closecb},
+ $input->{maxbuffer});
+ }
+ else {
+ return io_new_cb($input->{writecb},
+ $input->{callback} || $input->{readcb},
+ $input->{seekcb}, $input->{closecb});
+ }
+ }
+ else {
+ $self->_set_error("file/fd/fh/data/callback parameter missing");
+ return;
+ }
+}
+
+sub _get_writer_io {
+ my ($self, $input, $type) = @_;
+
+ if ($input->{fd}) {
+ return io_new_fd($input->{fd});
+ }
+ elsif ($input->{fh}) {
+ my $fd = fileno($input->{fh});
+ unless ($fd) {
+ $self->_set_error("Handle in fh option not opened");
+ return;
+ }
+ # flush it
+ my $oldfh = select($input->{fh});
+ # flush anything that's buffered, and make sure anything else is flushed
+ $| = 1;
+ select($oldfh);
+ return io_new_fd($fd);
+ }
+ elsif ($input->{file}) {
+ my $fh = new IO::File($input->{file},"w+");
+ unless ($fh) {
+ $self->_set_error("Could not open file $input->{file}: $!");
+ return;
+ }
+ binmode($fh) or die;
+ return (io_new_fd(fileno($fh)), $fh);
+ }
+ elsif ($input->{data}) {
+ return io_new_bufchain();
+ }
+ elsif ($input->{callback} || $input->{writecb}) {
+ if ($input->{maxbuffer}) {
+ return io_new_cb($input->{callback} || $input->{writecb},
+ $input->{readcb},
+ $input->{seekcb}, $input->{closecb},
+ $input->{maxbuffer});
+ }
+ else {
+ return io_new_cb($input->{callback} || $input->{writecb},
+ $input->{readcb},
+ $input->{seekcb}, $input->{closecb});
+ }
+ }
+ else {
+ $self->_set_error("file/fd/fh/data/callback parameter missing");
+ return;
+ }
+}
+
# Read an image from file
sub read {
my $self = shift;
my %input=@_;
- my ($fh, $fd, $IO);
if (defined($self->{IMG})) {
# let IIM_DESTROY do the destruction, since the image may be
undef($self->{IMG});
}
- if (!$input{fd} and !$input{file} and !$input{data}) {
- $self->{ERRSTR}='no file, fd or data parameter'; return undef;
- }
- if ($input{file}) {
- $fh = new IO::File($input{file},"r");
- if (!defined $fh) {
- $self->{ERRSTR}='Could not open file'; return undef;
- }
- binmode($fh);
- $fd = $fh->fileno();
- }
- if ($input{fd}) {
- $fd=$input{fd};
- }
-
# FIXME: Find the format here if not specified
# yes the code isn't here yet - next week maybe?
# Next week? Are you high or something? That comment
# has been there for half a year dude.
# Look, i just work here, ok?
- if (!$input{type} and $input{file}) {
- $input{type}=$FORMATGUESS->($input{file});
- }
- if (!$formats{$input{type}}) {
- $self->{ERRSTR}='format not supported'; return undef;
- }
+ my ($IO, $fh) = $self->_get_reader_io(\%input) or return;
- my %iolready=(jpeg=>1, png=>1, tiff=>1, pnm=>1, raw=>1, bmp=>1);
+ unless ($input{'type'}) {
+ $input{'type'} = i_test_format_probe($IO, -1);
+ }
- if ($iolready{$input{type}}) {
- # Setup data source
- $IO = io_new_fd($fd); # sort of simple for now eh?
+ unless ($input{'type'}) {
+ $self->_set_error('type parameter missing and not possible to guess from extension');
+ return undef;
+ }
- if ( $input{type} eq 'jpeg' ) {
- ($self->{IMG},$self->{IPTCRAW})=i_readjpeg_wiol( $IO );
- if ( !defined($self->{IMG}) ) {
- $self->{ERRSTR}='unable to read jpeg image'; return undef;
- }
- $self->{DEBUG} && print "loading a jpeg file\n";
- return $self;
+ # Setup data source
+ if ( $input{'type'} eq 'jpeg' ) {
+ ($self->{IMG},$self->{IPTCRAW}) = i_readjpeg_wiol( $IO );
+ if ( !defined($self->{IMG}) ) {
+ $self->{ERRSTR}='unable to read jpeg image'; return undef;
}
+ $self->{DEBUG} && print "loading a jpeg file\n";
+ return $self;
+ }
- if ( $input{type} eq 'tiff' ) {
- $self->{IMG}=i_readtiff_wiol( $IO, -1 ); # Fixme, check if that length parameter is ever needed
- if ( !defined($self->{IMG}) ) {
- $self->{ERRSTR}='unable to read tiff image'; return undef;
- }
- $self->{DEBUG} && print "loading a tiff file\n";
- return $self;
+ if ( $input{'type'} eq 'tiff' ) {
+ $self->{IMG}=i_readtiff_wiol( $IO, -1 ); # Fixme, check if that length parameter is ever needed
+ if ( !defined($self->{IMG}) ) {
+ $self->{ERRSTR}=$self->_error_as_msg(); return undef;
}
+ $self->{DEBUG} && print "loading a tiff file\n";
+ return $self;
+ }
- if ( $input{type} eq 'pnm' ) {
- $self->{IMG}=i_readpnm_wiol( $IO, -1 ); # Fixme, check if that length parameter is ever needed
- if ( !defined($self->{IMG}) ) {
- $self->{ERRSTR}='unable to read pnm image: '._error_as_msg(); return undef;
- }
- $self->{DEBUG} && print "loading a pnm file\n";
- return $self;
+ if ( $input{'type'} eq 'pnm' ) {
+ $self->{IMG}=i_readpnm_wiol( $IO, -1 ); # Fixme, check if that length parameter is ever needed
+ if ( !defined($self->{IMG}) ) {
+ $self->{ERRSTR}='unable to read pnm image: '._error_as_msg(); return undef;
}
+ $self->{DEBUG} && print "loading a pnm file\n";
+ return $self;
+ }
- if ( $input{type} eq 'png' ) {
- $self->{IMG}=i_readpng_wiol( $IO, -1 ); # Fixme, check if that length parameter is ever needed
- if ( !defined($self->{IMG}) ) {
- $self->{ERRSTR}='unable to read png image';
- return undef;
- }
- $self->{DEBUG} && print "loading a png file\n";
+ if ( $input{'type'} eq 'png' ) {
+ $self->{IMG}=i_readpng_wiol( $IO, -1 ); # Fixme, check if that length parameter is ever needed
+ if ( !defined($self->{IMG}) ) {
+ $self->{ERRSTR}='unable to read png image';
+ return undef;
}
+ $self->{DEBUG} && print "loading a png file\n";
+ }
- if ( $input{type} eq 'bmp' ) {
- $self->{IMG}=i_readbmp_wiol( $IO );
- if ( !defined($self->{IMG}) ) {
- $self->{ERRSTR}='unable to read bmp image';
- return undef;
- }
- $self->{DEBUG} && print "loading a bmp file\n";
+ if ( $input{'type'} eq 'bmp' ) {
+ $self->{IMG}=i_readbmp_wiol( $IO );
+ if ( !defined($self->{IMG}) ) {
+ $self->{ERRSTR}=$self->_error_as_msg();
+ return undef;
}
+ $self->{DEBUG} && print "loading a bmp file\n";
+ }
- if ( $input{type} eq 'raw' ) {
- my %params=(datachannels=>3,storechannels=>3,interleave=>1,%input);
-
- if ( !($params{xsize} && $params{ysize}) ) {
- $self->{ERRSTR}='missing xsize or ysize parameter for raw';
- return undef;
+ if ( $input{'type'} eq 'gif' ) {
+ if ($input{colors} && !ref($input{colors})) {
+ # must be a reference to a scalar that accepts the colour map
+ $self->{ERRSTR} = "option 'colors' must be a scalar reference";
+ return undef;
+ }
+ if ($input{colors}) {
+ my $colors;
+ ($self->{IMG}, $colors) =i_readgif_wiol( $IO );
+ if ($colors) {
+ ${ $input{colors} } = [ map { NC(@$_) } @$colors ];
}
+ }
+ else {
+ $self->{IMG} =i_readgif_wiol( $IO );
+ }
+ if ( !defined($self->{IMG}) ) {
+ $self->{ERRSTR}=$self->_error_as_msg();
+ return undef;
+ }
+ $self->{DEBUG} && print "loading a gif file\n";
+ }
- $self->{IMG} = i_readraw_wiol( $IO,
- $params{xsize},
- $params{ysize},
- $params{datachannels},
- $params{storechannels},
- $params{interleave});
- if ( !defined($self->{IMG}) ) {
- $self->{ERRSTR}='unable to read raw image';
- return undef;
- }
- $self->{DEBUG} && print "loading a raw file\n";
+ if ( $input{'type'} eq 'tga' ) {
+ $self->{IMG}=i_readtga_wiol( $IO, -1 ); # Fixme, check if that length parameter is ever needed
+ if ( !defined($self->{IMG}) ) {
+ $self->{ERRSTR}=$self->_error_as_msg();
+ return undef;
}
+ $self->{DEBUG} && print "loading a tga file\n";
+ }
- } else {
+ if ( $input{'type'} eq 'rgb' ) {
+ $self->{IMG}=i_readrgb_wiol( $IO, -1 ); # Fixme, check if that length parameter is ever needed
+ if ( !defined($self->{IMG}) ) {
+ $self->{ERRSTR}=$self->_error_as_msg();
+ return undef;
+ }
+ $self->{DEBUG} && print "loading a tga file\n";
+ }
- # Old code for reference while changing the new stuff
- if (!$input{type} and $input{file}) {
- $input{type}=$FORMATGUESS->($input{file});
- }
+ if ( $input{'type'} eq 'raw' ) {
+ my %params=(datachannels=>3,storechannels=>3,interleave=>1,%input);
- if (!$input{type}) {
- $self->{ERRSTR}='type parameter missing and not possible to guess from extension'; return undef;
+ if ( !($params{xsize} && $params{ysize}) ) {
+ $self->{ERRSTR}='missing xsize or ysize parameter for raw';
+ return undef;
}
- if (!$formats{$input{type}}) {
- $self->{ERRSTR}='format not supported';
+ $self->{IMG} = i_readraw_wiol( $IO,
+ $params{xsize},
+ $params{ysize},
+ $params{datachannels},
+ $params{storechannels},
+ $params{interleave});
+ if ( !defined($self->{IMG}) ) {
+ $self->{ERRSTR}='unable to read raw image';
return undef;
}
+ $self->{DEBUG} && print "loading a raw file\n";
+ }
- if ($input{file}) {
- $fh = new IO::File($input{file},"r");
- if (!defined $fh) {
- $self->{ERRSTR}='Could not open file';
- return undef;
- }
- binmode($fh);
- $fd = $fh->fileno();
- }
+ return $self;
+}
- if ($input{fd}) {
- $fd=$input{fd};
- }
+sub _fix_gif_positions {
+ my ($opts, $opt, $msg, @imgs) = @_;
- if ( $input{type} eq 'gif' ) {
- my $colors;
- if ($input{colors} && !ref($input{colors})) {
- # must be a reference to a scalar that accepts the colour map
- $self->{ERRSTR} = "option 'colors' must be a scalar reference";
- return undef;
+ my $positions = $opts->{'gif_positions'};
+ my $index = 0;
+ for my $pos (@$positions) {
+ my ($x, $y) = @$pos;
+ my $img = $imgs[$index++];
+ $img->settag(name=>'gif_left', value=>$x);
+ $img->settag(name=>'gif_top', value=>$y) if defined $y;
+ }
+ $$msg .= "replaced with the gif_left and gif_top tags";
+}
+
+my %obsolete_opts =
+ (
+ gif_each_palette=>'gif_local_map',
+ interlace => 'gif_interlace',
+ gif_delays => 'gif_delay',
+ gif_positions => \&_fix_gif_positions,
+ gif_loop_count => 'gif_loop',
+ );
+
+sub _set_opts {
+ my ($self, $opts, $prefix, @imgs) = @_;
+
+ for my $opt (keys %$opts) {
+ my $tagname = $opt;
+ if ($obsolete_opts{$opt}) {
+ my $new = $obsolete_opts{$opt};
+ my $msg = "Obsolete option $opt ";
+ if (ref $new) {
+ $new->($opts, $opt, \$msg, @imgs);
}
- if (exists $input{data}) {
- if ($input{colors}) {
- ($self->{IMG}, $colors) = i_readgif_scalar($input{data});
- } else {
- $self->{IMG}=i_readgif_scalar($input{data});
- }
- } else {
- if ($input{colors}) {
- ($self->{IMG}, $colors) = i_readgif( $fd );
- } else {
- $self->{IMG} = i_readgif( $fd )
- }
+ else {
+ $msg .= "replaced with the $new tag ";
+ $tagname = $new;
}
- if ($colors) {
- # we may or may not change i_readgif to return blessed objects...
- ${ $input{colors} } = [ map { NC(@$_) } @$colors ];
+ $msg .= "line ".(caller(2))[2]." of file ".(caller(2))[1];
+ warn $msg if $warn_obsolete && $^W;
+ }
+ next unless $tagname =~ /^\Q$prefix/;
+ my $value = $opts->{$opt};
+ if (ref $value) {
+ if (UNIVERSAL::isa($value, "Imager::Color")) {
+ my $tag = sprintf("color(%d,%d,%d,%d)", $value->rgba);
+ for my $img (@imgs) {
+ $img->settag(name=>$tagname, value=>$tag);
+ }
}
- if ( !defined($self->{IMG}) ) {
- $self->{ERRSTR}= 'reading GIF:'._error_as_msg();
- return undef;
+ elsif (ref($value) eq 'ARRAY') {
+ for my $i (0..$#$value) {
+ my $val = $value->[$i];
+ if (ref $val) {
+ if (UNIVERSAL::isa($val, "Imager::Color")) {
+ my $tag = sprintf("color(%d,%d,%d,%d)", $value->rgba);
+ $i < @imgs and
+ $imgs[$i]->settag(name=>$tagname, value=>$tag);
+ }
+ else {
+ $self->_set_error("Unknown reference type " . ref($value) .
+ " supplied in array for $opt");
+ return;
+ }
+ }
+ else {
+ $i < @imgs
+ and $imgs[$i]->settag(name=>$tagname, value=>$val);
+ }
+ }
+ }
+ else {
+ $self->_set_error("Unknown reference type " . ref($value) .
+ " supplied for $opt");
+ return;
+ }
+ }
+ else {
+ # set it as a tag for every image
+ for my $img (@imgs) {
+ $img->settag(name=>$tagname, value=>$value);
}
- $self->{DEBUG} && print "loading a gif file\n";
}
}
- return $self;
+
+ return 1;
}
# Write an image to file
sub write {
my $self = shift;
- my %input=(jpegquality=>75, gifquant=>'mc', lmdither=>6.0, lmfixed=>[],
+ my %input=(jpegquality=>75,
+ gifquant=>'mc',
+ lmdither=>6.0,
+ lmfixed=>[],
+ idstring=>"",
+ compress=>1,
+ wierdpack=>0,
fax_fine=>1, @_);
- my ($fh, $rc, $fd, $IO);
+ my $rc;
- my %iolready=( tiff=>1, raw=>1, png=>1, pnm=>1, bmp=>1, jpeg=>1 ); # this will be SO MUCH BETTER once they are all in there
+ $self->_set_opts(\%input, "i_", $self)
+ or return undef;
unless ($self->{IMG}) { $self->{ERRSTR}='empty input image'; return undef; }
- if (!$input{file} and !$input{'fd'} and !$input{'data'}) { $self->{ERRSTR}='file/fd/data parameter missing'; return undef; }
- if (!$input{type} and $input{file}) { $input{type}=$FORMATGUESS->($input{file}); }
- if (!$input{type}) { $self->{ERRSTR}='type parameter missing and not possible to guess from extension'; return undef; }
+ if (!$input{'type'} and $input{file}) {
+ $input{'type'}=$FORMATGUESS->($input{file});
+ }
+ if (!$input{'type'}) {
+ $self->{ERRSTR}='type parameter missing and not possible to guess from extension';
+ return undef;
+ }
- if (!$formats{$input{type}}) { $self->{ERRSTR}='format not supported'; return undef; }
+ if (!$formats{$input{'type'}}) { $self->{ERRSTR}='format not supported'; return undef; }
- if (exists $input{'fd'}) {
- $fd=$input{'fd'};
- } elsif (exists $input{'data'}) {
- $IO = Imager::io_new_bufchain();
- } else {
- $fh = new IO::File($input{file},"w+");
- if (!defined $fh) { $self->{ERRSTR}='Could not open file'; return undef; }
- binmode($fh) or die;
- $fd = $fh->fileno();
- }
+ my ($IO, $fh) = $self->_get_writer_io(\%input, $input{'type'})
+ or return undef;
- if ($iolready{$input{type}}) {
- if (defined $fd) {
- $IO = io_new_fd($fd);
- }
+ if ($input{'type'} eq 'tiff') {
+ $self->_set_opts(\%input, "tiff_", $self)
+ or return undef;
+ $self->_set_opts(\%input, "exif_", $self)
+ or return undef;
- if ($input{type} eq 'tiff') {
- if (defined $input{class} && $input{class} eq 'fax') {
- if (!i_writetiff_wiol_faxable($self->{IMG}, $IO, $input{fax_fine})) {
- $self->{ERRSTR}='Could not write to buffer';
- return undef;
- }
- } else {
- if (!i_writetiff_wiol($self->{IMG}, $IO)) {
- $self->{ERRSTR}='Could not write to buffer';
- return undef;
- }
- }
- } elsif ( $input{type} eq 'pnm' ) {
- if ( ! i_writeppm_wiol($self->{IMG},$IO) ) {
- $self->{ERRSTR}='unable to write pnm image';
- return undef;
- }
- $self->{DEBUG} && print "writing a pnm file\n";
- } elsif ( $input{type} eq 'raw' ) {
- if ( !i_writeraw_wiol($self->{IMG},$IO) ) {
- $self->{ERRSTR}='unable to write raw image';
- return undef;
- }
- $self->{DEBUG} && print "writing a raw file\n";
- } elsif ( $input{type} eq 'png' ) {
- if ( !i_writepng_wiol($self->{IMG}, $IO) ) {
- $self->{ERRSTR}='unable to write png image';
- return undef;
- }
- $self->{DEBUG} && print "writing a png file\n";
- } elsif ( $input{type} eq 'jpeg' ) {
- if ( !i_writejpeg_wiol($self->{IMG}, $IO, $input{jpegquality})) {
- $self->{ERRSTR}='unable to write jpeg image';
+ if (defined $input{class} && $input{class} eq 'fax') {
+ if (!i_writetiff_wiol_faxable($self->{IMG}, $IO, $input{fax_fine})) {
+ $self->{ERRSTR}='Could not write to buffer';
return undef;
}
- $self->{DEBUG} && print "writing a jpeg file\n";
- } elsif ( $input{type} eq 'bmp' ) {
- if ( !i_writebmp_wiol($self->{IMG}, $IO) ) {
- $self->{ERRSTR}='unable to write bmp image';
+ } else {
+ if (!i_writetiff_wiol($self->{IMG}, $IO)) {
+ $self->{ERRSTR}='Could not write to buffer';
return undef;
}
- $self->{DEBUG} && print "writing a bmp file\n";
}
-
- if (exists $input{'data'}) {
- my $data = io_slurp($IO);
- if (!$data) {
- $self->{ERRSTR}='Could not slurp from buffer';
- return undef;
- }
- ${$input{data}} = $data;
+ } elsif ( $input{'type'} eq 'pnm' ) {
+ $self->_set_opts(\%input, "pnm_", $self)
+ or return undef;
+ if ( ! i_writeppm_wiol($self->{IMG},$IO) ) {
+ $self->{ERRSTR}='unable to write pnm image';
+ return undef;
}
- return $self;
- } else {
- if ( $input{type} eq 'gif' ) {
- if (not $input{gifplanes}) {
- my $gp;
- my $count=i_count_colors($self->{IMG}, 256);
- $gp=8 if $count == -1;
- $gp=1 if not $gp and $count <= 2;
- $gp=2 if not $gp and $count <= 4;
- $gp=3 if not $gp and $count <= 8;
- $gp=4 if not $gp and $count <= 16;
- $gp=5 if not $gp and $count <= 32;
- $gp=6 if not $gp and $count <= 64;
- $gp=7 if not $gp and $count <= 128;
- $input{gifplanes} = $gp || 8;
- }
-
- if ($input{gifplanes}>8) {
- $input{gifplanes}=8;
- }
- if ($input{gifquant} eq 'gen' || $input{callback}) {
-
-
- if ($input{gifquant} eq 'lm') {
-
- $input{make_colors} = 'addi';
- $input{translate} = 'perturb';
- $input{perturb} = $input{lmdither};
- } elsif ($input{gifquant} eq 'gen') {
- # just pass options through
- } else {
- $input{make_colors} = 'webmap'; # ignored
- $input{translate} = 'giflib';
- }
-
- if ($input{callback}) {
- defined $input{maxbuffer} or $input{maxbuffer} = -1;
- $rc = i_writegif_callback($input{callback}, $input{maxbuffer},
- \%input, $self->{IMG});
- } else {
- $rc = i_writegif_gen($fd, \%input, $self->{IMG});
- }
+ $self->{DEBUG} && print "writing a pnm file\n";
+ } elsif ( $input{'type'} eq 'raw' ) {
+ $self->_set_opts(\%input, "raw_", $self)
+ or return undef;
+ if ( !i_writeraw_wiol($self->{IMG},$IO) ) {
+ $self->{ERRSTR}='unable to write raw image';
+ return undef;
+ }
+ $self->{DEBUG} && print "writing a raw file\n";
+ } elsif ( $input{'type'} eq 'png' ) {
+ $self->_set_opts(\%input, "png_", $self)
+ or return undef;
+ if ( !i_writepng_wiol($self->{IMG}, $IO) ) {
+ $self->{ERRSTR}='unable to write png image';
+ return undef;
+ }
+ $self->{DEBUG} && print "writing a png file\n";
+ } elsif ( $input{'type'} eq 'jpeg' ) {
+ $self->_set_opts(\%input, "jpeg_", $self)
+ or return undef;
+ $self->_set_opts(\%input, "exif_", $self)
+ or return undef;
+ if ( !i_writejpeg_wiol($self->{IMG}, $IO, $input{jpegquality})) {
+ $self->{ERRSTR} = $self->_error_as_msg();
+ return undef;
+ }
+ $self->{DEBUG} && print "writing a jpeg file\n";
+ } elsif ( $input{'type'} eq 'bmp' ) {
+ $self->_set_opts(\%input, "bmp_", $self)
+ or return undef;
+ if ( !i_writebmp_wiol($self->{IMG}, $IO) ) {
+ $self->{ERRSTR}='unable to write bmp image';
+ return undef;
+ }
+ $self->{DEBUG} && print "writing a bmp file\n";
+ } elsif ( $input{'type'} eq 'tga' ) {
+ $self->_set_opts(\%input, "tga_", $self)
+ or return undef;
- } elsif ($input{gifquant} eq 'lm') {
- $rc=i_writegif($self->{IMG},$fd,$input{gifplanes},$input{lmdither},$input{lmfixed});
- } else {
- $rc=i_writegifmc($self->{IMG},$fd,$input{gifplanes});
- }
- if ( !defined($rc) ) {
- $self->{ERRSTR} = "Writing GIF file: "._error_as_msg(); return undef;
- }
- $self->{DEBUG} && print "writing a gif file\n";
+ if ( !i_writetga_wiol($self->{IMG}, $IO, $input{wierdpack}, $input{compress}, $input{idstring}) ) {
+ $self->{ERRSTR}=$self->_error_as_msg();
+ return undef;
+ }
+ $self->{DEBUG} && print "writing a tga file\n";
+ } elsif ( $input{'type'} eq 'gif' ) {
+ $self->_set_opts(\%input, "gif_", $self)
+ or return undef;
+ # compatibility with the old interfaces
+ if ($input{gifquant} eq 'lm') {
+ $input{make_colors} = 'addi';
+ $input{translate} = 'perturb';
+ $input{perturb} = $input{lmdither};
+ } elsif ($input{gifquant} eq 'gen') {
+ # just pass options through
+ } else {
+ $input{make_colors} = 'webmap'; # ignored
+ $input{translate} = 'giflib';
+ }
+ if (!i_writegif_wiol($IO, \%input, $self->{IMG})) {
+ $self->{ERRSTR} = $self->_error_as_msg;
+ return;
+ }
+ }
+ if (exists $input{'data'}) {
+ my $data = io_slurp($IO);
+ if (!$data) {
+ $self->{ERRSTR}='Could not slurp from buffer';
+ return undef;
}
+ ${$input{data}} = $data;
}
return $self;
}
sub write_multi {
my ($class, $opts, @images) = @_;
- if ($opts->{type} eq 'gif') {
+ if (!$opts->{'type'} && $opts->{'file'}) {
+ $opts->{'type'} = $FORMATGUESS->($opts->{'file'});
+ }
+ unless ($opts->{'type'}) {
+ $class->_set_error('type parameter missing and not possible to guess from extension');
+ return;
+ }
+ # translate to ImgRaw
+ if (grep !UNIVERSAL::isa($_, 'Imager') || !$_->{IMG}, @images) {
+ $class->_set_error('Usage: Imager->write_multi({ options }, @images)');
+ return 0;
+ }
+ $class->_set_opts($opts, "i_", @images)
+ or return;
+ my @work = map $_->{IMG}, @images;
+ my ($IO, $file) = $class->_get_writer_io($opts, $opts->{'type'})
+ or return undef;
+ if ($opts->{'type'} eq 'gif') {
+ $class->_set_opts($opts, "gif_", @images)
+ or return;
my $gif_delays = $opts->{gif_delays};
local $opts->{gif_delays} = $gif_delays;
- unless (ref $opts->{gif_delays}) {
+ if ($opts->{gif_delays} && !ref $opts->{gif_delays}) {
# assume the caller wants the same delay for each frame
$opts->{gif_delays} = [ ($gif_delays) x @images ];
}
- # translate to ImgRaw
- if (grep !UNIVERSAL::isa($_, 'Imager') || !$_->{IMG}, @images) {
- $ERRSTR = "Usage: Imager->write_multi({ options }, @images)";
- return 0;
- }
- my @work = map $_->{IMG}, @images;
- if ($opts->{callback}) {
- # Note: you may need to fix giflib for this one to work
- my $maxbuffer = $opts->{maxbuffer};
- defined $maxbuffer or $maxbuffer = -1; # max by default
- return i_writegif_callback($opts->{callback}, $maxbuffer,
- $opts, @work);
- }
- if ($opts->{fd}) {
- return i_writegif_gen($opts->{fd}, $opts, @work);
+ my $res = i_writegif_wiol($IO, $opts, @work);
+ $res or $class->_set_error($class->_error_as_msg());
+ return $res;
+ }
+ elsif ($opts->{'type'} eq 'tiff') {
+ $class->_set_opts($opts, "tiff_", @images)
+ or return;
+ $class->_set_opts($opts, "exif_", @images)
+ or return;
+ my $res;
+ $opts->{fax_fine} = 1 unless exists $opts->{fax_fine};
+ if ($opts->{'class'} && $opts->{'class'} eq 'fax') {
+ $res = i_writetiff_multi_wiol_faxable($IO, $opts->{fax_fine}, @work);
}
else {
- my $fh = IO::File->new($opts->{file}, "w+");
- unless ($fh) {
- $ERRSTR = "Error creating $opts->{file}: $!";
- return 0;
- }
- binmode($fh);
- return i_writegif_gen(fileno($fh), $opts, @work);
+ $res = i_writetiff_multi_wiol($IO, @work);
}
+ $res or $class->_set_error($class->_error_as_msg());
+ return $res;
}
else {
- $ERRSTR = "Sorry, write_multi doesn't support $opts->{type} yet";
+ $ERRSTR = "Sorry, write_multi doesn't support $opts->{'type'} yet";
return 0;
}
}
sub read_multi {
my ($class, %opts) = @_;
- if ($opts{file} && !exists $opts{type}) {
+ if ($opts{file} && !exists $opts{'type'}) {
# guess the type
my $type = $FORMATGUESS->($opts{file});
- $opts{type} = $type;
+ $opts{'type'} = $type;
}
- unless ($opts{type}) {
+ unless ($opts{'type'}) {
$ERRSTR = "No type parameter supplied and it couldn't be guessed";
return;
}
- my $fd;
- my $file;
- if ($opts{file}) {
- $file = IO::File->new($opts{file}, "r");
- unless ($file) {
- $ERRSTR = "Could not open file $opts{file}: $!";
- return;
- }
- binmode $file;
- $fd = fileno($file);
- }
- elsif ($opts{fh}) {
- $fd = fileno($opts{fh});
- unless ($fd) {
- $ERRSTR = "File handle specified with fh option not open";
- return;
- }
- }
- elsif ($opts{fd}) {
- $fd = $opts{fd};
- }
- elsif ($opts{callback} || $opts{data}) {
- # don't fail here
- }
- else {
- $ERRSTR = "You need to specify one of file, fd, fh, callback or data";
- return;
- }
- if ($opts{type} eq 'gif') {
+ my ($IO, $file) = $class->_get_reader_io(\%opts, $opts{'type'})
+ or return;
+ if ($opts{'type'} eq 'gif') {
my @imgs;
- if ($fd) {
- @imgs = i_readgif_multi($fd);
+ @imgs = i_readgif_multi_wiol($IO);
+ if (@imgs) {
+ return map {
+ bless { IMG=>$_, DEBUG=>$DEBUG, ERRSTR=>undef }, 'Imager'
+ } @imgs;
}
else {
- if (Imager::i_giflib_version() < 4.0) {
- $ERRSTR = "giflib3.x does not support callbacks";
- return;
- }
- if ($opts{callback}) {
- @imgs = i_readgif_multi_callback($opts{callback})
- }
- else {
- @imgs = i_readgif_multi_scalar($opts{data});
- }
+ $ERRSTR = _error_as_msg();
+ return;
}
+ }
+ elsif ($opts{'type'} eq 'tiff') {
+ my @imgs = i_readtiff_multi_wiol($IO, -1);
if (@imgs) {
return map {
bless { IMG=>$_, DEBUG=>$DEBUG, ERRSTR=>undef }, 'Imager'
}
}
- $ERRSTR = "Cannot read multiple images from $opts{type} files";
+ $ERRSTR = "Cannot read multiple images from $opts{'type'} files";
return;
}
my %hsh;
unless ($self->{IMG}) { $self->{ERRSTR}='empty input image'; return undef; }
- if (!$input{type}) { $self->{ERRSTR}='type parameter missing'; return undef; }
+ if (!$input{'type'}) { $self->{ERRSTR}='type parameter missing'; return undef; }
- if ( (grep { $_ eq $input{type} } keys %filters) != 1) {
+ if ( (grep { $_ eq $input{'type'} } keys %filters) != 1) {
$self->{ERRSTR}='type parameter not matching any filter'; return undef;
}
- if ($filters{$input{type}}{names}) {
- my $names = $filters{$input{type}}{names};
+ if ($filters{$input{'type'}}{names}) {
+ my $names = $filters{$input{'type'}}{names};
for my $name (keys %$names) {
if (defined $input{$name} && exists $names->{$name}{$input{$name}}) {
$input{$name} = $names->{$name}{$input{$name}};
}
}
}
- if (defined($filters{$input{type}}{defaults})) {
- %hsh=('image',$self->{IMG},%{$filters{$input{type}}{defaults}},%input);
+ if (defined($filters{$input{'type'}}{defaults})) {
+ %hsh=('image',$self->{IMG},%{$filters{$input{'type'}}{defaults}},%input);
} else {
%hsh=('image',$self->{IMG},%input);
}
- my @cs=@{$filters{$input{type}}{callseq}};
+ my @cs=@{$filters{$input{'type'}}{callseq}};
for(@cs) {
if (!defined($hsh{$_})) {
- $self->{ERRSTR}="missing parameter '$_' for filter ".$input{type}; return undef;
+ $self->{ERRSTR}="missing parameter '$_' for filter ".$input{'type'}; return undef;
}
}
- &{$filters{$input{type}}{callsub}}(%hsh);
+ &{$filters{$input{'type'}}{callsub}}(%hsh);
my @b=keys %hsh;
sub scale {
my $self=shift;
- my %opts=(scalefactor=>0.5,type=>'max',qtype=>'normal',@_);
+ my %opts=(scalefactor=>0.5,'type'=>'max',qtype=>'normal',@_);
my $img = Imager->new();
my $tmp = Imager->new();
+ unless (defined wantarray) {
+ my @caller = caller;
+ warn "scale() called in void context - scale() returns the scaled image at $caller[1] line $caller[2]\n";
+ return;
+ }
+
unless ($self->{IMG}) { $self->{ERRSTR}='empty input image'; return undef; }
- if ($opts{xpixels} and $opts{ypixels} and $opts{type}) {
+ if ($opts{xpixels} and $opts{ypixels} and $opts{'type'}) {
my ($xpix,$ypix)=( $opts{xpixels}/$self->getwidth() , $opts{ypixels}/$self->getheight() );
- if ($opts{type} eq 'min') { $opts{scalefactor}=min($xpix,$ypix); }
- if ($opts{type} eq 'max') { $opts{scalefactor}=max($xpix,$ypix); }
+ if ($opts{'type'} eq 'min') { $opts{scalefactor}=min($xpix,$ypix); }
+ if ($opts{'type'} eq 'max') { $opts{scalefactor}=max($xpix,$ypix); }
} elsif ($opts{xpixels}) { $opts{scalefactor}=$opts{xpixels}/$self->getwidth(); }
elsif ($opts{ypixels}) { $opts{scalefactor}=$opts{ypixels}/$self->getheight(); }
{op=>'-',trans=>'Sub'},
{op=>'*',trans=>'Mult'},
{op=>'/',trans=>'Div'},
- {op=>'-',type=>'unary',trans=>'u-'},
+ {op=>'-','type'=>'unary',trans=>'u-'},
{op=>'**'},
- {op=>'func',type=>'unary'}],
+ {op=>'func','type'=>'unary'}],
'grouping'=>[qw( \( \) )],
'func'=>[qw( sin cos )],
'vars'=>[qw( x y )]
}
-{
- my $got_expr;
- sub transform2 {
- my ($opts, @imgs) = @_;
-
- if (!$got_expr) {
- # this is fairly big, delay loading it
- eval "use Imager::Expr";
- die $@ if $@;
- ++$got_expr;
- }
-
- $opts->{variables} = [ qw(x y) ];
- my ($width, $height) = @{$opts}{qw(width height)};
- if (@imgs) {
- $width ||= $imgs[0]->getwidth();
- $height ||= $imgs[0]->getheight();
- my $img_num = 1;
- for my $img (@imgs) {
- $opts->{constants}{"w$img_num"} = $img->getwidth();
- $opts->{constants}{"h$img_num"} = $img->getheight();
- $opts->{constants}{"cx$img_num"} = $img->getwidth()/2;
- $opts->{constants}{"cy$img_num"} = $img->getheight()/2;
- ++$img_num;
- }
- }
- if ($width) {
- $opts->{constants}{w} = $width;
- $opts->{constants}{cx} = $width/2;
- }
- else {
- $Imager::ERRSTR = "No width supplied";
- return;
- }
- if ($height) {
- $opts->{constants}{h} = $height;
- $opts->{constants}{cy} = $height/2;
- }
- else {
- $Imager::ERRSTR = "No height supplied";
- return;
- }
- my $code = Imager::Expr->new($opts);
- if (!$code) {
- $Imager::ERRSTR = Imager::Expr::error();
- return;
- }
-
- my $img = Imager->new();
- $img->{IMG} = i_transform2($opts->{width}, $opts->{height}, $code->code(),
- $code->nregs(), $code->cregs(),
- [ map { $_->{IMG} } @imgs ]);
- if (!defined $img->{IMG}) {
- $Imager::ERRSTR = "transform2 failed";
- return;
- }
+sub transform2 {
+ my ($opts, @imgs) = @_;
+
+ require "Imager/Expr.pm";
+
+ $opts->{variables} = [ qw(x y) ];
+ my ($width, $height) = @{$opts}{qw(width height)};
+ if (@imgs) {
+ $width ||= $imgs[0]->getwidth();
+ $height ||= $imgs[0]->getheight();
+ my $img_num = 1;
+ for my $img (@imgs) {
+ $opts->{constants}{"w$img_num"} = $img->getwidth();
+ $opts->{constants}{"h$img_num"} = $img->getheight();
+ $opts->{constants}{"cx$img_num"} = $img->getwidth()/2;
+ $opts->{constants}{"cy$img_num"} = $img->getheight()/2;
+ ++$img_num;
+ }
+ }
+ if ($width) {
+ $opts->{constants}{w} = $width;
+ $opts->{constants}{cx} = $width/2;
+ }
+ else {
+ $Imager::ERRSTR = "No width supplied";
+ return;
+ }
+ if ($height) {
+ $opts->{constants}{h} = $height;
+ $opts->{constants}{cy} = $height/2;
+ }
+ else {
+ $Imager::ERRSTR = "No height supplied";
+ return;
+ }
+ my $code = Imager::Expr->new($opts);
+ if (!$code) {
+ $Imager::ERRSTR = Imager::Expr::error();
+ return;
+ }
+ my $channels = $opts->{channels} || 3;
+ unless ($channels >= 1 && $channels <= 4) {
+ return Imager->_set_error("channels must be an integer between 1 and 4");
+ }
- return $img;
+ my $img = Imager->new();
+ $img->{IMG} = i_transform2($opts->{width}, $opts->{height},
+ $channels, $code->code(),
+ $code->nregs(), $code->cregs(),
+ [ map { $_->{IMG} } @imgs ]);
+ if (!defined $img->{IMG}) {
+ $Imager::ERRSTR = Imager->_error_as_msg();
+ return;
}
+
+ return $img;
}
sub rubthrough {
my $self=shift;
- my %opts=(tx=>0,ty=>0,@_);
+ my %opts=(tx => 0,ty => 0, @_);
unless ($self->{IMG}) { $self->{ERRSTR}='empty input image'; return undef; }
unless ($opts{src} && $opts{src}->{IMG}) { $self->{ERRSTR}='empty input image for source'; return undef; }
- unless (i_rubthru($self->{IMG}, $opts{src}->{IMG}, $opts{tx},$opts{ty})) {
+ %opts = (src_minx => 0,
+ src_miny => 0,
+ src_maxx => $opts{src}->getwidth(),
+ src_maxy => $opts{src}->getheight(),
+ %opts);
+
+ unless (i_rubthru($self->{IMG}, $opts{src}->{IMG}, $opts{tx}, $opts{ty},
+ $opts{src_minx}, $opts{src_miny}, $opts{src_maxx}, $opts{src_maxy})) {
$self->{ERRSTR} = $self->_error_as_msg();
return undef;
}
my $amount = $opts{radians} || $opts{degrees} * 3.1415926535 / 180;
my $result = Imager->new;
- if ($result->{IMG} = i_rotate_exact($self->{IMG}, $amount)) {
+ if ($opts{back}) {
+ $result->{IMG} = i_rotate_exact($self->{IMG}, $amount, $opts{back});
+ }
+ else {
+ $result->{IMG} = i_rotate_exact($self->{IMG}, $amount);
+ }
+ if ($result->{IMG}) {
return $result;
}
else {
}
}
else {
- $self->{ERRSTR} = "Only the 'right' parameter is available";
+ $self->{ERRSTR} = "Only the 'right', 'radians' and 'degrees' parameters are available";
return undef;
}
}
my $ysize = $opts{ysize} || $self->getheight;
my $result = Imager->new;
- $result->{IMG} = i_matrix_transform($self->{IMG}, $xsize, $ysize,
- $opts{matrix})
- or return undef;
+ if ($opts{back}) {
+ $result->{IMG} = i_matrix_transform($self->{IMG}, $xsize, $ysize,
+ $opts{matrix}, $opts{back})
+ or return undef;
+ }
+ else {
+ $result->{IMG} = i_matrix_transform($self->{IMG}, $xsize, $ysize,
+ $opts{matrix})
+ or return undef;
+ }
return $result;
}
}
if ($opts{filled}) {
+ my $color = _color($opts{'color'});
+ unless ($color) {
+ $self->{ERRSTR} = $Imager::ERRSTR;
+ return;
+ }
i_box_filled($self->{IMG},$opts{xmin},$opts{ymin},$opts{xmax},
- $opts{ymax},$opts{color});
+ $opts{ymax}, $color);
}
elsif ($opts{fill}) {
unless (UNIVERSAL::isa($opts{fill}, 'Imager::Fill')) {
# assume it's a hash ref
require 'Imager/Fill.pm';
- $opts{fill} = Imager::Fill->new(%{$opts{fill}});
+ unless ($opts{fill} = Imager::Fill->new(%{$opts{fill}})) {
+ $self->{ERRSTR} = $Imager::ERRSTR;
+ return undef;
+ }
}
i_box_cfill($self->{IMG},$opts{xmin},$opts{ymin},$opts{xmax},
$opts{ymax},$opts{fill}{fill});
}
- else {
- i_box($self->{IMG},$opts{xmin},$opts{ymin},$opts{xmax},$opts{ymax},$opts{color});
+ else {
+ my $color = _color($opts{'color'});
+ unless ($color) {
+ $self->{ERRSTR} = $Imager::ERRSTR;
+ return;
+ }
+ i_box($self->{IMG},$opts{xmin},$opts{ymin},$opts{xmax},$opts{ymax},
+ $color);
}
return $self;
}
unless (UNIVERSAL::isa($opts{fill}, 'Imager::Fill')) {
# assume it's a hash ref
require 'Imager/Fill.pm';
- $opts{fill} = Imager::Fill->new(%{$opts{fill}});
+ unless ($opts{fill} = Imager::Fill->new(%{$opts{fill}})) {
+ $self->{ERRSTR} = $Imager::ERRSTR;
+ return;
+ }
}
i_arc_cfill($self->{IMG},$opts{'x'},$opts{'y'},$opts{'r'},$opts{'d1'},
$opts{'d2'}, $opts{fill}{fill});
}
else {
- i_arc($self->{IMG},$opts{'x'},$opts{'y'},$opts{'r'},$opts{'d1'},
- $opts{'d2'},$opts{'color'});
+ my $color = _color($opts{'color'});
+ unless ($color) {
+ $self->{ERRSTR} = $Imager::ERRSTR;
+ return;
+ }
+ if ($opts{d1} == 0 && $opts{d2} == 361 && $opts{aa}) {
+ i_circle_aa($self->{IMG}, $opts{'x'}, $opts{'y'}, $opts{'r'},
+ $color);
+ }
+ else {
+ if ($opts{'d1'} <= $opts{'d2'}) {
+ i_arc($self->{IMG},$opts{'x'},$opts{'y'},$opts{'r'},
+ $opts{'d1'}, $opts{'d2'}, $color);
+ }
+ else {
+ i_arc($self->{IMG},$opts{'x'},$opts{'y'},$opts{'r'},
+ $opts{'d1'}, 361, $color);
+ i_arc($self->{IMG},$opts{'x'},$opts{'y'},$opts{'r'},
+ 0, $opts{'d2'}, $color);
+ }
+ }
}
return $self;
}
-# Draws a line from one point to (but not including) the destination point
+# Draws a line from one point to the other
+# the endpoint is set if the endp parameter is set which it is by default.
+# to turn of the endpoint being set use endp=>0 when calling line.
sub line {
my $self=shift;
my $dflcl=i_color_new(0,0,0,0);
- my %opts=(color=>$dflcl,@_);
+ my %opts=(color=>$dflcl,
+ endp => 1,
+ @_);
unless ($self->{IMG}) { $self->{ERRSTR}='empty input image'; return undef; }
unless (exists $opts{x1} and exists $opts{y1}) { $self->{ERRSTR}='missing begining coord'; return undef; }
unless (exists $opts{x2} and exists $opts{y2}) { $self->{ERRSTR}='missing ending coord'; return undef; }
+ my $color = _color($opts{'color'});
+ unless ($color) {
+ $self->{ERRSTR} = $Imager::ERRSTR;
+ return;
+ }
+
+ $opts{antialias} = $opts{aa} if defined $opts{aa};
if ($opts{antialias}) {
- i_line_aa($self->{IMG},$opts{x1}, $opts{y1}, $opts{x2}, $opts{y2}, $opts{color});
+ i_line_aa($self->{IMG},$opts{x1}, $opts{y1}, $opts{x2}, $opts{y2},
+ $color, $opts{endp});
} else {
- i_draw($self->{IMG},$opts{x1}, $opts{y1}, $opts{x2}, $opts{y2}, $opts{color});
+ i_line($self->{IMG},$opts{x1}, $opts{y1}, $opts{x2}, $opts{y2},
+ $color, $opts{endp});
}
return $self;
}
# print Dumper(\@points);
+ my $color = _color($opts{'color'});
+ unless ($color) {
+ $self->{ERRSTR} = $Imager::ERRSTR;
+ return;
+ }
+ $opts{antialias} = $opts{aa} if defined $opts{aa};
if ($opts{antialias}) {
for $pt(@points) {
- if (defined($ls)) { i_line_aa($self->{IMG},$ls->[0],$ls->[1],$pt->[0],$pt->[1],$opts{color}); }
+ if (defined($ls)) {
+ i_line_aa($self->{IMG},$ls->[0],$ls->[1],$pt->[0],$pt->[1],$color, 1);
+ }
$ls=$pt;
}
} else {
for $pt(@points) {
- if (defined($ls)) { i_draw($self->{IMG},$ls->[0],$ls->[1],$pt->[0],$pt->[1],$opts{color}); }
+ if (defined($ls)) {
+ i_line($self->{IMG},$ls->[0],$ls->[1],$pt->[0],$pt->[1],$color,1);
+ }
$ls=$pt;
}
}
return $self;
}
-# this the multipoint bezier curve
+sub polygon {
+ my $self = shift;
+ my ($pt,$ls,@points);
+ my $dflcl = i_color_new(0,0,0,0);
+ my %opts = (color=>$dflcl, @_);
+
+ unless ($self->{IMG}) { $self->{ERRSTR}='empty input image'; return undef; }
+
+ if (exists($opts{points})) {
+ $opts{'x'} = [ map { $_->[0] } @{$opts{points}} ];
+ $opts{'y'} = [ map { $_->[1] } @{$opts{points}} ];
+ }
+
+ if (!exists $opts{'x'} or !exists $opts{'y'}) {
+ $self->{ERRSTR} = 'no points array, or x and y arrays.'; return undef;
+ }
+
+ if ($opts{'fill'}) {
+ unless (UNIVERSAL::isa($opts{'fill'}, 'Imager::Fill')) {
+ # assume it's a hash ref
+ require 'Imager/Fill.pm';
+ unless ($opts{'fill'} = Imager::Fill->new(%{$opts{'fill'}})) {
+ $self->{ERRSTR} = $Imager::ERRSTR;
+ return undef;
+ }
+ }
+ i_poly_aa_cfill($self->{IMG}, $opts{'x'}, $opts{'y'},
+ $opts{'fill'}{'fill'});
+ }
+ else {
+ my $color = _color($opts{'color'});
+ unless ($color) {
+ $self->{ERRSTR} = $Imager::ERRSTR;
+ return;
+ }
+ i_poly_aa($self->{IMG}, $opts{'x'}, $opts{'y'}, $color);
+ }
+
+ return $self;
+}
+
+
+# this the multipoint bezier curve
# this is here more for testing that actual usage since
# this is not a good algorithm. Usually the curve would be
# broken into smaller segments and each done individually.
return;
}
- i_bezier_multi($self->{IMG},$opts{'x'},$opts{'y'},$opts{'color'});
+ my $color = _color($opts{'color'});
+ unless ($color) {
+ $self->{ERRSTR} = $Imager::ERRSTR;
+ return;
+ }
+ i_bezier_multi($self->{IMG},$opts{'x'},$opts{'y'},$color);
return $self;
}
sub flood_fill {
my $self = shift;
my %opts = ( color=>Imager::Color->new(255, 255, 255), @_ );
+ my $rc;
- unless (exists $opts{x} && exists $opts{'y'}) {
+ unless (exists $opts{'x'} && exists $opts{'y'}) {
$self->{ERRSTR} = "missing seed x and y parameters";
return undef;
}
-
+
if ($opts{fill}) {
unless (UNIVERSAL::isa($opts{fill}, 'Imager::Fill')) {
# assume it's a hash ref
require 'Imager/Fill.pm';
- $opts{fill} = Imager::Fill->new(%{$opts{fill}});
+ unless ($opts{fill} = Imager::Fill->new(%{$opts{fill}})) {
+ $self->{ERRSTR} = $Imager::ERRSTR;
+ return;
+ }
+ }
+ $rc = i_flood_cfill($self->{IMG}, $opts{'x'}, $opts{'y'}, $opts{fill}{fill});
+ }
+ else {
+ my $color = _color($opts{'color'});
+ unless ($color) {
+ $self->{ERRSTR} = $Imager::ERRSTR;
+ return;
+ }
+ $rc = i_flood_fill($self->{IMG}, $opts{'x'}, $opts{'y'}, $color);
+ }
+ if ($rc) { $self; } else { $self->{ERRSTR} = $self->_error_as_msg(); return (); }
+}
+
+sub setpixel {
+ my $self = shift;
+
+ my %opts = ( color=>$self->{fg} || NC(255, 255, 255), @_);
+
+ unless (exists $opts{'x'} && exists $opts{'y'}) {
+ $self->{ERRSTR} = 'missing x and y parameters';
+ return undef;
+ }
+
+ my $x = $opts{'x'};
+ my $y = $opts{'y'};
+ my $color = _color($opts{color})
+ or return undef;
+ if (ref $x && ref $y) {
+ unless (@$x == @$y) {
+ $self->{ERRSTR} = 'length of x and y mismatch';
+ return undef;
+ }
+ if ($color->isa('Imager::Color')) {
+ for my $i (0..$#{$opts{'x'}}) {
+ i_ppix($self->{IMG}, $x->[$i], $y->[$i], $color);
+ }
+ }
+ else {
+ for my $i (0..$#{$opts{'x'}}) {
+ i_ppixf($self->{IMG}, $x->[$i], $y->[$i], $color);
+ }
+ }
+ }
+ else {
+ if ($color->isa('Imager::Color')) {
+ i_ppix($self->{IMG}, $x, $y, $color);
+ }
+ else {
+ i_ppixf($self->{IMG}, $x, $y, $color);
+ }
+ }
+
+ $self;
+}
+
+sub getpixel {
+ my $self = shift;
+
+ my %opts = ( "type"=>'8bit', @_);
+
+ unless (exists $opts{'x'} && exists $opts{'y'}) {
+ $self->{ERRSTR} = 'missing x and y parameters';
+ return undef;
+ }
+
+ my $x = $opts{'x'};
+ my $y = $opts{'y'};
+ if (ref $x && ref $y) {
+ unless (@$x == @$y) {
+ $self->{ERRSTR} = 'length of x and y mismatch';
+ return undef;
+ }
+ my @result;
+ if ($opts{"type"} eq '8bit') {
+ for my $i (0..$#{$opts{'x'}}) {
+ push(@result, i_get_pixel($self->{IMG}, $x->[$i], $y->[$i]));
+ }
+ }
+ else {
+ for my $i (0..$#{$opts{'x'}}) {
+ push(@result, i_gpixf($self->{IMG}, $x->[$i], $y->[$i]));
+ }
}
- i_flood_cfill($self->{IMG}, $opts{x}, $opts{'y'}, $opts{fill}{fill});
+ return wantarray ? @result : \@result;
}
else {
- i_flood_fill($self->{IMG}, $opts{x}, $opts{'y'}, $opts{color});
+ if ($opts{"type"} eq '8bit') {
+ return i_get_pixel($self->{IMG}, $x, $y);
+ }
+ else {
+ return i_gpixf($self->{IMG}, $x, $y);
+ }
}
$self;
return $self;
}
+sub difference {
+ my ($self, %opts) = @_;
+
+ defined $opts{mindist} or $opts{mindist} = 0;
+
+ defined $opts{other}
+ or return $self->_set_error("No 'other' parameter supplied");
+ defined $opts{other}{IMG}
+ or return $self->_set_error("No image data in 'other' image");
+
+ $self->{IMG}
+ or return $self->_set_error("No image data");
+
+ my $result = Imager->new;
+ $result->{IMG} = i_diff_image($self->{IMG}, $opts{other}{IMG},
+ $opts{mindist})
+ or return $self->_set_error($self->_error_as_msg());
+
+ return $result;
+}
+
# destructive border - image is shrunk by one pixel all around
sub border {
sub getcolorcount {
my $self=shift;
- my %opts=(maxcolors=>2**30,@_);
+ my %opts=('maxcolors'=>2**30,@_);
if (!defined($self->{IMG})) { $self->{ERRSTR}='image is empty'; return undef; }
my $rc=i_count_colors($self->{IMG},$opts{'maxcolors'});
return ($rc==-1? undef : $rc);
ref $_[0] ? $_[0]->{ERRSTR} : $ERRSTR
}
+sub _set_error {
+ my ($self, $msg) = @_;
+
+ if (ref $self) {
+ $self->{ERRSTR} = $msg;
+ }
+ else {
+ $ERRSTR = $msg;
+ }
+ return;
+}
+
# Default guess for the type of an image from extension
sub def_guess_type {
return 'pnm' if ($ext =~ m/^p[pgb]m$/);
return 'png' if ($ext eq "png");
return 'bmp' if ($ext eq "bmp" || $ext eq "dib");
+ return 'tga' if ($ext eq "tga");
+ return 'rgb' if ($ext eq "rgb");
return 'gif' if ($ext eq "gif");
+ return 'raw' if ($ext eq "raw");
return ();
}
if (/^\004\004/) {
@sar=split(/\034\002/);
foreach $item (@sar) {
- if ($item =~ m/^x/) {
+ if ($item =~ m/^x/) {
$caption=&clean($item);
$i++;
}
- if ($item =~ m/^P/) {
+ if ($item =~ m/^P/) {
$photogr=&clean($item);
$i++;
}
- if ($item =~ m/^i/) {
+ if ($item =~ m/^i/) {
$headln=&clean($item);
$i++;
}
- if ($item =~ m/^n/) {
+ if ($item =~ m/^n/) {
$credit=&clean($item);
$i++;
}
=head1 SYNOPSIS
- use Imager qw(init);
-
- init();
- $img = Imager->new();
- $img->open(file=>'image.ppm',type=>'pnm')
- || print "failed: ",$img->{ERRSTR},"\n";
- $scaled=$img->scale(xpixels=>400,ypixels=>400);
- $scaled->write(file=>'sc_image.ppm',type=>'pnm')
- || print "failed: ",$scaled->{ERRSTR},"\n";
-
-=head1 DESCRIPTION
+ # Thumbnail example
-Imager is a module for creating and altering images - It is not meant
-as a replacement or a competitor to ImageMagick or GD. Both are
-excellent packages and well supported.
+ #!/usr/bin/perl -w
+ use strict;
+ use Imager;
-=head2 API
+ die "Usage: thumbmake.pl filename\n" if !-f $ARGV[0];
+ my $file = shift;
-Almost all functions take the parameters in the hash fashion.
-Example:
+ my $format;
- $img->open(file=>'lena.png',type=>'png');
+ my $img = Imager->new();
+ # see Imager::Files for information on the open() method
+ $img->open(file=>$file) or die $img->errstr();
-or just:
+ $file =~ s/\.[^.]*$//;
- $img->open(file=>'lena.png');
+ # Create smaller version
+ # documented in Imager::Transformations
+ my $thumb = $img->scale(scalefactor=>.3);
-=head2 Basic concept
+ # Autostretch individual channels
+ $thumb->filter(type=>'autolevels');
-An Image object is created with C<$img = Imager-E<gt>new()> Should
-this fail for some reason an explanation can be found in
-C<$Imager::ERRSTR> usually error messages are stored in
-C<$img-E<gt>{ERRSTR}>, but since no object is created this is the only
-way to give back errors. C<$Imager::ERRSTR> is also used to report
-all errors not directly associated with an image object. Examples:
+ # try to save in one of these formats
+ SAVE:
- $img=Imager->new(); # This is an empty image (size is 0 by 0)
- $img->open(file=>'lena.png',type=>'png'); # initializes from file
+ for $format ( qw( png gif jpg tiff ppm ) ) {
+ # Check if given format is supported
+ if ($Imager::formats{$format}) {
+ $file.="_low.$format";
+ print "Storing image as: $file\n";
+ # documented in Imager::Files
+ $thumb->write(file=>$file) or
+ die $thumb->errstr;
+ last SAVE;
+ }
+ }
-or if you want to create an empty image:
+=head1 DESCRIPTION
- $img=Imager->new(xsize=>400,ysize=>300,channels=>4);
+Imager is a module for creating and altering images. It can read and
+write various image formats, draw primitive shapes like lines,and
+polygons, blend multiple images together in various ways, scale, crop,
+render text and more.
-This example creates a completely black image of width 400 and
-height 300 and 4 channels.
+=head2 Overview of documentation
-If you have an existing image, use img_set() to change it's dimensions
-- this will destroy any existing image data:
+=over
- $img->img_set(xsize=>500, ysize=>500, channels=>4);
+=item *
-To create paletted images, set the 'type' parameter to 'paletted':
+Imager - This document - Synopsis Example, Table of Contents and
+Overview.
- $img = Imager->new(xsize=>200, ysize=>200, channels=>3, type=>'paletted');
+=item *
-which creates an image with a maxiumum of 256 colors, which you can
-change by supplying the C<maxcolors> parameter.
+L<Imager::ImageTypes> - Basics of constructing image objects with
+C<new()>: Direct type/virtual images, RGB(A)/paletted images,
+8/16/double bits/channel, color maps, channel masks, image tags, color
+quantization. Also discusses basic image information methods.
-You can create a new paletted image from an existing image using the
-to_paletted() method:
+=item *
- $palimg = $img->to_paletted(\%opts)
+L<Imager::Files> - IO interaction, reading/writing images, format
+specific tags.
-where %opts contains the options specified under L<Quantization options>.
+=item *
-You can convert a paletted image (or any image) to an 8-bit/channel
-RGB image with:
+L<Imager::Draw> - Drawing Primitives, lines, boxes, circles, arcs,
+flood fill.
- $rgbimg = $img->to_rgb8;
+=item *
-Warning: if you draw on a paletted image with colors that aren't in
-the palette, the image will be internally converted to a normal image.
+L<Imager::Color> - Color specification.
-For improved color precision you can use the bits parameter to specify
-16 bites per channel:
+=item *
- $img = Imager->new(xsize=>200, ysize=>200, channels=>3, bits=>16);
+L<Imager::Fill> - Fill pattern specification.
-Note that as of this writing all functions should work on 16-bit
-images, but at only 8-bit/channel precision.
+=item *
-Currently only 8 and 16/bit per channel image types are available,
-this may change later.
+L<Imager::Font> - General font rendering, bounding boxes and font
+metrics.
-Color objects are created by calling the Imager::Color->new()
-method:
+=item *
- $color = Imager::Color->new($red, $green, $blue);
- $color = Imager::Color->new($red, $green, $blue, $alpha);
- $color = Imager::Color->new("#C0C0FF"); # html color specification
+L<Imager::Transformations> - Copying, scaling, cropping, flipping,
+blending, pasting, convert and map.
-This object can then be passed to functions that require a color parameter.
+=item *
-Coordinates in Imager have the origin in the upper left corner. The
-horizontal coordinate increases to the right and the vertical
-downwards.
+L<Imager::Engines> - Programmable transformations through
+C<transform()>, C<transform2()> and C<matrix_transform()>.
-=head2 Reading and writing images
+=item *
-C<$img-E<gt>read()> generally takes two parameters, 'file' and 'type'.
-If the type of the file can be determined from the suffix of the file
-it can be omitted. Format dependant parameters are: For images of
-type 'raw' two extra parameters are needed 'xsize' and 'ysize', if the
-'channel' parameter is omitted for type 'raw' it is assumed to be 3.
-gif and png images might have a palette are converted to truecolor bit
-when read. Alpha channel is preserved for png images irregardless of
-them being in RGB or gray colorspace. Similarly grayscale jpegs are
-one channel images after reading them. For jpeg images the iptc
-header information (stored in the APP13 header) is avaliable to some
-degree. You can get the raw header with C<$img-E<gt>{IPTCRAW}>, but
-you can also retrieve the most basic information with
-C<%hsh=$img-E<gt>parseiptc()> as always patches are welcome. pnm has no
-extra options. Examples:
+L<Imager::Filters> - Filters, sharpen, blur, noise, convolve etc. and
+filter plugins.
- $img = Imager->new();
- $img->read(file=>"cover.jpg") or die $img->errstr; # gets type from name
+=item *
- $img = Imager->new();
- { local(*FH,$/); open(FH,"file.gif") or die $!; $a=<FH>; }
- $img->read(data=>$a,type=>'gif') or die $img->errstr;
+L<Imager::Expr> - Expressions for evaluation engine used by
+transform2().
-The second example shows how to read an image from a scalar, this is
-usefull if your data originates from somewhere else than a filesystem
-such as a database over a DBI connection.
+=item *
-When writing to a tiff image file you can also specify the 'class'
-parameter, which can currently take a single value, "fax". If class
-is set to fax then a tiff image which should be suitable for faxing
-will be written. For the best results start with a grayscale image.
-By default the image is written at fine resolution you can override
-this by setting the "fax_fine" parameter to 0.
+L<Imager::Matrix2d> - Helper class for affine transformations.
-If you are reading from a gif image file, you can supply a 'colors'
-parameter which must be a reference to a scalar. The referenced
-scalar will receive an array reference which contains the colors, each
-represented as an Imager::Color object.
+=item *
-If you already have an open file handle, for example a socket or a
-pipe, you can specify the 'fd' parameter instead of supplying a
-filename. Please be aware that you need to use fileno() to retrieve
-the file descriptor for the file:
+L<Imager::Fountain> - Helper for making gradient profiles.
- $img->read(fd=>fileno(FILE), type=>'gif') or die $img->errstr;
+=back
-For writing using the 'fd' option you will probably want to set $| for
-that descriptor, since the writes to the file descriptor bypass Perl's
-(or the C libraries) buffering. Setting $| should avoid out of order
-output.
+=head2 Basic Overview
-*Note that load() is now an alias for read but will be removed later*
+An Image object is created with C<$img = Imager-E<gt>new()>.
+Examples:
-C<$img-E<gt>write> has the same interface as C<read()>. The earlier
-comments on C<read()> for autodetecting filetypes apply. For jpegs
-quality can be adjusted via the 'jpegquality' parameter (0-100). The
-number of colorplanes in gifs are set with 'gifplanes' and should be
-between 1 (2 color) and 8 (256 colors). It is also possible to choose
-between two quantizing methods with the parameter 'gifquant'. If set
-to mc it uses the mediancut algorithm from either giflibrary. If set
-to lm it uses a local means algorithm. It is then possible to give
-some extra settings. lmdither is the dither deviation amount in pixels
-(manhattan distance). lmfixed can be an array ref who holds an array
-of Imager::Color objects. Note that the local means algorithm needs
-much more cpu time but also gives considerable better results than the
-median cut algorithm.
-
-Currently just for gif files, you can specify various options for the
-conversion from Imager's internal RGB format to the target's indexed
-file format. If you set the gifquant option to 'gen', you can use the
-options specified under L<Quantization options>.
-
-To see what Imager is compiled to support the following code snippet
-is sufficient:
+ $img=Imager->new(); # create empty image
+ $img->open(file=>'lena.png',type=>'png') or # read image from file
+ die $img->errstr(); # give an explanation
+ # if something failed
- use Imager;
- print "@{[keys %Imager::formats]}";
+or if you want to create an empty image:
-When reading raw images you need to supply the width and height of the
-image in the xsize and ysize options:
+ $img=Imager->new(xsize=>400,ysize=>300,channels=>4);
- $img->read(file=>'foo.raw', xsize=>100, ysize=>100)
- or die "Cannot read raw image\n";
+This example creates a completely black image of width 400 and height
+300 and 4 channels.
-If your input file has more channels than you want, or (as is common),
-junk in the fourth channel, you can use the datachannels and
-storechannels options to control the number of channels in your input
-file and the resulting channels in your image. For example, if your
-input image uses 32-bits per pixel with red, green, blue and junk
-values for each pixel you could do:
+When an operation fails which can be directly associated with an image
+the error message is stored can be retrieved with
+C<$img-E<gt>errstr()>.
- $img->read(file=>'foo.raw', xsize=>100, ysize=>100, datachannels=>4,
- storechannels=>3)
- or die "Cannot read raw image\n";
+In cases where no image object is associated with an operation
+C<$Imager::ERRSTR> is used to report errors not directly associated
+with an image object.
-Normally the raw image is expected to have the value for channel 1
-immediately following channel 0 and channel 2 immediately following
-channel 1 for each pixel. If your input image has all the channel 0
-values for the first line of the image, followed by all the channel 1
-values for the first line and so on, you can use the interleave option:
+The C<Imager-E<gt>new> method is described in detail in
+L<Imager::ImageTypes>.
- $img->read(file=>'foo.raw', xsize=100, ysize=>100, interleave=>1)
- or die "Cannot read raw image\n";
+=head1 METHOD INDEX
-=head2 Multi-image files
+Where to find information on methods for Imager class objects.
-Currently just for gif files, you can create files that contain more
-than one image.
+addcolors() - L<Imager::ImageTypes>
-To do this:
+addtag() - L<Imager::ImageTypes> - add image tags
- Imager->write_multi(\%opts, @images)
+arc() - L<Imager::Draw/arc>
-Where %opts describes 4 possible types of outputs:
+bits() - L<Imager::ImageTypes> - number of bits per sample for the
+image
-=over 5
+box() - L<Imager::Draw/box>
-=item type
+circle() - L<Imager::Draw/circle>
-This is C<gif> for gif animations.
+convert() - L<Imager::Transformations/"Color transformations"> -
+transform the color space
-=item callback
+copy() - L<Imager::Transformations/copy>
-A code reference which is called with a single parameter, the data to
-be written. You can also specify $opts{maxbuffer} which is the
-maximum amount of data buffered. Note that there can be larger writes
-than this if the file library writes larger blocks. A smaller value
-maybe useful for writing to a socket for incremental display.
+crop() - L<Imager::Transformations/crop> - extract part of an image
-=item fd
+deltag() - L<Imager::ImageTypes> - delete image tags
-The file descriptor to save the images to.
+difference() - L<Imager::Filters/"Image Difference">
-=item file
+filter() - L<Imager::Filters>
-The name of the file to write to.
+findcolor() - L<Imager::ImageTypes> - search the image palette, if it
+has one
-%opts may also include the keys from L<Gif options> and L<Quantization
-options>.
+flip() - L<Imager::Transformations/flip>
-=back
+flood_fill() - L<Imager::Draw/flood_fill>
-You must also specify the file format using the 'type' option.
+getchannels() - L<Imager::ImageTypes>
-The current aim is to support other multiple image formats in the
-future, such as TIFF, and to support reading multiple images from a
-single file.
+getcolorcount() - L<Imager::ImageTypes>
-A simple example:
+getcolors() - L<Imager::ImageTypes> - get colors from the image
+palette, if it has one
- my @images;
- # ... code to put images in @images
- Imager->write_multi({type=>'gif',
- file=>'anim.gif',
- gif_delays=>[ (10) x @images ] },
- @images)
- or die "Oh dear!";
+getheight() - L<Imager::ImageTypes>
-You can read multi-image files (currently only GIF files) using the
-read_multi() method:
+getpixel() - L<Imager::Draw/setpixel and getpixel>
- my @imgs = Imager->read_multi(file=>'foo.gif')
- or die "Cannot read images: ",Imager->errstr;
+getwidth() - L<Imager::ImageTypes>
-The possible parameters for read_multi() are:
+img_set() - L<Imager::ImageTypes>
-=over
+line() - L<Imager::Draw/line>
-=item file
+map() - L<Imager::Transformations/"Color Mappings"> - remap color
+channel values
-The name of the file to read in.
+masked() - L<Imager::ImageTypes> - make a masked image
-=item fh
+matrix_transform() - L<Imager::Engines/"Matrix Transformations">
-A filehandle to read in. This can be the name of a filehandle, but it
-will need the package name, no attempt is currently made to adjust
-this to the caller's package.
+new() - L<Imager::ImageTypes>
-=item fd
+paste() - L<Imager::Transformations/paste> - draw an image onto an image
-The numeric file descriptor of an open file (or socket).
+polygon() - L<Imager::Draw/polygon>
-=item callback
+polyline() - L<Imager::Draw/polyline>
-A function to be called to read in data, eg. reading a blob from a
-database incrementally.
+read() - L<Imager::Files>
-=item data
+read_multi() - L<Imager::Files>
-The data of the input file in memory.
+rotate() - L<Imager::Transformations/rotate>
-=item type
+rubthrough() - L<Imager::Transformations/rubthrough> - draw an image onto an
+image and use the alpha channel
-The type of file. If the file is parameter is given and provides
-enough information to guess the type, then this parameter is optional.
+scale() - L<Imager::Transformations/scale>
-=back
+setcolors() - L<Imager::ImageTypes> - set palette colors in a paletted image
-Note: you cannot use the callback or data parameter with giflib
-versions before 4.0.
+setpixel() - L<Imager::Draw/setpixel and getpixel>
-When reading from a GIF file with read_multi() the images are returned
-as paletted images.
+string() - L<Imager::Font/string> - draw text on an image
-=head2 Gif options
+tags() - L<Imager::ImageTypes> - fetch image tags
-These options can be specified when calling write_multi() for gif
-files, when writing a single image with the gifquant option set to
-'gen', or for direct calls to i_writegif_gen and i_writegif_callback.
+to_paletted() - L<Imager::ImageTypes>
-Note that some viewers will ignore some of these options
-(gif_user_input in particular).
+to_rgb8() - L<Imager::ImageTypes>
-=over 4
+transform() - L<Imager::Engines/"transform">
-=item gif_each_palette
+transform2() - L<Imager::Engines/"transform2">
-Each image in the gif file has it's own palette if this is non-zero.
-All but the first image has a local colour table (the first uses the
-global colour table.
+type() - L<Imager::ImageTypes> - type of image (direct vs paletted)
-=item interlace
+virtual() - L<Imager::ImageTypes> - whether the image has it's own
+data
-The images are written interlaced if this is non-zero.
+write() - L<Imager::Files>
-=item gif_delays
+write_multi() - L<Imager::Files>
-A reference to an array containing the delays between images, in 1/100
-seconds.
+=head1 SUPPORT
-If you want the same delay for every frame you can simply set this to
-the delay in 1/100 seconds.
+You can ask for help, report bugs or express your undying love for
+Imager on the Imager-devel mailing list.
-=item gif_user_input
+To subscribe send a message with C<subscribe> in the body to:
-A reference to an array contains user input flags. If the given flag
-is non-zero the image viewer should wait for input before displaying
-the next image.
+ imager-devel+request@molar.is
-=item gif_disposal
+or use the form at:
-A reference to an array of image disposal methods. These define what
-should be done to the image before displaying the next one. These are
-integers, where 0 means unspecified, 1 means the image should be left
-in place, 2 means restore to background colour and 3 means restore to
-the previous value.
+ http://www.molar.is/en/lists/imager-devel/
+ (annonymous is temporarily off due to spam)
-=item gif_tran_color
+where you can also find the mailing list archive.
-A reference to an Imager::Color object, which is the colour to use for
-the palette entry used to represent transparency in the palette. You
-need to set the transp option (see L<Quantization options>) for this
-value to be used.
+If you're into IRC, you can typically find the developers in #Imager
+on irc.rhizomatic.net. As with any IRC channel, the participants
+could be occupied or asleep, so please be patient.
-=item gif_positions
+=head1 BUGS
-A reference to an array of references to arrays which represent screen
-positions for each image.
+Bugs are listed individually for relevant pod pages.
-=item gif_loop_count
+=head1 AUTHOR
-If this is non-zero the Netscape loop extension block is generated,
-which makes the animation of the images repeat.
+Arnar M. Hrafnkelsson (addi@imager.perl.org) and Tony Cook
+(tony@imager.perl.org) See the README for a complete list.
-This is currently unimplemented due to some limitations in giflib.
+=head1 SEE ALSO
-=back
-
-=head2 Quantization options
-
-These options can be specified when calling write_multi() for gif
-files, when writing a single image with the gifquant option set to
-'gen', or for direct calls to i_writegif_gen and i_writegif_callback.
-
-=over 4
-
-=item colors
-
-A arrayref of colors that are fixed. Note that some color generators
-will ignore this.
-
-=item transp
-
-The type of transparency processing to perform for images with an
-alpha channel where the output format does not have a proper alpha
-channel (eg. gif). This can be any of:
-
-=over 4
-
-=item none
-
-No transparency processing is done. (default)
-
-=item threshold
-
-Pixels more transparent that tr_threshold are rendered as transparent.
-
-=item errdiff
-
-An error diffusion dither is done on the alpha channel. Note that
-this is independent of the translation performed on the colour
-channels, so some combinations may cause undesired artifacts.
-
-=item ordered
-
-The ordered dither specified by tr_orddith is performed on the alpha
-channel.
-
-=back
-
-This will only be used if the image has an alpha channel, and if there
-is space in the palette for a transparency colour.
-
-=item tr_threshold
-
-The highest alpha value at which a pixel will be made transparent when
-transp is 'threshold'. (0-255, default 127)
-
-=item tr_errdiff
-
-The type of error diffusion to perform on the alpha channel when
-transp is 'errdiff'. This can be any defined error diffusion type
-except for custom (see errdiff below).
-
-=item tr_orddith
-
-The type of ordered dither to perform on the alpha channel when transp
-is 'ordered'. Possible values are:
-
-=over 4
-
-=item random
-
-A semi-random map is used. The map is the same each time.
-
-=item dot8
-
-8x8 dot dither.
-
-=item dot4
-
-4x4 dot dither
-
-=item hline
-
-horizontal line dither.
-
-=item vline
-
-vertical line dither.
-
-=item "/line"
-
-=item slashline
-
-diagonal line dither
-
-=item '\line'
-
-=item backline
-
-diagonal line dither
-
-=item tiny
-
-dot matrix dither (currently the default). This is probably the best
-for displays (like web pages).
-
-=item custom
-
-A custom dither matrix is used - see tr_map
-
-=back
-
-=item tr_map
-
-When tr_orddith is custom this defines an 8 x 8 matrix of integers
-representing the transparency threshold for pixels corresponding to
-each position. This should be a 64 element array where the first 8
-entries correspond to the first row of the matrix. Values should be
-betweern 0 and 255.
-
-=item make_colors
-
-Defines how the quantization engine will build the palette(s).
-Currently this is ignored if 'translate' is 'giflib', but that may
-change. Possible values are:
-
-=over 4
-
-=item none
-
-Only colors supplied in 'colors' are used.
-
-=item webmap
-
-The web color map is used (need url here.)
-
-=item addi
-
-The original code for generating the color map (Addi's code) is used.
-
-=back
-
-Other methods may be added in the future.
-
-=item colors
-
-A arrayref containing Imager::Color objects, which represents the
-starting set of colors to use in translating the images. webmap will
-ignore this. The final colors used are copied back into this array
-(which is expanded if necessary.)
-
-=item max_colors
-
-The maximum number of colors to use in the image.
-
-=item translate
-
-The method used to translate the RGB values in the source image into
-the colors selected by make_colors. Note that make_colors is ignored
-whene translate is 'giflib'.
-
-Possible values are:
-
-=over 4
-
-=item giflib
-
-The giflib native quantization function is used.
-
-=item closest
-
-The closest color available is used.
-
-=item perturb
-
-The pixel color is modified by perturb, and the closest color is chosen.
-
-=item errdiff
-
-An error diffusion dither is performed.
-
-=back
-
-It's possible other transate values will be added.
-
-=item errdiff
-
-The type of error diffusion dither to perform. These values (except
-for custom) can also be used in tr_errdif.
-
-=over 4
-
-=item floyd
-
-Floyd-Steinberg dither
-
-=item jarvis
-
-Jarvis, Judice and Ninke dither
-
-=item stucki
-
-Stucki dither
-
-=item custom
-
-Custom. If you use this you must also set errdiff_width,
-errdiff_height and errdiff_map.
-
-=back
-
-=item errdiff_width
-
-=item errdiff_height
-
-=item errdiff_orig
-
-=item errdiff_map
-
-When translate is 'errdiff' and errdiff is 'custom' these define a
-custom error diffusion map. errdiff_width and errdiff_height define
-the size of the map in the arrayref in errdiff_map. errdiff_orig is
-an integer which indicates the current pixel position in the top row
-of the map.
-
-=item perturb
-
-When translate is 'perturb' this is the magnitude of the random bias
-applied to each channel of the pixel before it is looked up in the
-color table.
-
-=back
-
-=head2 Obtaining/setting attributes of images
-
-To get the size of an image in pixels the C<$img-E<gt>getwidth()> and
-C<$img-E<gt>getheight()> are used.
-
-To get the number of channels in
-an image C<$img-E<gt>getchannels()> is used. $img-E<gt>getmask() and
-$img-E<gt>setmask() are used to get/set the channel mask of the image.
-
- $mask=$img->getmask();
- $img->setmask(mask=>1+2); # modify red and green only
- $img->setmask(mask=>8); # modify alpha only
- $img->setmask(mask=>$mask); # restore previous mask
-
-The mask of an image describes which channels are updated when some
-operation is performed on an image. Naturally it is not possible to
-apply masks to operations like scaling that alter the dimensions of
-images.
-
-It is possible to have Imager find the number of colors in an image
-by using C<$img-E<gt>getcolorcount()>. It requires memory proportionally
-to the number of colors in the image so it is possible to have it
-stop sooner if you only need to know if there are more than a certain number
-of colors in the image. If there are more colors than asked for
-the function return undef. Examples:
-
- if (!defined($img->getcolorcount(maxcolors=>512)) {
- print "Less than 512 colors in image\n";
- }
-
-The bits() method retrieves the number of bits used to represent each
-channel in a pixel, typically 8. The type() method returns either
-'direct' for truecolor images or 'paletted' for paletted images. The
-virtual() method returns non-zero if the image contains no actual
-pixels, for example masked images.
-
-=head2 Paletted Images
-
-In general you can work with paletted images in the same way as RGB
-images, except that if you attempt to draw to a paletted image with a
-color that is not in the image's palette, the image will be converted
-to an RGB image. This means that drawing on a paletted image with
-anti-aliasing enabled will almost certainly convert the image to RGB.
-
-You can add colors to a paletted image with the addcolors() method:
-
- my @colors = ( Imager::Color->new(255, 0, 0),
- Imager::Color->new(0, 255, 0) );
- my $index = $img->addcolors(colors=>\@colors);
-
-The return value is the index of the first color added, or undef if
-adding the colors would overflow the palette.
-
-Once you have colors in the palette you can overwrite them with the
-setcolors() method:
-
- $img->setcolors(start=>$start, colors=>\@colors);
-
-Returns true on success.
-
-To retrieve existing colors from the palette use the getcolors() method:
-
- # get the whole palette
- my @colors = $img->getcolors();
- # get a single color
- my $color = $img->getcolors(start=>$index);
- # get a range of colors
- my @colors = $img->getcolors(start=>$index, count=>$count);
-
-To quickly find a color in the palette use findcolor():
-
- my $index = $img->findcolor(color=>$color);
-
-which returns undef on failure, or the index of the color.
-
-You can get the current palette size with $img->colorcount, and the
-maximum size of the palette with $img->maxcolors.
-
-=head2 Drawing Methods
-
-IMPLEMENTATION MORE OR LESS DONE CHECK THE TESTS
-DOCUMENTATION OF THIS SECTION OUT OF SYNC
-
-It is possible to draw with graphics primitives onto images. Such
-primitives include boxes, arcs, circles and lines. A reference
-oriented list follows.
-
-Box:
- $img->box(color=>$blue,xmin=>10,ymin=>30,xmax=>200,ymax=>300,filled=>1);
-
-The above example calls the C<box> method for the image and the box
-covers the pixels with in the rectangle specified. If C<filled> is
-ommited it is drawn as an outline. If any of the edges of the box are
-ommited it will snap to the outer edge of the image in that direction.
-Also if a color is omitted a color with (255,255,255,255) is used
-instead.
-
-Arc:
- $img->arc(color=>$red, r=20, x=>200, y=>100, d1=>10, d2=>20 );
-
-This creates a filled red arc with a 'center' at (200, 100) and spans
-10 degrees and the slice has a radius of 20. SEE section on BUGS.
-
-Both the arc() and box() methods can take a C<fill> parameter which
-can either be an Imager::Fill object, or a reference to a hash
-containing the parameters used to create the fill:
-
- $img->box(xmin=>10, ymin=>30, xmax=>150, ymax=>60,
- fill => { hatch=>'cross2' });
- use Imager::Fill;
- my $fill = Imager::Fill->new(hatch=>'stipple');
- $img->box(fill=>$fill);
-
-See L<Imager::Fill> for the type of fills you can use.
-
-Circle:
- $img->circle(color=>$green, r=50, x=>200, y=>100);
-
-This creates a green circle with its center at (200, 100) and has a
-radius of 20.
-
-Line:
- $img->line(color=>$green, x1=10, x2=>100,
- y1=>20, y2=>50, antialias=>1 );
-
-That draws an antialiased line from (10,100) to (20,50).
-
-Polyline:
- $img->polyline(points=>[[$x0,$y0],[$x1,$y1],[$x2,$y2]],color=>$red);
- $img->polyline(x=>[$x0,$x1,$x2], y=>[$y0,$y1,$y2], antialias=>1);
-
-Polyline is used to draw multilple lines between a series of points.
-The point set can either be specified as an arrayref to an array of
-array references (where each such array represents a point). The
-other way is to specify two array references.
-
-You can fill a region that all has the same color using the
-flood_fill() method, for example:
-
- $img->flood_fill(x=>50, y=>50, color=>$color);
-
-will fill all regions the same color connected to the point (50, 50).
-
-You can also use a general fill, so you could fill the same region
-with a check pattern using:
-
- $img->flood_fill(x=>50, y=>50, fill=>{ hatch=>'check2x2' });
-
-See L<Imager::Fill> for more information on general fills.
-
-=head2 Text rendering
-
-Text rendering is described in the Imager::Font manpage.
-
-=head2 Image resizing
-
-To scale an image so porportions are maintained use the
-C<$img-E<gt>scale()> method. if you give either a xpixels or ypixels
-parameter they will determine the width or height respectively. If
-both are given the one resulting in a larger image is used. example:
-C<$img> is 700 pixels wide and 500 pixels tall.
-
- $img->scale(xpixels=>400); # 400x285
- $img->scale(ypixels=>400); # 560x400
-
- $img->scale(xpixels=>400,ypixels=>400); # 560x400
- $img->scale(xpixels=>400,ypixels=>400,type=>min); # 400x285
-
- $img->scale(scalefactor=>0.25); 175x125 $img->scale(); # 350x250
-
-if you want to create low quality previews of images you can pass
-C<qtype=E<gt>'preview'> to scale and it will use nearest neighbor
-sampling instead of filtering. It is much faster but also generates
-worse looking images - especially if the original has a lot of sharp
-variations and the scaled image is by more than 3-5 times smaller than
-the original.
-
-If you need to scale images per axis it is best to do it simply by
-calling scaleX and scaleY. You can pass either 'scalefactor' or
-'pixels' to both functions.
-
-Another way to resize an image size is to crop it. The parameters
-to crop are the edges of the area that you want in the returned image.
-If a parameter is omited a default is used instead.
-
- $newimg = $img->crop(left=>50, right=>100, top=>10, bottom=>100);
- $newimg = $img->crop(left=>50, top=>10, width=>50, height=>90);
- $newimg = $img->crop(left=>50, right=>100); # top
-
-You can also specify width and height parameters which will produce a
-new image cropped from the center of the input image, with the given
-width and height.
-
- $newimg = $img->crop(width=>50, height=>50);
-
-The width and height parameters take precedence over the left/right
-and top/bottom parameters respectively.
-
-=head2 Copying images
-
-To create a copy of an image use the C<copy()> method. This is usefull
-if you want to keep an original after doing something that changes the image
-inplace like writing text.
-
- $img=$orig->copy();
-
-To copy an image to onto another image use the C<paste()> method.
-
- $dest->paste(left=>40,top=>20,img=>$logo);
-
-That copies the entire C<$logo> image onto the C<$dest> image so that the
-upper left corner of the C<$logo> image is at (40,20).
-
-
-=head2 Flipping images
-
-An inplace horizontal or vertical flip is possible by calling the
-C<flip()> method. If the original is to be preserved it's possible to
-make a copy first. The only parameter it takes is the C<dir>
-parameter which can take the values C<h>, C<v>, C<vh> and C<hv>.
-
- $img->flip(dir=>"h"); # horizontal flip
- $img->flip(dir=>"vh"); # vertical and horizontal flip
- $nimg = $img->copy->flip(dir=>"v"); # make a copy and flip it vertically
-
-=head2 Rotating images
-
-Use the rotate() method to rotate an image.
-
-To rotate by an exact amount in degrees or radians, use the 'degrees'
-or 'radians' parameter:
-
- my $rot20 = $img->rotate(degrees=>20);
- my $rotpi4 = $img->rotate(radians=>3.14159265/4);
-
-To rotate in steps of 90 degrees, use the 'right' parameter:
-
- my $rotated = $img->rotate(right=>270);
-
-Rotations are clockwise for positive values.
-
-=head2 Blending Images
-
-To put an image or a part of an image directly
-into another it is best to call the C<paste()> method on the image you
-want to add to.
-
- $img->paste(img=>$srcimage,left=>30,top=>50);
-
-That will take paste C<$srcimage> into C<$img> with the upper
-left corner at (30,50). If no values are given for C<left>
-or C<top> they will default to 0.
-
-A more complicated way of blending images is where one image is
-put 'over' the other with a certain amount of opaqueness. The
-method that does this is rubthrough.
-
- $img->rubthrough(src=>$srcimage,tx=>30,ty=>50);
-
-That will take the image C<$srcimage> and overlay it with the upper
-left corner at (30,50). You can rub 2 or 4 channel images onto a 3
-channel image, or a 2 channel image onto a 1 channel image. The last
-channel is used as an alpha channel.
-
-
-=head2 Filters
-
-A special image method is the filter method. An example is:
-
- $img->filter(type=>'autolevels');
-
-This will call the autolevels filter. Here is a list of the filters
-that are always avaliable in Imager. This list can be obtained by
-running the C<filterlist.perl> script that comes with the module
-source.
-
- Filter Arguments
- autolevels lsat(0.1) usat(0.1) skew(0)
- bumpmap bump elevation(0) lightx lighty st(2)
- contrast intensity
- conv coef
- fountain xa ya xb yb ftype(linear) repeat(none) combine(none)
- super_sample(none) ssample_param(4) segments(see below)
- gaussian stddev
- gradgen xo yo colors dist
- hardinvert
- mosaic size(20)
- noise amount(3) subtype(0)
- postlevels levels(10)
- radnoise xo(100) yo(100) ascale(17.0) rscale(0.02)
- turbnoise xo(0.0) yo(0.0) scale(10.0)
- watermark wmark pixdiff(10) tx(0) ty(0)
-
-The default values are in parenthesis. All parameters must have some
-value but if a parameter has a default value it may be omitted when
-calling the filter function.
-
-The filters are:
-
-=over
-
-=item autolevels
-
-scales the value of each channel so that the values in the image will
-cover the whole possible range for the channel. I<lsat> and I<usat>
-truncate the range by the specified fraction at the top and bottom of
-the range respectivly..
-
-=item bumpmap
-
-uses the channel I<elevation> image I<bump> as a bumpmap on your
-image, with the light at (I<lightx>, I<lightty>), with a shadow length
-of I<st>.
-
-=item contrast
-
-scales each channel by I<intensity>. Values of I<intensity> < 1.0
-will reduce the contrast.
-
-=item conv
-
-performs 2 1-dimensional convolutions on the image using the values
-from I<coef>. I<coef> should be have an odd length.
-
-=item fountain
-
-renders a fountain fill, similar to the gradient tool in most paint
-software. The default fill is a linear fill from opaque black to
-opaque white. The points A(xa, ya) and B(xb, yb) control the way the
-fill is performed, depending on the ftype parameter:
-
-=over
-
-=item linear
-
-the fill ramps from A through to B.
-
-=item bilinear
-
-the fill ramps in both directions from A, where AB defines the length
-of the gradient.
-
-=item radial
-
-A is the center of a circle, and B is a point on it's circumference.
-The fill ramps from the center out to the circumference.
-
-=item radial_square
-
-A is the center of a square and B is the center of one of it's sides.
-This can be used to rotate the square. The fill ramps out to the
-edges of the square.
-
-=item revolution
-
-A is the centre of a circle and B is a point on it's circumference. B
-marks the 0 and 360 point on the circle, with the fill ramping
-clockwise.
-
-=item conical
-
-A is the center of a circle and B is a point on it's circumference. B
-marks the 0 and point on the circle, with the fill ramping in both
-directions to meet opposite.
-
-=back
-
-The I<repeat> option controls how the fill is repeated for some
-I<ftype>s after it leaves the AB range:
-
-=over
-
-=item none
-
-no repeats, points outside of each range are treated as if they were
-on the extreme end of that range.
-
-=item sawtooth
-
-the fill simply repeats in the positive direction
-
-=item triangle
-
-the fill repeats in reverse and then forward and so on, in the
-positive direction
-
-=item saw_both
-
-the fill repeats in both the positive and negative directions (only
-meaningful for a linear fill).
-
-=item tri_both
-
-as for triangle, but in the negative direction too (only meaningful
-for a linear fill).
-
-=back
-
-By default the fill simply overwrites the whole image (unless you have
-parts of the range 0 through 1 that aren't covered by a segment), if
-any segments of your fill have any transparency, you can set the
-I<combine> option to 'normal' to have the fill combined with the
-existing pixels. See the description of I<combine> in L<Imager/Fill>.
-
-If your fill has sharp edges, for example between steps if you use
-repeat set to 'triangle', you may see some aliased or ragged edges.
-You can enable super-sampling which will take extra samples within the
-pixel in an attempt anti-alias the fill.
-
-The possible values for the super_sample option are:
-
-=over
-
-=item none
-
-no super-sampling is done
-
-=item grid
-
-a square grid of points are sampled. The number of points sampled is
-the square of ceil(0.5 + sqrt(ssample_param)).
-
-=item random
-
-a random set of points within the pixel are sampled. This looks
-pretty bad for low ssample_param values.
-
-=item circle
-
-the points on the radius of a circle within the pixel are sampled.
-This seems to produce the best results, but is fairly slow (for now).
-
-=back
-
-You can control the level of sampling by setting the ssample_param
-option. This is roughly the number of points sampled, but depends on
-the type of sampling.
-
-The segments option is an arrayref of segments. You really should use
-the Imager::Fountain class to build your fountain fill. Each segment
-is an array ref containing:
-
-=over
-
-=item start
-
-a floating point number between 0 and 1, the start of the range of fill parameters covered by this segment.
-
-=item middle
-
-a floating point number between start and end which can be used to
-push the color range towards one end of the segment.
-
-=item end
-
-a floating point number between 0 and 1, the end of the range of fill
-parameters covered by this segment. This should be greater than
-start.
-
-=item c0
-
-=item c1
-
-The colors at each end of the segment. These can be either
-Imager::Color or Imager::Color::Float objects.
-
-=item segment type
-
-The type of segment, this controls the way the fill parameter varies
-over the segment. 0 for linear, 1 for curved (unimplemented), 2 for
-sine, 3 for sphere increasing, 4 for sphere decreasing.
-
-=item color type
-
-The way the color varies within the segment, 0 for simple RGB, 1 for
-hue increasing and 2 for hue decreasing.
-
-=back
-
-Don't forgot to use Imager::Fountain instead of building your own.
-Really. It even loads GIMP gradient files.
-
-=item gaussian
-
-performs a gaussian blur of the image, using I<stddev> as the standard
-deviation of the curve used to combine pixels, larger values give
-bigger blurs. For a definition of Gaussian Blur, see:
-
- http://www.maths.abdn.ac.uk/~igc/tch/mx4002/notes/node99.html
-
-=item gradgen
-
-renders a gradient, with the given I<colors> at the corresponding
-points (x,y) in I<xo> and I<yo>. You can specify the way distance is
-measured for color blendeing by setting I<dist> to 0 for Euclidean, 1
-for Euclidean squared, and 2 for Manhattan distance.
-
-=item hardinvert
-
-inverts the image, black to white, white to black. All channels are
-inverted, including the alpha channel if any.
-
-=item mosaic
-
-produces averaged tiles of the given I<size>.
-
-=item noise
-
-adds noise of the given I<amount> to the image. If I<subtype> is
-zero, the noise is even to each channel, otherwise noise is added to
-each channel independently.
-
-=item radnoise
-
-renders radiant Perlin turbulent noise. The centre of the noise is at
-(I<xo>, I<yo>), I<ascale> controls the angular scale of the noise ,
-and I<rscale> the radial scale, higher numbers give more detail.
-
-=item postlevels
-
-alters the image to have only I<levels> distinct level in each
-channel.
-
-=item turbnoise
-
-renders Perlin turbulent noise. (I<xo>, I<yo>) controls the origin of
-the noise, and I<scale> the scale of the noise, with lower numbers
-giving more detail.
-
-=item watermark
-
-applies I<wmark> as a watermark on the image with strength I<pixdiff>,
-with an origin at (I<tx>, I<ty>)
-
-=back
-
-A demonstration of most of the filters can be found at:
-
- http://www.develop-help.com/imager/filters.html
-
-(This is a slow link.)
-
-=head2 Color transformations
-
-You can use the convert method to transform the color space of an
-image using a matrix. For ease of use some presets are provided.
-
-The convert method can be used to:
-
-=over 4
-
-=item *
-
-convert an RGB or RGBA image to grayscale.
-
-=item *
-
-convert a grayscale image to RGB.
-
-=item *
-
-extract a single channel from an image.
-
-=item *
-
-set a given channel to a particular value (or from another channel)
-
-=back
-
-The currently defined presets are:
-
-=over
-
-=item gray
-
-=item grey
-
-converts an RGBA image into a grayscale image with alpha channel, or
-an RGB image into a grayscale image without an alpha channel.
-
-This weights the RGB channels at 22.2%, 70.7% and 7.1% respectively.
-
-=item noalpha
-
-removes the alpha channel from a 2 or 4 channel image. An identity
-for other images.
-
-=item red
-
-=item channel0
-
-extracts the first channel of the image into a single channel image
-
-=item green
-
-=item channel1
-
-extracts the second channel of the image into a single channel image
-
-=item blue
-
-=item channel2
-
-extracts the third channel of the image into a single channel image
-
-=item alpha
-
-extracts the alpha channel of the image into a single channel image.
-
-If the image has 1 or 3 channels (assumed to be grayscale of RGB) then
-the resulting image will be all white.
-
-=item rgb
-
-converts a grayscale image to RGB, preserving the alpha channel if any
-
-=item addalpha
-
-adds an alpha channel to a grayscale or RGB image. Preserves an
-existing alpha channel for a 2 or 4 channel image.
-
-=back
-
-For example, to convert an RGB image into a greyscale image:
-
- $new = $img->convert(preset=>'grey'); # or gray
-
-or to convert a grayscale image to an RGB image:
-
- $new = $img->convert(preset=>'rgb');
-
-The presets aren't necessary simple constants in the code, some are
-generated based on the number of channels in the input image.
-
-If you want to perform some other colour transformation, you can use
-the 'matrix' parameter.
-
-For each output pixel the following matrix multiplication is done:
-
- channel[0] [ [ $c00, $c01, ... ] inchannel[0]
- [ ... ] = ... x [ ... ]
- channel[n-1] [ $cn0, ..., $cnn ] ] inchannel[max]
- 1
-
-So if you want to swap the red and green channels on a 3 channel image:
-
- $new = $img->convert(matrix=>[ [ 0, 1, 0 ],
- [ 1, 0, 0 ],
- [ 0, 0, 1 ] ]);
-
-or to convert a 3 channel image to greyscale using equal weightings:
-
- $new = $img->convert(matrix=>[ [ 0.333, 0.333, 0.334 ] ])
-
-=head2 Color Mappings
-
-You can use the map method to map the values of each channel of an
-image independently using a list of lookup tables. It's important to
-realize that the modification is made inplace. The function simply
-returns the input image again or undef on failure.
-
-Each channel is mapped independently through a lookup table with 256
-entries. The elements in the table should not be less than 0 and not
-greater than 255. If they are out of the 0..255 range they are
-clamped to the range. If a table does not contain 256 entries it is
-silently ignored.
-
-Single channels can mapped by specifying their name and the mapping
-table. The channel names are C<red>, C<green>, C<blue>, C<alpha>.
-
- @map = map { int( $_/2 } 0..255;
- $img->map( red=>\@map );
-
-It is also possible to specify a single map that is applied to all
-channels, alpha channel included. For example this applies a gamma
-correction with a gamma of 1.4 to the input image.
-
- $gamma = 1.4;
- @map = map { int( 0.5 + 255*($_/255)**$gamma ) } 0..255;
- $img->map(all=> \@map);
-
-The C<all> map is used as a default channel, if no other map is
-specified for a channel then the C<all> map is used instead. If we
-had not wanted to apply gamma to the alpha channel we would have used:
-
- $img->map(all=> \@map, alpha=>[]);
-
-Since C<[]> contains fewer than 256 element the gamma channel is
-unaffected.
-
-It is also possible to simply specify an array of maps that are
-applied to the images in the rgba order. For example to apply
-maps to the C<red> and C<blue> channels one would use:
-
- $img->map(maps=>[\@redmap, [], \@bluemap]);
-
-
-
-=head2 Transformations
-
-Another special image method is transform. It can be used to generate
-warps and rotations and such features. It can be given the operations
-in postfix notation or the module Affix::Infix2Postfix can be used.
-Look in the test case t/t55trans.t for an example.
-
-transform() needs expressions (or opcodes) that determine the source
-pixel for each target pixel. Source expressions are infix expressions
-using any of the +, -, *, / or ** binary operators, the - unary
-operator, ( and ) for grouping and the sin() and cos() functions. The
-target pixel is input as the variables x and y.
-
-You specify the x and y expressions as xexpr and yexpr respectively.
-You can also specify opcodes directly, but that's magic deep enough
-that you can look at the source code.
-
-You can still use the transform() function, but the transform2()
-function is just as fast and is more likely to be enhanced and
-maintained.
-
-Later versions of Imager also support a transform2() class method
-which allows you perform a more general set of operations, rather than
-just specifying a spatial transformation as with the transform()
-method, you can also perform colour transformations, image synthesis
-and image combinations.
-
-transform2() takes an reference to an options hash, and a list of
-images to operate one (this list may be empty):
-
- my %opts;
- my @imgs;
- ...
- my $img = Imager::transform2(\%opts, @imgs)
- or die "transform2 failed: $Imager::ERRSTR";
-
-The options hash may define a transformation function, and optionally:
-
-=over 4
-
-=item *
-
-width - the width of the image in pixels. If this isn't supplied the
-width of the first input image is used. If there are no input images
-an error occurs.
-
-=item *
-
-height - the height of the image in pixels. If this isn't supplied
-the height of the first input image is used. If there are no input
-images an error occurs.
-
-=item *
-
-constants - a reference to hash of constants to define for the
-expression engine. Some extra constants are defined by Imager
-
-=back
-
-The tranformation function is specified using either the expr or
-rpnexpr member of the options.
-
-=over 4
-
-=item Infix expressions
-
-You can supply infix expressions to transform 2 with the expr keyword.
-
-$opts{expr} = 'return getp1(w-x, h-y)'
-
-The 'expression' supplied follows this general grammar:
-
- ( identifier '=' expr ';' )* 'return' expr
-
-This allows you to simplify your expressions using variables.
-
-A more complex example might be:
-
-$opts{expr} = 'pix = getp1(x,y); return if(value(pix)>0.8,pix*0.8,pix)'
-
-Currently to use infix expressions you must have the Parse::RecDescent
-module installed (available from CPAN). There is also what might be a
-significant delay the first time you run the infix expression parser
-due to the compilation of the expression grammar.
-
-=item Postfix expressions
-
-You can supply postfix or reverse-polish notation expressions to
-transform2() through the rpnexpr keyword.
-
-The parser for rpnexpr emulates a stack machine, so operators will
-expect to see their parameters on top of the stack. A stack machine
-isn't actually used during the image transformation itself.
-
-You can store the value at the top of the stack in a variable called
-foo using !foo and retrieve that value again using @foo. The !foo
-notation will pop the value from the stack.
-
-An example equivalent to the infix expression above:
-
- $opts{rpnexpr} = 'x y getp1 !pix @pix value 0.8 gt @pix 0.8 * @pix ifp'
-
-=back
-
-transform2() has a fairly rich range of operators.
-
-=over 4
-
-=item +, *, -, /, %, **
-
-multiplication, addition, subtraction, division, remainder and
-exponentiation. Multiplication, addition and subtraction can be used
-on colour values too - though you need to be careful - adding 2 white
-values together and multiplying by 0.5 will give you grey, not white.
-
-Division by zero (or a small number) just results in a large number.
-Modulo zero (or a small number) results in zero.
-
-=item sin(N), cos(N), atan2(y,x)
-
-Some basic trig functions. They work in radians, so you can't just
-use the hue values.
-
-=item distance(x1, y1, x2, y2)
-
-Find the distance between two points. This is handy (along with
-atan2()) for producing circular effects.
-
-=item sqrt(n)
-
-Find the square root. I haven't had much use for this since adding
-the distance() function.
-
-=item abs(n)
-
-Find the absolute value.
-
-=item getp1(x,y), getp2(x,y), getp3(x, y)
-
-Get the pixel at position (x,y) from the first, second or third image
-respectively. I may add a getpn() function at some point, but this
-prevents static checking of the instructions against the number of
-images actually passed in.
-
-=item value(c), hue(c), sat(c), hsv(h,s,v)
-
-Separates a colour value into it's value (brightness), hue (colour)
-and saturation elements. Use hsv() to put them back together (after
-suitable manipulation).
-
-=item red(c), green(c), blue(c), rgb(r,g,b)
-
-Separates a colour value into it's red, green and blue colours. Use
-rgb(r,g,b) to put it back together.
-
-=item int(n)
-
-Convert a value to an integer. Uses a C int cast, so it may break on
-large values.
-
-=item if(cond,ntrue,nfalse), if(cond,ctrue,cfalse)
-
-A simple (and inefficient) if function.
-
-=item <=,<,==,>=,>,!=
-
-Relational operators (typically used with if()). Since we're working
-with floating point values the equalities are 'near equalities' - an
-epsilon value is used.
-
-=item &&, ||, not(n)
-
-Basic logical operators.
-
-=back
-
-A few examples:
-
-=over 4
-
-=item rpnexpr=>'x 25 % 15 * y 35 % 10 * getp1 !pat x y getp1 !pix @pix sat 0.7 gt @pat @pix ifp'
-
-tiles a smaller version of the input image over itself where the
-colour has a saturation over 0.7.
-
-=item rpnexpr=>'x 25 % 15 * y 35 % 10 * getp1 !pat y 360 / !rat x y getp1 1 @rat - pmult @pat @rat pmult padd'
-
-tiles the input image over itself so that at the top of the image the
-full-size image is at full strength and at the bottom the tiling is
-most visible.
-
-=item rpnexpr=>'x y getp1 !pix @pix value 0.96 gt @pix sat 0.1 lt and 128 128 255 rgb @pix ifp'
-
-replace pixels that are white or almost white with a palish blue
-
-=item rpnexpr=>'x 35 % 10 * y 45 % 8 * getp1 !pat x y getp1 !pix @pix sat 0.2 lt @pix value 0.9 gt and @pix @pat @pix value 2 / 0.5 + pmult ifp'
-
-Tiles the input image overitself where the image isn't white or almost
-white.
-
-=item rpnexpr=>'x y 160 180 distance !d y 180 - x 160 - atan2 !a @d 10 / @a + 3.1416 2 * % !a2 @a2 180 * 3.1416 / 1 @a2 sin 1 + 2 / hsv'
-
-Produces a spiral.
-
-=item rpnexpr=>'x y 160 180 distance !d y 180 - x 160 - atan2 !a @d 10 / @a + 3.1416 2 * % !a2 @a 180 * 3.1416 / 1 @a2 sin 1 + 2 / hsv'
-
-A spiral built on top of a colour wheel.
-
-=back
-
-For details on expression parsing see L<Imager::Expr>. For details on
-the virtual machine used to transform the images, see
-L<Imager::regmach.pod>.
-
-=head2 Matrix Transformations
-
-Rather than having to write code in a little language, you can use a
-matrix to perform transformations, using the matrix_transform()
-method:
-
- my $im2 = $im->matrix_transform(matrix=>[ -1, 0, $im->getwidth-1,
- 0, 1, 0,
- 0, 0, 1 ]);
-
-By default the output image will be the same size as the input image,
-but you can supply the xsize and ysize parameters to change the size.
-
-Rather than building matrices by hand you can use the Imager::Matrix2d
-module to build the matrices. This class has methods to allow you to
-scale, shear, rotate, translate and reflect, and you can combine these
-with an overloaded multiplication operator.
-
-WARNING: the matrix you provide in the matrix operator transforms the
-co-ordinates within the B<destination> image to the co-ordinates
-within the I<source> image. This can be confusing.
-
-Since Imager has 3 different fairly general ways of transforming an
-image spatially, this method also has a yatf() alias. Yet Another
-Transformation Function.
-
-=head2 Masked Images
-
-Masked images let you control which pixels are modified in an
-underlying image. Where the first channel is completely black in the
-mask image, writes to the underlying image are ignored.
-
-For example, given a base image called $img:
-
- my $mask = Imager->new(xsize=>$img->getwidth, ysize=>getheight,
- channels=>1);
- # ... draw something on the mask
- my $maskedimg = $img->masked(mask=>$mask);
-
-You can specifiy the region of the underlying image that is masked
-using the left, top, right and bottom options.
-
-If you just want a subset of the image, without masking, just specify
-the region without specifying a mask.
-
-=head2 Plugins
-
-It is possible to add filters to the module without recompiling the
-module itself. This is done by using DSOs (Dynamic shared object)
-avaliable on most systems. This way you can maintain our own filters
-and not have to get me to add it, or worse patch every new version of
-the Module. Modules can be loaded AND UNLOADED at runtime. This
-means that you can have a server/daemon thingy that can do something
-like:
-
- load_plugin("dynfilt/dyntest.so") || die "unable to load plugin\n";
- %hsh=(a=>35,b=>200,type=>lin_stretch);
- $img->filter(%hsh);
- unload_plugin("dynfilt/dyntest.so") || die "unable to load plugin\n";
- $img->write(type=>'pnm',file=>'testout/t60.jpg')
- || die "error in write()\n";
-
-Someone decides that the filter is not working as it should -
-dyntest.c modified and recompiled.
-
- load_plugin("dynfilt/dyntest.so") || die "unable to load plugin\n";
- $img->filter(%hsh);
-
-An example plugin comes with the module - Please send feedback to
-addi@umich.edu if you test this.
-
-Note: This seems to test ok on the following systems:
-Linux, Solaris, HPUX, OpenBSD, FreeBSD, TRU64/OSF1, AIX.
-If you test this on other systems please let me know.
-
-=head2 Tags
-
-Image tags contain meta-data about the image, ie. information not
-stored as pixels of the image.
-
-At the perl level each tag has a name or code and a value, which is an
-integer or an arbitrary string. An image can contain more than one
-tag with the same name or code.
-
-You can retrieve tags from an image using the tags() method, you can
-get all of the tags in an image, as a list of array references, with
-the code or name of the tag followed by the value of the tag:
-
- my @alltags = $img->tags;
-
-or you can get all tags that have a given name:
-
- my @namedtags = $img->tags(name=>$name);
-
-or a given code:
-
- my @tags = $img->tags(code=>$code);
-
-You can add tags using the addtag() method, either by name:
-
- my $index = $img->addtag(name=>$name, value=>$value);
-
-or by code:
-
- my $index = $img->addtag(code=>$code, value=>$value);
-
-You can remove tags with the deltag() method, either by index:
-
- $img->deltag(index=>$index);
-
-or by name:
-
- $img->deltag(name=>$name);
-
-or by code:
-
- $img->deltag(code=>$code);
-
-In each case deltag() returns the number of tags deleted.
-
-When you read a GIF image using read_multi(), each image can include
-the following tags:
-
-=over
-
-=item gif_left
-
-the offset of the image from the left of the "screen" ("Image Left
-Position")
-
-=item gif_top
-
-the offset of the image from the top of the "screen" ("Image Top Position")
-
-=item gif_interlace
-
-non-zero if the image was interlaced ("Interlace Flag")
-
-=item gif_screen_width
-
-=item gif_screen_height
-
-the size of the logical screen ("Logical Screen Width",
-"Logical Screen Height")
-
-=item gif_local_map
-
-Non-zero if this image had a local color map.
-
-=item gif_background
-
-The index in the global colormap of the logical screen's background
-color. This is only set if the current image uses the global
-colormap.
-
-=item gif_trans_index
-
-The index of the color in the colormap used for transparency. If the
-image has a transparency then it is returned as a 4 channel image with
-the alpha set to zero in this palette entry. ("Transparent Color Index")
-
-=item gif_delay
-
-The delay until the next frame is displayed, in 1/100 of a second.
-("Delay Time").
-
-=item gif_user_input
-
-whether or not a user input is expected before continuing (view dependent)
-("User Input Flag").
-
-=item gif_disposal
-
-how the next frame is displayed ("Disposal Method")
-
-=item gif_loop
-
-the number of loops from the Netscape Loop extension. This may be zero.
-
-=item gif_comment
-
-the first block of the first gif comment before each image.
-
-=back
-
-Where applicable, the ("name") is the name of that field from the GIF89
-standard.
-
-The following tags are set in a TIFF image when read, and can be set
-to control output:
-
-=over
-
-=item tiff_resolutionunit
-
-The value of the ResolutionUnit tag. This is ignored on writing if
-the i_aspect_only tag is non-zero.
-
-=back
-
-The following tags are set when reading a Windows BMP file is read:
-
-=over
-
-=item bmp_compression
-
-The type of compression, if any.
-
-=item bmp_important_colors
-
-The number of important colors as defined by the writer of the image.
-
-=back
-
-Some standard tags will be implemented as time goes by:
-
-=over
-
-=item i_xres
-
-=item i_yres
-
-The spatial resolution of the image in pixels per inch. If the image
-format uses a different scale, eg. pixels per meter, then this value
-is converted. A floating point number stored as a string.
-
-=item i_aspect_only
-
-If this is non-zero then the values in i_xres and i_yres are treated
-as a ratio only. If the image format does not support aspect ratios
-then this is scaled so the smaller value is 72dpi.
-
-=back
-
-=head1 BUGS
-
-box, arc, circle do not support antialiasing yet. arc, is only filled
-as of yet. Some routines do not return $self where they should. This
-affects code like this, C<$img-E<gt>box()-E<gt>arc()> where an object
-is expected.
-
-When saving Gif images the program does NOT try to shave of extra
-colors if it is possible. If you specify 128 colors and there are
-only 2 colors used - it will have a 128 colortable anyway.
-
-=head1 AUTHOR
-
-Arnar M. Hrafnkelsson, addi@umich.edu, and recently lots of assistance
-from Tony Cook. See the README for a complete list.
-
-=head1 SEE ALSO
+perl(1), Imager::ImageTypes(3), Imager::Files(3), Imager::Draw(3),
+Imager::Color(3), Imager::Fill(3), Imager::Font(3),
+Imager::Transformations(3), Imager::Engines(3), Imager::Filters(3),
+Imager::Expr(3), Imager::Matrix2d(3), Imager::Fountain(3)
-perl(1), Imager::Color(3), Imager::Font(3), Imager::Matrix2d(3),
-Affix::Infix2Postfix(3), Parse::RecDescent(3)
-http://www.eecs.umich.edu/~addi/perl/Imager/
+Affix::Infix2Postfix(3), Parse::RecDescent(3)
+http://imager.perl.org/~addi/perl/Imager/
=cut
projects / imager.git / blobdiff