NAME
SVG - Perl extension for generating Scalable Vector Graphics (SVG) documents
VERSION
Version 2.25 (22.07.02)
SYNOPSIS
#!/usr/bin/perl -w
use strict;
use SVG;
# create an SVG object
my $svg= SVG->new(width=>200,height=>200);
# use explicit element constructor to generate a group element
my $y=$svg->group(
id => 'group_y',
style => { stroke=>'red', fill=>'green' }
);
# add a circle to the group
$y->circle(cx=>100, cy=>100, r=>50, id=>'circle_in_group_y');
# or, use the generic 'tag' method to generate a group element by name
my $z=$svg->tag('g',
id => 'group_z',
style => {
stroke => 'rgb(100,200,50)',
fill => 'rgb(10,100,150)'
}
);
# create and add a circle using the generic 'tag' method
$z->tag('circle', cx=>50, cy=>50, r=>100, id=>'circle_in_group_z');
# create an anchor on a rectangle within a group within the group z
my $k = $z->anchor(
id => 'anchor_k',
-href => 'http://test.hackmare.com/',
-target => 'new_window_0'
)->rectangle(
x => 20, y => 50,
width => 20, height => 30,
rx => 10, ry => 5,
id => 'rect_k_in_anchor_k_in_group_z'
);
# now render the SVG object, implicitly use svg namespace
print $svg->xmlify;
# or render a child node of the SVG object without rendering the entire object
print $k->xmlify; #renders the anchor $k above containing a rectangle, but does not
#render any of the ancestor nodes of $k
# or, explicitly use svg namespace and generate a document with its own DTD
print $svg->xmlify(-namespace=>'svg');
# or, explicitly use svg namespace and generate an in-line docunent
print $svg->xmlify(
-namespace => "svg",
-pubid => "-//W3C//DTD SVG 1.0//EN",
-inline => 1
);
DESCRIPTION
SVG is a 100% Perl module which generates a nested data structure containing the DOM representation of an SVG (Scalable Vector Graphics) image. Using SVG, you can generate SVG objects, embed other SVG instances into it, access the DOM object, create and access javascript, and generate SMIL animation content. On a 500MHz Linux RH7 machine with 256K RAM, SVG.pm exceeds 12,000 elements per second.
General Steps to generating an SVG document
Generating SVG is a simple three step process:
- 1 The first step is to construct a new SVG object with "new".
- 2 The second step is to call element constructors to create SVG elements. Examples of element constructors are "circle" and "path".
- 3 The third and last step is to render the SVG object into XML using the "xmlify" method.
The "xmlify" method takes a number of optional arguments that control how SVG renders the object into XML, and in particular determine whether a stand-alone SVG document or an inline SVG document fragment is generated:
- -stand-alone
-
A complete SVG document with its own associated DTD. A namespace for the SVG elements may be optionally specified.
- -in-line
-
An in-line SVG document fragment with no DTD that be embedded within other XML content. As with stand-alone documents, an alternate namespace may be specified.
No XML content is generated until the third step is reached. Up until this point, all constructed element definitions reside in a DOM-like data structure from which they can be accessed and modified.
EXPORTS
None. However, SVG permits both options and additional element methods to be specified in the import list. These options and elements are then available for all SVG instances that are created with the "new" constructor. For example, to change the indent string to two spaces per level:
use SVG qw(-indent => " ");
With the exception of -auto, all options may also be specified to the "new" constructor. The currently supported options are:
-auto enable autoloading of all unrecognised method calls (0)
-indent the indent to use when rendering the SVG into XML ("\t"). This is best left to the xmlify method
-elsept the separation between elements ("\n"). This is best left to the xmlify method
-dtd the name of the DTD you wish to use for this document.
-inline whether the SVG is to be standalone or inlined (0)
-printerror print SVG generation errors to standard error (1)
-raiseerror die if a generation error is encountered (1)
-nostub only return the handle to a blank SVG document without any elements
SVG also allows additional element generation methods to be specified in the import list. For example to generate 'star' and 'planet' element methods:
use SVG qw(star planet);
or:
use SVG ("star","planet");
This will add 'star' to the list of elements supported by SVG.pm (but not of course other SVG parsers...). Alternatively the '-auto' option will allow any unknown method call to generate an element of the same name:
use SVG (-auto => 1, "star", "planet");
Any elements specified explicitly (as 'star' and 'planet' are here) are predeclared; other elements are defined as and when they are seen by Perl. Note that enabling '-auto' effectively disables compile-time syntax checking for valid method names.
Example:
use SVG (
-auto => 0,
-indent => " ",
-raiserror => 0,
-printerror => 1,
"star", "planet", "moon"
);
SEE ALSO
perl(1), L<SVG::XML>, L<SVG::Element>, L<SVG::DOM>, L<SVG::Parser>
http://roasp.com/
http://www.w3c.org/Graphics/SVG/
AUTHOR
Ronan Oger, RO IT Systemms GmbH, ronan@roasp.com
CREDITS
Peter Wainwright, peter@roasp.com Excellent ideas, beta-testing, SVG::Parser
EXAMPLES
http://roasp.com/
See also the examples directory in this distribution which contain several fully documented examples.
WINDOWS DISTRIBUTION
http://roasp.com/ppm/
METHODS
SVG provides both explicit and generic element constructor methods. Explicit generators are generally (with a few exceptions) named for the element they generate. If a tag method is required for a tag containing hyphens, the method name replaces the hyphen with an underscore. ie: to generate tag <column-heading id="new"> you would use method $svg->column_heading(id=>'new').
All element constructors take a hash of element attributes and options; element attributes such as 'id' or 'border' are passed by name, while options for the method (such as the type of an element that supports multiple alternate forms) are passed preceded by a hyphen, e.g '-type'. Both types may be freely intermixed; see the "fe" method and code examples througout the documentation for more examples.
new (constructor)
$svg = SVG->new(%attributes)
Creates a new SVG object. Attributes of the document SVG element be passed as an optional list of key value pairs. Additionally, SVG options (prefixed with a hyphen) may be set on a per object basis:
Example:
my $svg1=new SVG;
my $svg2=new SVG(id => 'document_element');
my $svg3=new SVG(s
-printerror => 1,
-raiseerror => 0,
-indent => ' ',
-docroot => 'svg', #default document root element (SVG specification assumes svg). Defaults to 'svg' if undefined
-sysid => 'abc', #optional system identifyer
-pubid => "-//W3C//DTD SVG 1.0//EN", #public identifyer default value is "-//W3C//DTD SVG 1.0//EN" if undefined
-namespace => 'mysvg',
-inline => 1,
-dtd => 'http://www.w3.org/TR/2001/REC-SVG-20010904/DTD/svg10.dtd', #the dtd you want to use (this is the default one)
-elsep => "\n", #the separation between elements (New line in this case)
id => 'document_element',
width => 300,
height => 200,
);
Default SVG options may also be set in the import list. See "EXPORTS" above for more on the available options.
Furthermore, the following options:
-version
-encoding
-standalone
-namespace Defines the document or element level namespace. The order of assignment priority is element,document .
-inline
-identifier
-nostub
-elsep
may also be set in xmlify, overriding any corresponding values set in the SVG->new declaration
xmlify (alias: to_xml render)
$string = $svg->xmlify(%attributes);
Returns xml representation of svg document.
XML Declaration
Name Default Value
-version '1.0'
-encoding 'UTF-8'
-standalone 'yes'
-namespace 'svg' - namespace for elements
-inline '0' - If '1', then this is an inline document.
-pubid '-//W3C//DTD SVG 1.0//EN';
-dtd (standalone) 'http://www.w3.org/TR/2001/REC-SVG-20010904/DTD/svg10.dtd'
tag (alias: element)
$tag = $svg->tag($name, %attributes)
Generic element generator. Creates the element named $name with the attributes specified in %attributes. This method is the basis of most of the explicit element generators.
Example:
my $tag = $svg->tag('g', transform=>'rotate(-45)');
anchor
$tag = $svg->anchor(%attributes)
Generate an anchor element. Anchors are put around objects to make them 'live' (i.e. clickable). It therefore requires a drawn object or group element as a child.
Example:
# generate an anchor
$tag = $svg->anchor(
-href=>'http://here.com/some/simpler/svg.svg'
);
# add a circle to the anchor. The circle can be clicked on.
$tag->circle(cx=>10,cy=>10,r=>1);
# more complex anchor with both URL and target
$tag = $svg->anchor(
-href => 'http://somewhere.org/some/other/page.html',
-target => 'new_window'
);
circle
$tag = $svg->circle(%attributes)
Draw a circle at (cx,cy) with radius r.
Example:
my $tag = $svg->circle(cx=>4, cy=>2, r=>1);
ellipse
$tag = $svg->ellipse(%attributes)
Draw an ellipse at (cx,cy) with radii rx,ry.
Example:
my $tag = $svg->ellipse(
cx=>10, cy=>10,
rx=>5, ry=>7,
id=>'ellipse',
style=>{
'stroke'=>'red',
'fill'=>'green',
'stroke-width'=>'4',
'stroke-opacity'=>'0.5',
'fill-opacity'=>'0.2'
}
);
rectangle (alias: rect)
$tag = $svg->rectangle(%attributes)
Draw a rectangle at (x,y) with width 'width' and height 'height' and side radii 'rx' and 'ry'.
Example:
$tag = $svg->rectangle(
x=>10, y=>20,
width=>4, height=>5,
rx=>5.2, ry=>2.4,
id=>'rect_1'
);
image
$tag = $svg->image(%attributes)
Draw an image at (x,y) with width 'width' and height 'height' linked to image resource '-href'. See also "use".
Example:
$tag = $svg->image(
x=>100, y=>100,
width=>300, height=>200,
'-href'=>"image.png", #may also embed SVG, e.g. "image.svg"
id=>'image_1'
);
Output:
<image xlink:href="image.png" x="100" y="100" width="300" height="200"/>
use
$tag = $svg->use(%attributes)
Retrieve the content from an entity within an SVG document and apply it at (x,y) with width 'width' and height 'height' linked to image resource '-href'.
Example:
$tag = $svg->use(
x=>100, y=>100,
width=>300, height=>200,
'-href'=>"pic.svg#image_1",
id=>'image_1'
);
Output:
<use xlink:href="pic.svg#image_1" x="100" y="100" width="300" height="200"/>
According to the SVG specification, the 'use' element in SVG can point to a single element within an external SVG file.
polygon
$tag = $svg->polygon(%attributes)
Draw an n-sided polygon with vertices at points defined by a string of the form 'x1,y1,x2,y2,x3,y3,... xy,yn'. The "get_path" method is provided as a convenience to generate a suitable string from coordinate data.
Example:
# a five-sided polygon
my $xv = [0,2,4,5,1];
my $yv = [0,0,2,7,5];
$points = $a->get_path(
x=>$xv, y=>$yv,
-type=>'polygon'
);
$c = $a->polygon(
%$points,
id=>'pgon1',
style=>\%polygon_style
);
SEE ALSO:
"polyline", "path", "get_path".
polyline
$tag = $svg->polyline(%attributes)
Draw an n-point polyline with points defined by a string of the form 'x1,y1,x2,y2,x3,y3,... xy,yn'. The "get_path" method is provided as a convenience to generate a suitable string from coordinate data.
Example:
# a 10-pointsaw-tooth pattern
my $xv = [0,1,2,3,4,5,6,7,8,9];
my $yv = [0,1,0,1,0,1,0,1,0,1];
$points = $a->get_path(
x=>$xv, y=>$yv,
-type=>'polyline',
-closed=>'true' #specify that the polyline is closed.
);
my $tag = $a->polyline (
%$points,
id=>'pline_1',
style=>{
'fill-opacity'=>0,
'stroke-color'=>'rgb(250,123,23)'
}
);
line
$tag = $svg->line(%attributes)
Draw a straight line between two points (x1,y1) and (x2,y2).
Example:
my $tag = $svg->line(
id=>'l1',
x1=>0, y1=>10,
x2=>10, y2=>0
);
To draw multiple connected lines, use "polyline".
text
$text = $svg->text(%attributes)->cdata();
$text_path = $svg->text(-type=>'path'); $text_span = $text_path->text(-type=>'span')->cdata('A'); $text_span = $text_path->text(-type=>'span')->cdata('B'); $text_span = $text_path->text(-type=>'span')->cdata('C');
define the container for a text string to be drawn in the image.
Input: -type = path type (path | polyline | polygon) -type = text element type (path | span | normal [default])
Example:
my $text1 = $svg->text(
id=>'l1', x=>10, y=>10
)->cdata('hello, world');
my $text2 = $svg->text(
id=>'l1', x=>10, y=>10, -cdata=>'hello, world');
my $text = $svg->text(
id=>'tp', x=>10, y=>10 -type=>path)
->text(id=>'ts' -type=>'span')
->cdata('hello, world');
SEE ALSO:
L<"desc">, L<"cdata">.
title
$tag = $svg->title(%attributes)
Generate the title of the image.
Example:
my $tag = $svg->title(id=>'document-title')->cdata('This is the title');
desc
$tag = $svg->desc(%attributes)
Generate the description of the image.
Example:
my $tag = $svg->desc(id=>'document-desc')->cdata('This is a description');
comment
$tag = $svg->comment(@comments)
Generate the description of the image.
Example:
my $tag = $svg->comment('comment 1','comment 2','comment 3');
pi (Processing Instruction)
$tag = $svg->pi(@pi)
Generate a set of processing instructions
Example:
my $tag = $svg->pi('instruction one','instruction two','instruction three');
returns:
<lt>?instruction one?<gt>
<lt>?instruction two?<gt>
<lt>?instruction three?<gt>
script
$tag = $svg->script(%attributes)
Generate a script container for dynamic (client-side) scripting using ECMAscript, Javascript or other compatible scripting language.
Example:
my $tag = $svg->script(-type=>"text/ecmascript");
# populate the script tag with cdata
# be careful to manage the javascript line ends.
# qq|text| or qq§text§ where text is the script
# works well for this.
$tag->cdata(qq|function d(){
//simple display function
for(cnt = 0; cnt < d.length; cnt++)
document.write(d[cnt]);//end for loop
document.write("<BR>");//write a line break
}|
);
path
$tag = $svg->path(%attributes)
Draw a path element. The path vertices may be imputed as a parameter or calculated usingthe "get_path" method.
Example:
# a 10-pointsaw-tooth pattern drawn with a path definition
my $xv = [0,1,2,3,4,5,6,7,8,9];
my $yv = [0,1,0,1,0,1,0,1,0,1];
$points = $a->get_path(
x => $xv,
y => $yv,
-type => 'path',
-closed => 'true' #specify that the polyline is closed
);
$tag = $svg->path(
%$points,
id => 'pline_1',
style => {
'fill-opacity' => 0,
'fill-color' => 'green',
'stroke-color' => 'rgb(250,123,23)'
}
);
SEE ALSO:
get_path
$path = $svg->get_path(%attributes)
Returns the text string of points correctly formatted to be incorporated into the multi-point SVG drawing object definitions (path, polyline, polygon)
Input: attributes including:
-type = path type (path | polyline | polygon)
x = reference to array of x coordinates
y = reference to array of y coordinates
Output: a hash reference consisting of the following key-value pair:
points = the appropriate points-definition string
-type = path|polygon|polyline
-relative = 1 (define relative position rather than absolute position)
-closed = 1 (close the curve - path and polygon only)
Example:
#generate an open path definition for a path.
my ($points,$p);
$points = $svg->get_path(x=>\@x,y=>\@y,-relative=>1,-type=>'path');
#add the path to the SVG document
my $p = $svg->path(%$path, style=>\%style_definition);
#generate an closed path definition for a a polyline.
$points = $svg->get_path(
x=>\@x,
y=>\@y,
-relative=>1,
-type=>'polyline',
-closed=>1
); # generate a closed path definition for a polyline
# add the polyline to the SVG document
$p = $svg->polyline(%$points, id=>'pline1');
Aliases: get_path set_path
animate
$tag = $svg->animate(%attributes)
Generate an SMIL animation tag. This is allowed within any nonempty tag. Refer\ to the W3C for detailed information on the subtleties of the animate SMIL commands.
Inputs: -method = Transform | Motion | Color
my $an_ellipse = $svg->ellipse(
cx=>30,cy=>150,rx=>10,ry=>10,id=>'an_ellipse',
stroke=>'rgb(130,220,70)',fill=>'rgb(30,20,50)');
$an_ellipse-> animate(
attributeName=>"cx",values=>"20; 200; 20",dur=>"10s", repeatDur=>'indefinite');
$an_ellipse-> animate(
attributeName=>"rx",values=>"10;30;20;100;50",
dur=>"10s", repeatDur=>'indefinite');
$an_ellipse-> animate(
attributeName=>"ry",values=>"30;50;10;20;70;150",
dur=>"15s", repeatDur=>'indefinite');
$an_ellipse-> animate(
attributeName=>"rx",values=>"30;75;10;100;20;20;150",
dur=>"20s", repeatDur=>'indefinite');
$an_ellipse-> animate(
attributeName=>"fill",values=>"red;green;blue;cyan;yellow",
dur=>"5s", repeatDur=>'indefinite');
$an_ellipse-> animate(
attributeName=>"fill-opacity",values=>"0;1;0.5;0.75;1",
dur=>"20s",repeatDur=>'indefinite');
$an_ellipse-> animate(
attributeName=>"stroke-width",values=>"1;3;2;10;5",
dur=>"20s",repeatDur=>'indefinite');
group
$tag = $svg->group(%attributes)
Define a group of objects with common properties. groups can have style, animation, filters, transformations, and mouse actions assigned to them.
Example:
$tag = $svg->group(
id => 'xvs000248',
style => {
'font' => [ qw( Arial Helvetica sans ) ],
'font-size' => 10,
'fill' => 'red',
},
transform => 'rotate(-45)'
);
defs
$tag = $svg->defs(%attributes)
define a definition segment. A Defs requires children when defined using SVG.pm Example:
$tag = $svg->defs(id => 'def_con_one',);
style
$svg->tag('style', %styledef);
Sets/Adds style-definition for the following objects being created.
Style definitions apply to an object and all its children for all properties for which the value of the property is not redefined by the child.
mouseaction
$svg->mouseaction(%attributes)
Sets/Adds mouse action definitions for tag
$svg->attrib($name, $value)
Sets/Adds mouse action definitions.
$svg->attrib $name, $value
$svg->attrib $name, \@value
$svg->attrib $name, \%value
Sets/Replaces attributes for a tag.
cdata
$svg->cdata($text)
Sets cdata to $text. SVG.pm allows you to set cdata for any tag. If the tag is meant to be an empty tag, SVG.pm will not complain, but the rendering agent will fail. In the SVG DTD, cdata is generally only meant for adding text or script content.
Example:
$svg->text(
style => {
'font' => 'Arial',
'font-size' => 20
})->cdata('SVG.pm is a perl module on CPAN!');
my $text = $svg->text(style=>{'font'=>'Arial','font-size'=>20});
$text->cdata('SVG.pm is a perl module on CPAN!');
Result:
E<lt>text style="font: Arial; font-size: 20" E<gt>SVG.pm is a perl module on CPAN!E<lt>/text E<gt>
SEE ALSO:
L<"CDATA"> L<"desc">, L<"title">, L<"text">, L<"script">.
CDATA
$script = $svg->script();
$script->CDATA($text);
Generates a <![CDATA[ ... ]]> tag with the contents of $text rendered exactly as supplied. SVG.pm allows you to set cdata for any tag. If the tag is meant to be an empty tag, SVG.pm will not complain, but the rendering agent will fail. In the SVG DTD, cdata is generally only meant for adding text or script content.
Example:
my $text = qq§
var SVGDoc;
var groups = new Array();
var last_group;
/*****
*
* init
*
* Find this SVG's document element
* Define members of each group by id
*
*****/
function init(e) {
SVGDoc = e.getTarget().getOwnerDocument();
append_group(1, 4, 6); // group 0
append_group(5, 4, 3); // group 1
append_group(2, 3); // group 2
}§;
$svg->script()->CDATA($text);
Result:
E<lt>script E<gt>
<gt>![CDATA[
var SVGDoc;
var groups = new Array();
var last_group;
/*****
*
* init
*
* Find this SVG's document element
* Define members of each group by id
*
*****/
function init(e) {
SVGDoc = e.getTarget().getOwnerDocument();
append_group(1, 4, 6); // group 0
append_group(5, 4, 3); // group 1
append_group(2, 3); // group 2
}
]]E<gt>
SEE ALSO:
L<"cdata">, L<"script">.
filter
$tag = $svg->filter(%attributes)
Generate a filter. Filter elements contain "fe" filter sub-elements.
Example:
my $filter = $svg->filter(
filterUnits=>"objectBoundingBox",
x=>"-10%",
y=>"-10%",
width=>"150%",
height=>"150%",
filterUnits=>'objectBoundingBox'
);
$filter->fe();
SEE ALSO:
"fe".
fe
$tag = $svg->fe(-type=>'type', %attributes)
Generate a filter sub-element. Must be a child of a "filter" element.
Example:
my $fe = $svg->fe(
-type => 'DiffuseLighting' # required - element name omiting 'fe'
id => 'filter_1',
style => {
'font' => [ qw(Arial Helvetica sans) ],
'font-size' => 10,
'fill' => 'red',
},
transform => 'rotate(-45)'
);
Note that the following filter elements are currently supported:
feBlend
feColorMatrix
feComponentTransfer
feComposite
feConvolveMatrix
feDiffuseLighting
feDisplacementMap
feDistantLight
feFlood
feFuncA
feFuncB
feFuncG
feFuncR
feGaussianBlur
feImage
feMerge
feMergeNode
feMorphology
feOffset
fePointLight
feSpecularLighting
feSpotLight
feTile
feTurbulence
SEE ALSO:
pattern
$tag = $svg->pattern(%attributes)
Define a pattern for later reference by url.
Example:
my $pattern = $svg->pattern(
id => "Argyle_1",
width => "50",
height => "50",
patternUnits => "userSpaceOnUse",
patternContentUnits => "userSpaceOnUse"
);
set
$tag = $svg->set(%attributes)
Set a definition for an SVG object in one section, to be referenced in other sections as needed.
Example:
my $set = $svg->set(
id => "Argyle_1",
width => "50",
height => "50",
patternUnits => "userSpaceOnUse",
patternContentUnits => "userSpaceOnUse"
);
stop
$tag = $svg->stop(%attributes)
Define a stop boundary for "gradient"
Example:
my $pattern = $svg->stop(
id => "Argyle_1",
width => "50",
height => "50",
patternUnits => "userSpaceOnUse",
patternContentUnits => "userSpaceOnUse"
);
$tag = $svg->gradient(%attributes)
Define a color gradient. Can be of type linear or radial
Example:
my $gradient = $svg->gradient(
-type => "linear",
id => "gradient_1"
);
GENERIC ELEMENT METHODS
The following elements are generically supported by SVG:
altGlyph
altGlyphDef
altGlyphItem
clipPath
color-profile
cursor
definition-src
font-face-format
font-face-name
font-face-src
font-face-url
foreignObject
glyph
glyphRef
hkern
marker
mask
metadata
missing-glyph
mpath
switch
symbol
tref
view
vkern
See e.g. "pattern" for an example of the use of these methods.
METHODS IMPORTED BY SVG::DOM
The following SVG::DOM elements are accessible through SVG:
getChildren
getFirstChild
getLastChild
getParent
getSiblings
getElementByID
getElementID
getElements
getElementName
getParentElement
getType
getAttributes
getAttribute
flowText (SVG 1.1)
SEE ALSO
perl(1),SVG,SVG::DOM,SVG::XML,SVG::Element,SVG::Parser, SVG::Manual http://www.roasp.com/ http://www.perlsvg.com/ http://www.roitsystems.com/ http://www.w3c.org/Graphics/SVG/
2 POD Errors
The following errors were encountered while parsing the POD:
- Around line 102:
=over should be: '=over' or '=over positive_number'
- Around line 577:
Non-ASCII character seen before =encoding in 'qq§text§'. Assuming CP1252