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#!/usr/bin/env python
#coding:utf-8
# Author: mozman --<mozman@gmx.at>
# Purpose: mixins
# Created: 19.10.2010
# Copyright (C) 2010, Manfred Moitzi
# License: MIT License
from svgwrite.utils import strlist
from svgwrite.utils import is_string
_horiz = {'center': 'xMid', 'left': 'xMin', 'right': 'xMax'}
_vert = {'middle': 'YMid', 'top': 'YMin', 'bottom':'YMax'}
class ViewBox(object):
""" The **ViewBox** mixin provides the ability to specify that a
given set of graphics stretch to fit a particular container element.
The value of the **viewBox** attribute is a list of four numbers
**min-x**, **min-y**, **width** and **height**, separated by whitespace
and/or a comma, which specify a rectangle in **user space** which should
be mapped to the bounds of the viewport established by the given element,
taking into account attribute **preserveAspectRatio**.
"""
def viewbox(self, minx=0, miny=0, width=0, height=0):
""" Specify a rectangle in **user space** (no units allowed) which
should be mapped to the bounds of the viewport established by the
given element.
:param number minx: left border of the viewBox
:param number miny: top border of the viewBox
:param number width: width of the viewBox
:param number height: height of the viewBox
"""
self['viewBox'] = strlist( [minx, miny, width, height] )
def stretch(self):
""" Stretch viewBox in x and y direction to fill viewport, does not
preserve aspect ratio.
"""
self['preserveAspectRatio'] = 'none'
def fit(self, horiz="center", vert="middle", scale="meet"):
""" Set the **preserveAspectRatio** attribute.
:param string horiz: horizontal alignment ``'left | center | right'``
:param string vert: vertical alignment ``'top | middle | bottom'``
:param string scale: scale method ``'meet | slice'``
============= =======================================================
Scale methods Description
============= =======================================================
``'meet'`` preserve aspect ration and zoom to limits of viewBox
``'slice'`` preserve aspect ration and viewBox touch viewport on
all bounds, viewBox will extend beyond the bounds of
the viewport
============= =======================================================
"""
if self.debug and scale not in ('meet', 'slice'):
raise ValueError("Invalid scale parameter '%s'" % scale)
self['preserveAspectRatio'] = "%s%s %s" % (_horiz[horiz],_vert[vert], scale)
class Transform(object):
""" The **Transform** mixin operates on the **transform** attribute.
The value of the **transform** attribute is a `<transform-list>`, which
is defined as a list of transform definitions, which are applied in the
order provided. The individual transform definitions are separated by
whitespace and/or a comma. All coordinates are **user
space coordinates**.
"""
transformname = 'transform'
def translate(self, tx, ty=None):
"""
Specifies a translation by **tx** and **ty**. If **ty** is not provided,
it is assumed to be zero.
:param number tx: user coordinate - no units allowed
:param number ty: user coordinate - no units allowed
"""
self._add_transformation("translate(%s)" % strlist( [tx, ty] ))
def rotate(self, angle, center=None):
"""
Specifies a rotation by **angle** degrees about a given point.
If optional parameter **center** are not supplied, the rotate is
about the origin of the current user coordinate system.
:param number angle: rotate-angle in degrees
:param 2-tuple center: rotate-center as user coordinate - no units allowed
"""
self._add_transformation("rotate(%s)" % strlist( [angle, center] ))
def scale(self, sx, sy=None):
"""
Specifies a scale operation by **sx** and **sy**. If **sy** is not
provided, it is assumed to be equal to **sx**.
:param number sx: scalar factor x-axis, no units allowed
:param number sy: scalar factor y-axis, no units allowed
"""
self._add_transformation("scale(%s)" % strlist([sx, sy]))
def skewX(self, angle):
""" Specifies a skew transformation along the x-axis.
:param number angle: skew-angle in degrees, no units allowed
"""
self._add_transformation("skewX(%s)" % angle)
def skewY(self, angle):
""" Specifies a skew transformation along the y-axis.
:param number angle: skew-angle in degrees, no units allowed
"""
self._add_transformation("skewY(%s)" % angle)
def matrix(self, a, b, c, d, e, f):
self._add_transformation("matrix(%s)" % strlist( [a, b, c, d, e, f] ))
def _add_transformation(self, new_transform):
old_transform = self.attribs.get(self.transformname, '')
self[self.transformname] = ("%s %s" % (old_transform, new_transform)).strip()
class XLink(object):
""" XLink mixin """
def set_href(self, element):
"""
Create a reference to **element**.
:param element: if element is a `string` its the **id** name of the
referenced element, if element is a **BaseElement** class the **id**
SVG Attribute is used to create the reference.
"""
self.href = element
self.update_id()
def set_xlink(self, title=None, show=None, role=None, arcrole=None):
""" Set XLink attributes (for `href` use :meth:`set_href`).
"""
if role is not None:
self['xlink:role'] = role
if arcrole is not None:
self['xlink:arcrole'] = arcrole
if title is not None:
self['xlink:title'] = title
if show is not None:
self['xlink:show'] = show
def update_id(self):
if not hasattr(self, 'href'):
return
if is_string(self.href):
idstr = self.href
else:
idstr = self.href.get_iri()
self.attribs['xlink:href'] = idstr
class Presentation(object):
"""
Helper methods to set presentation attributes.
"""
def fill(self, color=None, rule=None, opacity=None):
"""
Set SVG Properties **fill**, **fill-rule** and **fill-opacity**.
"""
if color is not None:
if is_string(color):
self['fill'] = color
else:
self['fill'] = color.get_paint_server()
if rule is not None:
self['fill-rule'] = rule
if opacity is not None:
self['fill-opacity'] = opacity
return self
def stroke(self, color=None, width=None, opacity=None, linecap=None,
linejoin=None, miterlimit=None):
"""
Set SVG Properties **stroke**, **stroke-width**, **stroke-opacity**,
**stroke-linecap** and **stroke-miterlimit**.
"""
if color is not None:
if is_string(color):
self['stroke'] = color
else:
self['stroke'] = color.get_paint_server()
if width is not None:
self['stroke-width'] = width
if opacity is not None:
self['stroke-opacity'] = opacity
if linecap is not None:
self['stroke-linecap'] = linecap
if linejoin is not None:
self['stroke-linejoin'] = linejoin
if miterlimit is not None:
self['stroke-miterlimit'] = miterlimit
return self
def dasharray(self, dasharray=None, offset=None):
"""
Set SVG Properties **stroke-dashoffset** and **stroke-dasharray**.
Where *dasharray* specify the lengths of alternating dashes and gaps as
<list> of <int> or <float> values or a <string> of comma and/or white
space separated <lengths> or <percentages>. (e.g. as <list> dasharray=[1, 0.5]
or as <string> dasharray='1 0.5')
"""
if dasharray is not None:
self['stroke-dasharray'] = strlist(dasharray, ' ')
if offset is not None:
self['stroke-dashoffset'] = offset
return self
class MediaGroup(object):
"""
Helper methods to set media group attributes.
"""
def viewport_fill(self, color=None, opacity=None):
"""
Set SVG Properties **viewport-fill** and **viewport-fill-opacity**.
"""
if color is not None:
self['viewport-fill'] = color
if opacity is not None:
self['viewport-fill-opacity'] = opacity
return self
class Markers(object):
"""
Helper methods to set marker attributes.
"""
def set_markers(self, markers):
"""
Set markers for line elements (line, polygon, polyline, path) to
values specified by `markers`.
* if `markers` is a 3-tuple:
* attribute 'marker-start' = markers[0]
* attribute 'marker-mid' = markers[1]
* attribute 'marker-end' = markers[2]
* `markers` is a `string` or a `Marker` class:
* attribute 'marker' = `FuncIRI` of markers
"""
def get_funciri(value):
if is_string(value):
# strings has to be a valid reference including the '#'
return 'url(%s)' % value
else:
# else create a reference to the object '#id'
return 'url(#%s)' % value['id']
if is_string(markers):
self['marker'] = get_funciri(markers)
else:
try:
start_marker, mid_marker, end_marker = markers
if start_marker:
self['marker-start'] = get_funciri(start_marker)
if mid_marker:
self['marker-mid'] = get_funciri(mid_marker)
if end_marker:
self['marker-end'] = get_funciri(end_marker)
except (TypeError, KeyError):
self['marker'] = get_funciri(markers)
class Clipping(object):
def clip_rect(self, top='auto', right='auto', bottom='auto', left='auto'):
"""
Set SVG Property **clip**.
"""
self['clip'] = "rect(%s,%s,%s,%s)" % (top, right, bottom, left)
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