mightyscape-1.1-deprecated/extensions/svgwrite/shapes.py

#!/usr/bin/env python
#coding:utf-8
# Author:  mozman <me@mozman.at>
# Purpose: svg shapes
# Created: 08.09.2010
# Copyright (C) 2010, Manfred Moitzi
# License: MIT License

from svgwrite.base import BaseElement
from svgwrite.mixins import Presentation, Markers, Transform


class Line(BaseElement, Transform, Presentation, Markers):
    """ The **line** element defines a line segment that starts at one point
    and ends at another.
    """
    elementname = 'line'

    def __init__(self, start=(0, 0), end=(0, 0), **extra):
        """
        :param 2-tuple start: start point (**x1**, **y1**)
        :param 2-tuple end: end point (**x2**, **y2**)
        :param extra: additional SVG attributs as keyword-arguments

        """
        super(Line, self).__init__(**extra)
        x1, y1 = start
        x2, y2 = end
        self['x1'] = x1
        self['y1'] = y1
        self['x2'] = x2
        self['y2'] = y2


class Rect(BaseElement, Transform, Presentation):
    """ The **rect** element defines a rectangle which is axis-aligned with the current
    user coordinate system. Rounded rectangles can be achieved by setting appropriate
    values for attributes **rx** and **ry**.
    """
    elementname = 'rect'

    def __init__(self, insert=(0, 0), size=(1, 1), rx=None, ry=None, **extra):
        """
        :param 2-tuple insert: insert point (**x**, **y**), left-upper point
        :param 2-tuple size: (**width**, **height**)
        :param <length> rx: corner x-radius
        :param <length> ry: corner y-radius
        :param extra: additional SVG attributs as keyword-arguments

        """
        super(Rect, self).__init__(**extra)
        x, y = insert
        width, height = size
        self['x'] = x
        self['y'] = y
        self['width'] = width
        self['height'] = height
        if rx is not None:
            self['rx'] = rx
        if ry is not None:
            self['ry'] = ry


class Circle(BaseElement, Transform, Presentation):
    """ The **circle** element defines a circle based on a center point and a radius.
    """
    elementname = 'circle'

    def __init__(self, center=(0, 0), r=1, **extra):
        """
        :param 2-tuple center: circle center point (**cx**, **cy**)
        :param length r: circle-radius **r**
        :param extra: additional SVG attributs as keyword-arguments

        """
        super(Circle, self).__init__(**extra)
        cx, cy = center
        self['cx'] = cx
        self['cy'] = cy
        self['r'] = r


class Ellipse(BaseElement, Transform, Presentation):
    """ The **ellipse** element defines an ellipse which is axis-aligned with the
    current user coordinate system based on a center point and two radii.
    """
    elementname = 'ellipse'

    def __init__(self, center=(0, 0), r=(1, 1), **extra):
        """
        :param 2-tuple center: ellipse center point (**cx**, **cy**)
        :param 2-tuple r: ellipse radii (**rx**, **ry**)
        :param extra: additional SVG attributs as keyword-arguments

        """
        super(Ellipse, self).__init__(**extra)
        cx, cy = center
        rx, ry = r
        self['cx'] = cx
        self['cy'] = cy
        self['rx'] = rx
        self['ry'] = ry


class Polyline(BaseElement, Transform, Presentation, Markers):
    """ The **polyline** element defines a set of connected straight line
    segments. Typically, **polyline** elements define open shapes.
    """
    elementname = 'polyline'

    def __init__(self, points=[], **extra):
        """
        :param `iterable` points: `iterable` of points (points are `2-tuples`)
        :param extra: additional SVG attributs as keyword-arguments

        """
        super(Polyline, self).__init__(**extra)
        self.points = list(points)
        if self.debug:
            for point in self.points:
                x, y = point
                self.validator.check_svg_type(x, 'number')
                self.validator.check_svg_type(y, 'number')

    def get_xml(self):
        self.attribs['points'] = self.points_to_string(self.points)
        return super(Polyline, self).get_xml()

    def points_to_string(self, points):
        """
        Convert a `list` of points `2-tuples` to a `string` ``'p1x,p1y p2x,p2y ...'``.

        """
        strings = []
        for point in points:
            if len(point) != 2:
                raise TypeError('got %s values, but expected 2 values.' % len(point))
            x, y = point
            if self.debug:
                self.validator.check_svg_type(x, 'coordinate')
                self.validator.check_svg_type(y, 'coordinate')
            if self.profile == 'tiny':
                if isinstance(x, float):
                    x = round(x, 4)
                if isinstance(y, float):
                    y = round(y, 4)
            point = "%s,%s" % (x, y)
            strings.append(point)
        return ' '.join(strings)


class Polygon(Polyline):
    """ The **polygon** element defines a closed shape consisting of a set of
    connected straight line segments.

    Same as :class:`~svgwrite.shapes.Polyline` but closed.
    """
    elementname = 'polygon'
Initial commit 2020-07-30 01:16:18 +02:00			`#!/usr/bin/env python`
			`#coding:utf-8`
			`# Author: mozman <me@mozman.at>`
			`# Purpose: svg shapes`
			`# Created: 08.09.2010`
			`# Copyright (C) 2010, Manfred Moitzi`
			`# License: MIT License`

			`from svgwrite.base import BaseElement`
			`from svgwrite.mixins import Presentation, Markers, Transform`


			`class Line(BaseElement, Transform, Presentation, Markers):`
			`""" The line element defines a line segment that starts at one point`
			`and ends at another.`
			`"""`
			`elementname = 'line'`

			`def __init__(self, start=(0, 0), end=(0, 0), **extra):`
			`"""`
			`:param 2-tuple start: start point (x1, y1)`
			`:param 2-tuple end: end point (x2, y2)`
			`:param extra: additional SVG attributs as keyword-arguments`

			`"""`
			`super(Line, self).__init__(**extra)`
			`x1, y1 = start`
			`x2, y2 = end`
			`self['x1'] = x1`
			`self['y1'] = y1`
			`self['x2'] = x2`
			`self['y2'] = y2`


			`class Rect(BaseElement, Transform, Presentation):`
			`""" The rect element defines a rectangle which is axis-aligned with the current`
			`user coordinate system. Rounded rectangles can be achieved by setting appropriate`
			`values for attributes rx and ry.`
			`"""`
			`elementname = 'rect'`

			`def __init__(self, insert=(0, 0), size=(1, 1), rx=None, ry=None, **extra):`
			`"""`
			`:param 2-tuple insert: insert point (x, y), left-upper point`
			`:param 2-tuple size: (width, height)`
			`:param <length> rx: corner x-radius`
			`:param <length> ry: corner y-radius`
			`:param extra: additional SVG attributs as keyword-arguments`

			`"""`
			`super(Rect, self).__init__(**extra)`
			`x, y = insert`
			`width, height = size`
			`self['x'] = x`
			`self['y'] = y`
			`self['width'] = width`
			`self['height'] = height`
			`if rx is not None:`
			`self['rx'] = rx`
			`if ry is not None:`
			`self['ry'] = ry`


			`class Circle(BaseElement, Transform, Presentation):`
			`""" The circle element defines a circle based on a center point and a radius.`
			`"""`
			`elementname = 'circle'`

			`def __init__(self, center=(0, 0), r=1, **extra):`
			`"""`
			`:param 2-tuple center: circle center point (cx, cy)`
			`:param length r: circle-radius r`
			`:param extra: additional SVG attributs as keyword-arguments`

			`"""`
			`super(Circle, self).__init__(**extra)`
			`cx, cy = center`
			`self['cx'] = cx`
			`self['cy'] = cy`
			`self['r'] = r`


			`class Ellipse(BaseElement, Transform, Presentation):`
			`""" The ellipse element defines an ellipse which is axis-aligned with the`
			`current user coordinate system based on a center point and two radii.`
			`"""`
			`elementname = 'ellipse'`

			`def __init__(self, center=(0, 0), r=(1, 1), **extra):`
			`"""`
			`:param 2-tuple center: ellipse center point (cx, cy)`
			`:param 2-tuple r: ellipse radii (rx, ry)`
			`:param extra: additional SVG attributs as keyword-arguments`

			`"""`
			`super(Ellipse, self).__init__(**extra)`
			`cx, cy = center`
			`rx, ry = r`
			`self['cx'] = cx`
			`self['cy'] = cy`
			`self['rx'] = rx`
			`self['ry'] = ry`


			`class Polyline(BaseElement, Transform, Presentation, Markers):`
			`""" The polyline element defines a set of connected straight line`
			`segments. Typically, polyline elements define open shapes.`
			`"""`
			`elementname = 'polyline'`

			`def __init__(self, points=[], **extra):`
			`"""`
			:param `iterable` points: `iterable` of points (points are `2-tuples`)
			`:param extra: additional SVG attributs as keyword-arguments`

			`"""`
			`super(Polyline, self).__init__(**extra)`
			`self.points = list(points)`
			`if self.debug:`
			`for point in self.points:`
			`x, y = point`
			`self.validator.check_svg_type(x, 'number')`
			`self.validator.check_svg_type(y, 'number')`

			`def get_xml(self):`
			`self.attribs['points'] = self.points_to_string(self.points)`
			`return super(Polyline, self).get_xml()`

			`def points_to_string(self, points):`
			`"""`
			Convert a `list` of points `2-tuples` to a `string` ``'p1x,p1y p2x,p2y ...'``.

			`"""`
			`strings = []`
			`for point in points:`
			`if len(point) != 2:`
			`raise TypeError('got %s values, but expected 2 values.' % len(point))`
			`x, y = point`
			`if self.debug:`
			`self.validator.check_svg_type(x, 'coordinate')`
			`self.validator.check_svg_type(y, 'coordinate')`
			`if self.profile == 'tiny':`
			`if isinstance(x, float):`
			`x = round(x, 4)`
			`if isinstance(y, float):`
			`y = round(y, 4)`
			`point = "%s,%s" % (x, y)`
			`strings.append(point)`
			`return ' '.join(strings)`


			`class Polygon(Polyline):`
			`""" The polygon element defines a closed shape consisting of a set of`
			`connected straight line segments.`

			Same as :class:`~svgwrite.shapes.Polyline` but closed.
			`"""`
			`elementname = 'polygon'`