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Viewing File: svggraph.py
# coding=utf-8
#
# Copyright © Cloud Linux GmbH & Cloud Linux Software, Inc 2010-2019 All Rights Reserved
#
# Licensed under CLOUD LINUX LICENSE AGREEMENT
# http://cloudlinux.com/docs/LICENSE.TXT
import uuid
import svgwrite
from svgwrite.filters import Filter
from lvestats.lib.chart.util import frange, xfrange, X_LEGEND_POINTS, Y_LEGEND_POINTS
class SvgChart(object):
def __init__(self):
self.dwg = svgwrite.Drawing()
self.padding_y = 20
self.width = 480
self.height = 120
self.left_legend_width = 55
self.graph_offset_y = 0
self._svg_id = 0
self.x_legend_points = X_LEGEND_POINTS
self.y_legend_points = Y_LEGEND_POINTS
self.font_size = 10
self.point_radius = 2
self.dwg.update({'width': self.width + 2 * self.left_legend_width + 40})
defs = self.dwg.defs
# defs.add(self.dwg.style('.line:hover {stroke-width: 5;}'))
# TODO make tips with background
# TODO let tips show and disappear with animate effect
script = """
function show_tip(evt, svg_id, x1, y1, x2, y2, t1, v1, t2, v2){
var rootDocument = evt.target.ownerDocument;
var tip_group = rootDocument.getElementById('tip_group');
var tip_text = rootDocument.getElementById('tip_text');
var tip_rect = rootDocument.getElementById('tip_rect');
var svgDocument = rootDocument.getElementById(svg_id);
var y_offset = parseInt(svgDocument.getAttribute("y"));
var x = evt.layerX;
var y;
var v;
var t;
if (x< x1+((x2-x1)/2)) {
x = x1;
y = y1 + y_offset;
v = v1;
t = t1;
} else {
x = x2;
y = y2 + y_offset;
v = v2;
t = t2;
}
tip_text.firstChild.data = t +', ' + v;
var width = tip_text.getComputedTextLength();
tip_rect.setAttribute("x",x - ((width+10) / 2));
tip_rect.setAttribute("y",y - 25);
tip_rect.setAttribute("width",width + 10);
tip_text.setAttribute("x",x - (width / 2));
tip_text.setAttribute("y",y - 25 + %font_size%);
tip_text.setAttribute("width",width);
tip_group.setAttribute("visibility","visible");
}"""
defs.add(self.dwg.script(content=script.replace('%font_size%', str(self.font_size))))
filters = Filter()
shadow_filter = defs.add(self.dwg.filter(id="shadow", x=0, y=0, width="200%", height="200%"))
shadow_filter.add(filters.feOffset("SourceAlpha", result="offOut", dx=5, dy=5))
shadow_filter.add(filters.feGaussianBlur("offOut", result="blurOut", stdDeviation="10"))
shadow_filter.add(filters.feBlend("SourceGraphic", in2="blurOut", mode="normal"))
def _finalize(self):
tip = self.dwg.add(self.dwg.g(id_='tip_group', visibility='hidden', style='pointer-events: none;'))
tip.add(self.dwg.rect(
id_='tip_rect',
insert=(0, 0),
size=(20, self.font_size * 1.5),
rx=2,
ry=2,
stroke='black',
fill='yellow',
))
tip.add(self.dwg.text('T', id_='tip_text', insert=(0, 0), font_size=self.font_size))
def add_graph(self,
datasets,
colors,
title=None,
minimum_y=None,
maximum_y=None,
x_legend=None,
x_legend_generate=None,
y_legend=None,
y_legend_converter=lambda v: v,
x_legend_converter=lambda v: v,
names=None,
unit=None,
message=None,
fault_lines=None,
fault_color="red"):
"""
:param datasets: list of datasets. each dataset is list of tuples [(x, y), (x, y) ... ]
:param colors: list of html-like color strings, for ex: ['red', 'green', '#FFAAED'], for each of the dataset
:param title: name of the graph
:param minimum_y: minimum value for dataset's values
:param maximum_y: maximum value for dataset's values
:param names: list of dataset names. If provided, then it's used for legend
:param x_legend: if provided then it's used as titles for x axis
:param x_legend_generate: if provided and x_legend is not provided, then using x_legend_converter generate
up to x_legend_generate marks
:param x_legend_converter: function to convert x values to x_legend values.
:param y_legend: if provided then it's used as titles for y axis
:param y_legend_converter: if y_legend is not provided, it is generated from range(min_y, max_y). Converter can
be applied to make it look better. For example sizeutil.convert_bytes
:param unit: if provided, then it's used as suffix for y values
:param message: if provided, the graph will contain the text message in the middle, like "No faults" or
"No data"
:param fault_lines: LVES-602. If provided, the graph will contain vertical lines from average to limit
:param fault_color: LVES-602. Color of the fault lines
:type fault_lines: list[tuple[(float, float)]]
:type fault_color: str
>>> svgchart = SvgChart()
>>> d1 = [(0,1), (1,1.5), (4,2), (5,6), (5.1,6), (5.6,6), (9,3), (10,10)]
>>> d2 = [(0,0), (1.5,1.5), (2,2), (2.5,3), (3,4), (5,4), (7,3), (8,2), (9,1), (10,1)]
>>> datasets = [d1, d2]
>>> colors = ['red', 'green']
>>> names = ['foo', 'bar']
>>> svgchart.add_graph(datasets, colors, 0, 10, unit='DD', names=names)
>>> svgchart.add_graph(datasets, colors, 0, 10, x_legend=[1,2,3,4,5,6,7,8,9], unit='Kg', message="No Faults")
>>> print svgchart.dump()
>>> svgchart.save('/tmp/1.svg')
"""
average_names = ['average', 'database']
# random suffix to distinguish svg's from each other
suffix = self._gen_suffix()
try:
if minimum_y is None:
minimum_y = min(min((y for (_, y) in dataset)) for dataset in datasets)
if maximum_y is None:
maximum_y = max(max((y for (_, y) in dataset)) for dataset in datasets)
maximum_x = max(max((x for (x, _) in dataset)) for dataset in datasets)
minimum_x = min(min((x for (x, _) in dataset)) for dataset in datasets)
except ValueError:
maximum_x = 0
minimum_x = 0
minimum_y = 0
maximum_y = 0
datasets = [[] for _ in datasets]
y_offset = self.height / 20.0
# Create values for y-axis
if not y_legend:
dy = (maximum_y - minimum_y) / self.y_legend_points
y_legend = [y_legend_converter(y) for y in frange(minimum_y, maximum_y + dy, dy)]
if not y_legend:
y_legend = ['0' + (unit or '')]
if not x_legend:
pattern_width = self.width // self.x_legend_points
else:
pattern_width = (1.0 * self.width) // (len(x_legend) - 1)
if len(y_legend) > 1:
pattern_height = (1.0 * self.height - 2 * y_offset) // (len(y_legend) - 1)
else:
pattern_height = self.height // 2.0
svg_id = f'svg-{suffix}'
svg = self.dwg.add(self.dwg.svg(id_=svg_id, insert=(0, self.graph_offset_y)))
defs = svg.defs
clippath = defs.add(self.dwg.clipPath(id=f'cut_lines_{suffix}'))
clippath.add(self.dwg.rect(insert=(self.left_legend_width, self.padding_y), size=(self.width, self.height)))
if title:
svg.add(self.dwg.text(title, insert=(self.left_legend_width, self.font_size), font_size=self.font_size))
self._draw_y_legend(svg, y_legend, unit, pattern_height, y_offset)
lines_group = svg.add(self.dwg.g(id='lines', filter="url(#shadow)"))
boundary = lines_group.add(self.dwg.g(clip_path=f'url(#cut_lines_{suffix})'))
boundary.add(self.dwg.rect(insert=(self.left_legend_width, self.padding_y),
size=(self.width + 1, self.height + 1),
fill='white', stroke="black"))
self._draw_grid(boundary, pattern_height, pattern_width, y_offset)
lines = []
# circles = []
# list of activity for of lines from average_names
is_average_empty = []
if maximum_y - minimum_y > 0:
for dataset, color in list(zip(datasets, colors)):
coords = self.convert_coordinates(dataset, maximum_x, maximum_y, minimum_x, minimum_y, y_offset)
# Shadows removed by ticket LVES-251
# coords_shadow = [(x + 3, y + 3) for (x, y) in coords]
# boundary.add(self.dwg.polyline(points=coords_shadow, class_="line_shadow",
# fill='none', stroke='lightgray', stroke_width="2"))
value = [y for (_, y) in dataset]
if dict(zip(colors, names))[color] in average_names:
is_average_empty.append(names and not any(value))
# zip coords together with shift by 1, in order to get data like this [(p1, p2), (p2, p3), ...]
_lines = list(zip(coords, coords[1:]))
# same as for lines, but for real values, corresponding to that lines
_datas = list(zip(dataset, dataset[1:]))
# finally, combine coords and datas
data_list = list(zip(_lines, _datas))
for (line, data) in data_list:
p1, p2 = line
d1, d2 = data
x1, y1 = p1
x2, y2 = p2
t1, v1 = d1
t2, v2 = d2
# Draw graph line
lines.append(
self.dwg.line(
p1, p2,
stroke=color,
stroke_width=1,
onmousemove=(
f"show_tip(evt, '{svg_id}', {x1}, {y1}, {x2}, {y2}, "
f"'{x_legend_converter(t1)}', '{str(y_legend_converter(v1)) + (unit or '')}', "
f"'{x_legend_converter(t2)}', '{str(y_legend_converter(v2)) + (unit or '')}')"
)
)
)
if fault_lines is not None:
for fault_line in fault_lines:
fault_coords = self.convert_coordinates(
fault_line,
maximum_x,
maximum_y,
minimum_x,
minimum_y,
y_offset,
)
lines.append(
self.dwg.line(
fault_coords[0], fault_coords[1],
stroke=fault_color,
stroke_width=1))
# if is_average_empty is empty => no average lines, do not write label
# all(is_average_empty) == True => all average lines are empty
# all(is_average_empty) == False => some average line is not empty
if is_average_empty and all(is_average_empty):
self._draw_no_activity(boundary)
else:
# add ZERO line to graph in no data in dataset
for color in colors:
x0, y0 = (self.left_legend_width, self.height - y_offset + self.padding_y)
x1, y1 = (self.width + self.left_legend_width, y0)
lines.append(self.dwg.line((x0, y0), (x1, y1), fill='none', stroke=color,
stroke_width='2'),)
if names and dict(zip(colors, names))[color] in average_names:
self._draw_no_activity(boundary)
for line in lines:
boundary.add(line)
self._draw_names(svg, names, colors)
self.graph_offset_y += self.height + 20 + self.padding_y
self.dwg.update({'height': self.graph_offset_y})
if x_legend:
self._add_x_legend(x_legend)
if not x_legend and x_legend_generate:
self._add_x_legend(None, minimum_x, maximum_x, x_legend_generate, x_legend_converter)
self._draw_message(svg, message)
def _draw_names(self, svg, names, colors):
if names:
s = 10
i = 0
font_size = s
for (name, color) in zip(names, colors):
x = self.width + self.left_legend_width + 20
y = 10 + self.padding_y + i * (s + 3)
svg.add(self.dwg.rect(insert=(x, y), size=(s, s), fill=color, stroke='black'))
svg.add(self.dwg.text(name, insert=(x + s + 5, y + s), font_size=font_size))
i += 1
def _draw_message(self, svg, message):
if message:
# Draw message in the middle of the graph
message_font_size = 24
svg.add(self.dwg.text(message, insert=(self.left_legend_width + self.width // 3,
self.padding_y + self.height // 2), font_size=message_font_size))
def _draw_y_legend(self, svg, y_legend, unit, pattern_height, y_offset):
ylg = svg.add(self.dwg.g(id='y_legend'))
i = 0
font_size = min(self.font_size, pattern_height - 1)
for legend in y_legend:
txt = f'{legend}{unit or ""}'
ylg.add(self.dwg.text(
txt,
insert=(5, self.height - y_offset - pattern_height * i + font_size // 2 + self.padding_y),
font_size=font_size))
i += 1
def _draw_grid(self, boundary, pattern_height, pattern_width, y_offset):
# Draw grid
# 1. Verticals
for x in xfrange(0, self.width, pattern_width):
boundary.add(self.dwg.line(start=(x + self.left_legend_width, self.height + self.padding_y),
end=(x + self.left_legend_width, self.padding_y),
stroke='black', stroke_width=1,
# stroke_linecap="round",
stroke_dasharray="1 2"))
# 2. Horisontals
for y in xfrange(0 + y_offset, self.height, pattern_height):
boundary.add(self.dwg.line(start=(self.left_legend_width, self.height - y + self.padding_y),
end=(self.left_legend_width + self.width, self.height - y + self.padding_y),
stroke='black', stroke_width=1,
stroke_dasharray="1 2"))
def _draw_no_activity(self, boundary):
boundary.add(
self.dwg.text(
'No activity',
insert=(
self.width // 2 + self.left_legend_width // 2 - len('No activity') // 2,
self.height // 2),
fill='black')
)
def convert_coordinates(self, dataset, maximum_x, maximum_y, minimum_x, minimum_y, y_offset):
"""
:type y_offset: float
:type minimum_y: float
:type minimum_x: float
:type maximum_y: float
:type maximum_x: float
:type dataset: tuple
:rtype: list
"""
try:
dx = (1.0 * self.width) / (maximum_x - minimum_x)
except ZeroDivisionError:
dx = 0
dy = (1.0 * self.height - 2 * y_offset) / (maximum_y - minimum_y)
coords = [
(
(x - minimum_x) * dx + self.left_legend_width,
self.height - y_offset - y * dy + self.padding_y
)
for (x, y) in dataset
]
return coords
@staticmethod
def _is_peak(data_list, idx, p1, p2):
result = False
list_len = len(data_list)
y2 = p2[1]
y1 = p1[1]
if y2 < y1:
if idx < list_len - 1:
# Line is not last
next_line, _ = data_list[idx + 1]
_, (_, n_y2) = next_line
if y2 <= n_y2:
result = True
else:
result = True
return result
def _add_x_legend(self, x_values, min_x=None, max_x=None, number=None, x_legend_converter=str):
# TODO add support of str values of x_values
if not x_values:
assert number, "Number should be specified and not zero"
pattern_width = self.width // number
if not all(v is not None for v in (min_x, max_x, number)):
# "min_x, max_x, and number should be not None in order to draw legend"
return
x_legend = [x_legend_converter(x) for x in
xfrange(min_x, max_x, (max_x - min_x) / number)]
else:
if not number:
number = X_LEGEND_POINTS
x_legend = frange(min(x_values),
max(x_values) + (max(x_values) - min(x_values)) / number,
(max(x_values) - min(x_values)) / number)
x_legend = [x_legend_converter(x) for x in x_legend]
parts = len(x_legend) - 1
parts = max(parts, 1)
pattern_width = (1.0 * self.width) / parts
svg_id = f'svg-{str(uuid.uuid4())}'
svg = self.dwg.add(self.dwg.svg(id_=svg_id, insert=(0, self.graph_offset_y)))
max_x_legend_text = 0
font_size = min(pattern_width, 10)
i = 0
for legend in x_legend:
txt = str(legend)
if len(txt) > max_x_legend_text:
max_x_legend_text = len(txt)
x = self.left_legend_width + pattern_width * i
y = 0 + self.padding_y
svg.add(self.dwg.text(
txt,
insert=(x, y),
font_size=font_size,
transform=f"rotate(90, {x},{y})"
))
i += 1
self.graph_offset_y += 20 + max_x_legend_text * font_size
self.dwg.update({'height': self.graph_offset_y})
def add_text_box(self, text, font_size=None):
"""
:param text: text in box
:param font_size: font size for text
"""
# use default font size
font_size = font_size or 24
# get svg suffix
suffix = self._gen_suffix()
svg_id = f'svg-{suffix}'
svg = self.dwg.add(self.dwg.svg(id_=svg_id, insert=(0, self.graph_offset_y)))
defs = svg.defs
clippath = defs.add(self.dwg.clipPath(id=f'cut_lines_{suffix}'))
clippath.add(self.dwg.rect(insert=(self.left_legend_width, self.padding_y), size=(self.width, self.height)))
lines_group = svg.add(self.dwg.g(id='lines', filter="url(#shadow)"))
boundary = lines_group.add(self.dwg.g(clip_path=f'url(#cut_lines_{suffix})'))
boundary.add(self.dwg.rect(insert=(self.left_legend_width, self.padding_y),
size=(self.width + 1, self.height + 1), fill='white',
stroke="black"))
svg.add(self.dwg.text(text, insert=(self.left_legend_width + self.width // 3,
self.padding_y + self.height // 2), font_size=font_size))
self.graph_offset_y += self.height + 20 + self.padding_y
self.dwg.update({'height': self.graph_offset_y})
def _gen_suffix(self):
"""
Generate suffix for graph methods
random suffix to distinguish svg's from each other
"""
suffix = str(self._svg_id)
self._svg_id += 1
return suffix
def dump(self):
self._finalize()
xml_header = '<?xml version="1.0" encoding="utf-8" ?>\n'
return xml_header + self.dwg.tostring()
def save(self, file_name):
self._finalize()
self.dwg.saveas(file_name)
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