MAX_PERCENTS = 100.
class Bar(object):
"""superclass"""
bars = None
def __init__(self, value):
"""
Args:
value (float): value between 0. and 100. meaning percents
"""
self.value = value
class HBar(Bar):
"""horizontal bar (1 char)"""
bars = [
u"\u2581",
u"\u2582",
u"\u2583",
u"\u2584",
u"\u2585",
u"\u2586",
u"\u2587",
u"\u2588"
]
def __init__(self, value):
"""
Args:
value (float): value between 0. and 100. meaning percents
"""
super(HBar, self).__init__(value)
self.step = MAX_PERCENTS / len(HBar.bars)
def get_char(self):
"""
Decide which char to draw
Return: str
"""
for i in range(len(HBar.bars)):
left = i * self.step
right = (i + 1) * self.step
if left <= self.value < right:
return self.bars[i]
return self.bars[-1]
def hbar(value):
"""wrapper function"""
return HBar(value).get_char()
class VBar(Bar):
"""vertical bar (can be more than 1 char)"""
bars = [
u"\u258f",
u"\u258e",
u"\u258d",
u"\u258c",
u"\u258b",
u"\u258a",
u"\u2589",
u"\u2588"
]
def __init__(self, value, width=1):
"""
Args:
value (float): value between 0. and 100. meaning percents
width (int): width
"""
super(VBar, self).__init__(value)
self.step = MAX_PERCENTS / (len(VBar.bars) * width)
self.width = width
def get_chars(self):
"""
Decide which char to draw
Return: str
"""
if self.value == 100:
return self.bars[-1] * self.width
if self.width == 1:
for i in range(len(VBar.bars)):
left = i * self.step
right = (i + 1) * self.step
if left <= self.value < right:
return self.bars[i]
else:
full_parts = int(self.value // (self.step * len(Vbar.bars)))
remainder = self.value - full_parts * self.step * CHARS
empty_parts = self.width - full_parts
if remainder >= 0:
empty_parts -= 1
part_vbar = VBar(remainder * self.width) # scale to width
chars = self.bars[-1] * full_parts
chars += part_vbar.get_chars()
chars += " " * empty_parts
return chars
def vbar(value, width):
"""wrapper function"""
return VBar(value, width).get_chars()
class BrailleGraph(object):
"""
graph using Braille chars
scaled to passed values
"""
chars = {
(0, 0): u" ",
(1, 0): u"\u2840",
(2, 0): u"\u2844",
(3, 0): u"\u2846",
(4, 0): u"\u2847",
(0, 1): u"\u2880",
(0, 2): u"\u28a0",
(0, 3): u"\u28b0",
(0, 4): u"\u28b8",
(1, 1): u"\u28c0",
(2, 1): u"\u28c4",
(3, 1): u"\u28c6",
(4, 1): u"\u28c7",
(1, 2): u"\u28e0",
(2, 2): u"\u28e4",
(3, 2): u"\u28e6",
(4, 2): u"\u28e7",
(1, 3): u"\u28f0",
(2, 3): u"\u28f4",
(3, 3): u"\u28f6",
(4, 3): u"\u28f7",
(1, 4): u"\u28f8",
(2, 4): u"\u28fc",
(3, 4): u"\u28fe",
(4, 4): u"\u28ff"
}
def __init__(self, values):
"""
Args:
values (list): list of values
"""
self.values = values
# length of values list must be even
# because one Braille char displays two values
if len(self.values) % 2 == 1:
self.values.append(0)
self.steps = self.get_steps()
self.parts = [tuple(self.steps[i:i+2])
for i in range(len(self.steps))[::2]]
@staticmethod
def get_height(value, unit):
"""
Compute height of a value relative to unit
Args:
value (number): value
unit (number): unit
"""
if value < unit / 10.:
return 0
elif value <= unit:
return 1
elif value <= unit * 2:
return 2
elif value <= unit * 3:
return 3
else:
return 4
def get_steps(self):
"""
Convert the list of values to a list of steps
Return: list
"""
maxval = max(self.values)
unit = maxval / 4.
if unit == 0:
return [0] * len(self.values)
stepslist = []
for value in self.values:
stepslist.append(self.get_height(value, unit))
return stepslist
def get_chars(self):
"""
Decide which chars to draw
Return: str
"""
chars = []
for part in self.parts:
chars.append(BrailleGraph.chars[part])
return "".join(chars)
def braille(values):
"""wrapper function"""
return BrailleGraph(values).get_chars()
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