python-zulip-api/bots/converter/converter.py

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# See readme.md for instructions on running this code.
from __future__ import absolute_import
from __future__ import division
import copy
import importlib
import sys
from math import log10, floor
import utils
import re
def is_float(value):
try:
float(value)
return True
except ValueError:
return False
# Rounds the number 'x' to 'digits' significant digits.
# A normal 'round()' would round the number to an absolute amount of
# fractional decimals, e.g. 0.00045 would become 0.0.
# 'round_to()' rounds only the digits that are not 0.
# 0.00045 would then become 0.0005.
def round_to(x, digits):
return round(x, digits-int(floor(log10(abs(x)))))
class ConverterHandler(object):
'''
This plugin allows users to make conversions between various units,
e.g. Celsius to Fahrenheit, or kilobytes to gigabytes.
It looks for messages of the format
'@mention-bot <number> <unit_from> <unit_to>'
The message '@mention-bot help' posts a short description of how to use
the plugin, along with a list of all supported units.
'''
def usage(self):
return '''
This plugin allows users to make conversions between
various units, e.g. Celsius to Fahrenheit,
or kilobytes to gigabytes. It looks for messages of
the format '@mention-bot <number> <unit_from> <unit_to>'
The message '@mention-bot help' posts a short description of
how to use the plugin, along with a list of
all supported units.
'''
def handle_message(self, message, client, state_handler):
bot_response = get_bot_converter_response(message, client)
client.send_reply(message, bot_response)
def get_bot_converter_response(message, client):
content = message['content']
words = content.lower().split()
convert_indexes = [i for i, word in enumerate(words) if word == "@convert"]
convert_indexes = [-1] + convert_indexes
results = []
for convert_index in convert_indexes:
if (convert_index + 1) < len(words) and words[convert_index + 1] == 'help':
results.append(utils.HELP_MESSAGE)
continue
if (convert_index + 3) < len(words):
number = words[convert_index + 1]
unit_from = utils.ALIASES.get(words[convert_index + 2], words[convert_index + 2])
unit_to = utils.ALIASES.get(words[convert_index + 3], words[convert_index + 3])
exponent = 0
if not is_float(number):
results.append(number + ' is not a valid number. ' + utils.QUICK_HELP)
continue
number = float(number)
number_res = copy.copy(number)
for key, exp in utils.PREFIXES.items():
if unit_from.startswith(key):
exponent += exp
unit_from = unit_from[len(key):]
if unit_to.startswith(key):
exponent -= exp
unit_to = unit_to[len(key):]
uf_to_std = utils.UNITS.get(unit_from, False)
ut_to_std = utils.UNITS.get(unit_to, False)
if uf_to_std is False:
results.append(unit_from + ' is not a valid unit. ' + utils.QUICK_HELP)
if ut_to_std is False:
results.append(unit_to + ' is not a valid unit.' + utils.QUICK_HELP)
if uf_to_std is False or ut_to_std is False:
continue
base_unit = uf_to_std[2]
if uf_to_std[2] != ut_to_std[2]:
unit_from = unit_from.capitalize() if uf_to_std[2] == 'kelvin' else unit_from
results.append(unit_to.capitalize() + ' and ' + unit_from +
' are not from the same category. ' + utils.QUICK_HELP)
continue
# perform the conversion between the units
number_res *= uf_to_std[1]
number_res += uf_to_std[0]
number_res -= ut_to_std[0]
number_res /= ut_to_std[1]
if base_unit == 'bit':
number_res *= 1024 ** (exponent // 3)
else:
number_res *= 10 ** exponent
number_res = round_to(number_res, 7)
results.append('{} {} = {} {}'.format(number,
words[convert_index + 2],
number_res,
words[convert_index + 3]))
else:
results.append('Too few arguments given. ' + utils.QUICK_HELP)
new_content = ''
for idx, result in enumerate(results, 1):
new_content += ((str(idx) + '. conversion: ') if len(results) > 1 else '') + result + '\n'
return new_content
handler_class = ConverterHandler