Use newton api instead of google calc regex

master
Paul Walko 2019-06-20 21:45:18 -04:00
parent 378edca342
commit b34e07ba21
3 changed files with 110 additions and 39 deletions

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@ -10,44 +10,34 @@ http://inamidst.com/phenny/
import re import re
import web import web
from modules.search import generic_google from modules.search import newton_api
subs = [ operations = {'simplify', 'factor', 'derive', 'integrate', 'zeroes', 'tangent',
('£', 'GBP '), 'area', 'cos', 'sin', 'tan', 'arccos', 'arcsin', 'arctan', 'abs', 'log'}
('', 'EUR '),
('\$', 'USD '),
(r'\n', '; '),
('°', '°'),
(r'\/', '/'),
]
r_google_calc = re.compile(r'calculator-40.gif.*? = (.*?)<')
r_google_calc_exp = re.compile(r'calculator-40.gif.*? = (.*?)<sup>(.*?)</sup></h2>')
def c(phenny, input): def c(phenny, input):
"""Google calculator.""" """Newton calculator."""
if not input.group(2): if not input.group(2):
return phenny.reply("Nothing to calculate.") return phenny.reply("Nothing to calculate.")
q = input.group(2) q = input.group(2)
bytes = generic_google(q) q = q.split(' ', 1)
m = r_google_calc_exp.search(bytes)
if not m:
m = r_google_calc.search(bytes)
if not m: if len(q) > 1 and q[0] in operations:
num = None operation = q[0]
elif m.lastindex == 1: expression = q[1]
num = web.decode(m.group(1)) elif len(q) > 0:
else: operation = 'simplify'
num = "^".join((web.decode(m.group(1)), web.decode(m.group(2)))) expression = q[0]
if num: result = newton_api(operation, expression)
num = num.replace('×', '*')
phenny.say(num) if result:
phenny.say(result)
else: else:
phenny.reply("Sorry, no result.") phenny.reply("Sorry, no result.")
c.commands = ['c'] c.commands = ['c']
c.example = '.c 5 + 3' c.example = '.c 5 + 3'
c.example = '.c integrate 1/3 x^3 + x^2 + C'
if __name__ == '__main__': if __name__ == '__main__':

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@ -162,6 +162,15 @@ def duck(phenny, input):
duck.commands = ['duck', 'ddg'] duck.commands = ['duck', 'ddg']
duck.example = '.duck football' duck.example = '.duck football'
def newton_api(operation, expression):
expression = web.quote(expression, safe='')
uri = "https://newton.now.sh/{}/{}".format(operation, expression)
bytes = web.get(uri)
json = web.json(bytes)
if 'result' in json:
return str(json['result'])
return None
def search(phenny, input): def search(phenny, input):
if not input.group(2): if not input.group(2):
return phenny.reply('.search for what?') return phenny.reply('.search for what?')

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@ -19,26 +19,98 @@ class TestCalc(unittest.TestCase):
self.phenny.say.assert_called_once_with('25') self.phenny.say.assert_called_once_with('25')
def test_c_sqrt(self): def test_c_simplify(self):
input = Mock(group=lambda x: '4^(1/2)') input = Mock(group=lambda x: 'simplify 2^2+2(2)')
c(self.phenny, input) c(self.phenny, input)
self.phenny.say.assert_called_once_with('2') self.phenny.say.assert_called_once_with('8')
def test_c_scientific(self): def test_c_factor(self):
input = Mock(group=lambda x: '2^64') input = Mock(group=lambda x: 'factor x^2 + 2x')
c(self.phenny, input) c(self.phenny, input)
self.phenny.say.assert_called_once_with('1.84467441 * 10^19') self.phenny.say.assert_called_once_with('x (x + 2)')
def test_c_derive(self):
input = Mock(group=lambda x: 'derive x^2+2x')
c(self.phenny, input)
self.phenny.say.assert_called_once_with('2 x + 2')
def test_c_integrate(self):
input = Mock(group=lambda x: 'integrate x^2+2x')
c(self.phenny, input)
self.phenny.say.assert_called_once_with('1/3 x^3 + x^2')
def test_c_zeroes(self):
input = Mock(group=lambda x: 'zeroes x^2+2x')
c(self.phenny, input)
self.phenny.say.assert_called_once_with('[-2, 0]')
def test_c_tangent(self):
input = Mock(group=lambda x: 'tangent 2|x^3')
c(self.phenny, input)
self.phenny.say.assert_called_once_with('12 x + -16')
def test_c_area(self):
input = Mock(group=lambda x: 'area 2:4|x^3')
c(self.phenny, input)
self.phenny.say.assert_called_once_with('60')
def test_c_cos(self):
input = Mock(group=lambda x: 'cos pi')
c(self.phenny, input)
self.phenny.say.assert_called_once_with('-1')
def test_c_sin(self):
input = Mock(group=lambda x: 'sin 0')
c(self.phenny, input)
self.phenny.say.assert_called_once_with('0')
def test_c_tan(self):
input = Mock(group=lambda x: 'tan .03')
c(self.phenny, input)
self.phenny.say.assert_called_once_with('0.030009')
def test_c_arccos(self):
input = Mock(group=lambda x: 'arccos 1')
c(self.phenny, input)
self.phenny.say.assert_called_once_with('0')
def test_c_arcsin(self):
input = Mock(group=lambda x: 'arcsin .04')
c(self.phenny, input)
self.phenny.say.assert_called_once_with('0.0400107')
def test_c_arctan(self):
input = Mock(group=lambda x: 'arctan 1')
c(self.phenny, input)
self.phenny.say.assert_called_once_with('1/2 pi')
def test_c_abs(self):
input = Mock(group=lambda x: 'abs -3')
c(self.phenny, input)
self.phenny.say.assert_called_once_with('3')
def test_c_log(self):
input = Mock(group=lambda x: 'log 2|8')
c(self.phenny, input)
self.phenny.say.assert_called_once_with('3')
def test_c_none(self): def test_c_none(self):
input = Mock(group=lambda x: 'aif') input = Mock(group=lambda x: 'tangent 2lx^3')
c(self.phenny, input) c(self.phenny, input)
self.phenny.reply.assert_called_once_with('Sorry, no result.') self.phenny.reply.assert_called_once_with('Sorry, no result.')
def test_c_quirk(self):
input = Mock(group=lambda x: '24/50')
c(self.phenny, input)
self.phenny.say.assert_called_once_with('0.48')