Ejemplo n.º 1
0
        if len(color) == 7:
            return "6-digit"
        elif len(color) == 4:
            return "3-digit"
    else:
        if color.lower() in PRESET_COLORS:
            return "preset"
    return "ERROR"


def convert6digitHex(color):
    r = int(color[1], 16) * 16 + int(color[2], 16)
    g = int(color[3], 16) * 16 + int(color[4], 16)
    b = int(color[5], 16) * 16 + int(color[6], 16)
    return (r, g, b)


def convert3digitHex(color):
    r = int(color[1], 16) * 16 + int(color[1], 16)
    g = int(color[2], 16) * 16 + int(color[2], 16)
    b = int(color[3], 16) * 16 + int(color[3], 16)
    return (r, g, b)


# TESTS

test.describe('Example tests')
test.assert_equals(parse_html_color('#80FFA0'), {'r': 128, 'g': 255, 'b': 160})
test.assert_equals(parse_html_color('#3B7'), {'r': 51, 'g': 187, 'b': 119})
test.assert_equals(parse_html_color('LimeGreen'), {'r': 50, 'g': 205, 'b': 50})
Ejemplo n.º 2
0
import test
# https://www.codewars.com/kata/find-the-odd-int/train/python
# Given an array, find the int that appears an odd number of times.
# There will always be only one integer that appears an odd number of times.


def find_it(seq):
    occurences = {}
    for i in seq:
        if i in occurences:
            occurences[i] += 1
        else:
            occurences[i] = 1

    for number, occurs in occurences.items():
        if occurs % 2 == 1:
            return number

    return None


if __name__ == '__main__':
    print('tohle se stane když to spustíš')
    test.describe("Example")
    test.assert_equals(
        find_it([20, 1, -1, 2, -2, 3, 3, 5, 5, 1, 2, 4, 20, 4, -1, -2, 5]), 5)
    print(find_it([20, 1, -1, 2, -2, 3, 3, 5, 5, 1, 2, 4, 20, 4, -1, -2, 5]))
Ejemplo n.º 3
0
Archivo: 77.py Proyecto: hbdhj/python
            cnt_dict[n]+=1
        else:
            cnt_dict[n]=1
    #print(cnt_dict)
    rvt_dict = {}
    for n, f in cnt_dict.items():
        if f in rvt_dict:
            rvt_dict[f].append(n)
        else:
            rvt_dict[f]=[n]
    #print(rvt_dict)
    ret.append(len(cnt_dict))
    if 1 in rvt_dict.keys():
        ret.append(len(rvt_dict[1]))
    else:
        ret.append(0)
    most_f = sorted(rvt_dict.keys(), reverse=True)[0]
    num_lst = rvt_dict[most_f]
    item_four=[sorted(num_lst)]
    item_four.append(most_f)
    ret.append(item_four)
    return ret

import test

test.describe("Example Tests")
test.assert_equals(count_sel([-3, -2, -1, 3, 4, -5, -5, 5, -1, -5]), [10, 7, 5, [[-5], 3]])
test.assert_equals(count_sel([5, -1, 1, -1, -2, 5, 0, -2, -5, 3]), [10, 7, 4, [[-2, -1, 5], 2]])
test.assert_equals(count_sel([-2, 4, 4, -2, -2, -1, 3, 5, -5, 5]), [10, 6, 3, [[-2], 3]])
test.assert_equals(count_sel([4, -5, 1, -5, 2, 4, -1, 4, -1, 1]), [10, 5, 1, [[4], 3]])
test.assert_equals(count_sel([4, 4, 2, -3, 1, 4, 3, 2, 0, -5, 2, -2, -2, -5]), [14, 8, 4, [[2, 4], 3]])
Ejemplo n.º 4
0
Archivo: 73.py Proyecto: hbdhj/python
import test

scores = {"teamA":3,"teamB":3,"teamC":3,"teamD":3}

def league_calculate(team1, team2, result):
    if result=="draw":
        scores[team1]+=1
        scores[team2]+=1
    elif result=="win":
        scores[team1]+=3
    result={}
    for team,score in scores.items():
        if score in result.keys():
            result[score].append(team)
        else:
            result[score]=[team]
    return [[team,score] for score in sorted(result.keys(), reverse=True) for team in sorted(result[score])]



test.describe("Basic tests")
test.assert_equals(league_calculate("teamA","teamB","draw"), [["teamA",4],["teamB",4],["teamC",3],["teamD",3]])
test.assert_equals(league_calculate("teamC","teamD","win"), [["teamC",6],["teamA",4],["teamB",4],["teamD",3]])
test.assert_equals(league_calculate("teamA","teamC","draw"), [["teamC",7],["teamA",5],["teamB",4],["teamD",3]])
test.assert_equals(league_calculate("teamB","teamD","win"), [["teamB",7],["teamC",7],["teamA",5],["teamD",3]])
test.assert_equals(league_calculate("teamA","teamB","win"), [["teamA",8],["teamB",7],["teamC",7],["teamD",3]])
test.assert_equals(league_calculate("teamC","teamD","draw"), [["teamA",8],["teamC",8],["teamB",7],["teamD",4]])
test.assert_equals(league_calculate("teamD","teamA","draw"), [["teamA",9],["teamC",8],["teamB",7],["teamD",5]])
test.assert_equals(league_calculate("teamC","teamB","win"), [["teamC",11],["teamA",9],["teamB",7],["teamD",5]])
test.assert_equals(league_calculate("teamB","teamD","win"), [["teamC",11],["teamB",10],["teamA",9],["teamD",5]])
test.assert_equals(league_calculate("teamA","teamB","draw"), [["teamB",11],["teamC",11],["teamA",10],["teamD",5]])
Ejemplo n.º 5
0
Archivo: 71.py Proyecto: hbdhj/python
        return [1,2,1]
    else:
        up = pascal_line(n-1)
        new = [up[i]+up[i+1] for i in range(len(up)-1)]
        return [1]+new+[1]

#print(pascal_line(0))
#print(pascal_line(1))
#print(pascal_line(2))
#print(pascal_line(3))
#print(pascal_line(4))
#print(pascal_line(5))


def easyline(n):
    line = pascal_line(n)
    ret = 0
    for n in line:
        ret+=n*n
    return ret

def testing(actual, expected):
    test.assert_equals(actual, expected)

test.describe("easyline")
test.it("Basic tests")
testing(easyline(7), 3432)
testing(easyline(13), 10400600)
testing(easyline(17), 2333606220)
testing(easyline(19), 35345263800)
Ejemplo n.º 6
0
            first_band = color_list[tens]
        else:
            third_band = "violet"
            second_band = color_list[tens]
            first_band = color_list[hundreds]

    fourth_band = "gold"

    out_string = first_band + " " + second_band + " " + third_band + " " + fourth_band

    return out_string


# TESTS

test.describe("Basic tests")
test.it("Some common resistor values")
test.assert_equals(encode_resistor_colors("10 ohms"), "brown black black gold")
test.assert_equals(encode_resistor_colors("47 ohms"),
                   "yellow violet black gold")
test.assert_equals(encode_resistor_colors("100 ohms"),
                   "brown black brown gold")
test.assert_equals(encode_resistor_colors("220 ohms"), "red red brown gold")
test.assert_equals(encode_resistor_colors("330 ohms"),
                   "orange orange brown gold")
test.assert_equals(encode_resistor_colors("470 ohms"),
                   "yellow violet brown gold")
test.assert_equals(encode_resistor_colors("680 ohms"), "blue gray brown gold")
test.assert_equals(encode_resistor_colors("1k ohms"), "brown black red gold")
test.assert_equals(encode_resistor_colors("4.7k ohms"),
                   "yellow violet red gold")
Ejemplo n.º 7
0
Archivo: 90.py Proyecto: hbdhj/python
        return "NaR"
    r = ""
    roman = ["M", "CM", "D", "CD", "C", "XC", "L", "XL", "X", "IX", "V", "IV", "I"]
    romanN = [1000, 900, 500, 400, 100, 90, 50, 40, 10, 9, 5, 4, 1]
    frac = ["", ".", ":", ":.", "::", ":.:", "S", "S.", "S:", "S:.", "S::", "S:.:"]
    if number == 0:
        if fraction == 0:
            return "N"
        return frac[fraction]
    while number > 0:
        for i in range(13):
            if romanN[i] <= number:
                r += roman[i]
                number -= romanN[i]
                break
    return r+frac[fraction]

import test

test.describe("Examples")
test.assert_equals(roman_fractions(-12), "NaR")
test.assert_equals(roman_fractions(0, -1), "NaR")
test.assert_equals(roman_fractions(0, 12), "NaR")
test.assert_equals(roman_fractions(0), "N")
test.assert_equals(roman_fractions(1), "I")
test.assert_equals(roman_fractions(1, 5), "I:.:")
test.assert_equals(roman_fractions(1, 9), "IS:.")
test.assert_equals(roman_fractions(1632, 2), "MDCXXXII:")
test.assert_equals(roman_fractions(5000), "MMMMM")
test.assert_equals(roman_fractions(5001), "NaR")
Ejemplo n.º 8
0
Archivo: 86.py Proyecto: hbdhj/python
# Multirange iterator


def multiiter(*params):
    print(params)
    if 0 in params:
        for i in range(0):
            yield (i, )
    elif len(params) == 1:
        for i in range(params[0]):
            yield (i, )
    else:
        for i in range(params[0]):
            for j in multiiter(*params[1:]):
                yield (i, *j)

import test

test.describe("One parameter tests")


test.assert_equals(list(multiiter(0)), [])
test.assert_equals(list(multiiter(2)), [(0,), (1,)])

test.describe("Two parameter tests")
test.assert_equals(list(multiiter(2, 3)), [(0, 0), (0, 1), (0, 2), (1, 0), (1, 1), (1, 2)])
test.assert_equals(list(multiiter(3, 2)), [(0, 0), (0, 1), (1, 0), (1, 1), (2, 0), (2, 1)])
Ejemplo n.º 9
0
Archivo: 67.py Proyecto: hbdhj/python
                sum+=value
    else:
        for value in values:
            if check(value, criteria):
                sum+=value
    return sum

def average_if(values,criteria):
    sum = sum_if(values,criteria)
    count = count_if(values,criteria)
    if sum%count==0:
        return sum/count
    else:
        float(sum)/count

test.describe('count_if tests')
test.it('Criteria is exact match')
test.assert_equals(count_if([1,3,5,3],3),2)
test.assert_equals(count_if(['John','Steve','Rachel','Rebecca','John','John'],'John'),3)

test.it('Criteria is ">="')
test.assert_equals(count_if([1,3,5,3],'>=3'),3)

test.it('Criteria is "<="')
test.assert_equals(count_if([1.5,3,5,3,0,-1,-5],'<=1.5'),4)

test.it('Criteria is ">"')
test.assert_equals(count_if([1,3,5,3.5],'>3'),2)

test.it('Criteria is "<"')
test.assert_equals(count_if([1,3,5,3,0,-1,-5],'<1'),3)
Ejemplo n.º 10
0
        print(" ({})".format(var_and_degree(diff(s))))

    quit()

    import sys
    sys.path.insert(0, './codewars')
    import test

    def testThis(config, n=1, val=0):
        for msg, expected, inp in config:
            msg, expected, inp = (s.format(val) for s in (msg, expected, inp))
            for _ in range(n - 1):
                inp = diff(inp)
            test.assert_equals(diff(inp), expected, msg)

    test.describe("Sample tests")

    config = [("constant should return 0", "0", "5"),
              ("x should return 1", "1", "x"),
              ("x+x should return 2", "2", "(+ x x)"),
              ("x-x should return 0", "0", "(- x x)"),
              ("2*x should return 2", "2", "(* x 2)"),
              ("x/2 should return 0.5", "0.5", "(/ x 2)"),
              ("x^2 should return 2*x", "(* 2 x)", "(^ x 2)"),
              ("cos(x) should return -1 * sin(x)",
               "(* -1 (sin x))", "(cos x)"),
              ("sin(x) should return cos(x)", "(cos x)", "(sin x)"),
              ("tan(x) should return 1 + tan(x)^2",
               "(+ 1 (^ (tan x) 2))", "(tan x)"),
              ("exp(x) should return exp(x)", "(exp x)", "(exp x)"),
              ("ln(x) should return 1/x", "(/ 1 x)", "(ln x)")]
Ejemplo n.º 11
0
# Python 3.4
# Check DESCRIPTION.md for the problem's full description.

import test


def interweave(s1, s2):

    if len(s1 + s2) % 2 != 0: s2 += " "
    message = ""
    for first, second in zip(s1, s2):
        message += (first if not first.isdigit() else
                    "") + (second if not second.isdigit() else "")

    return message.strip(" ")


# Tests

test.describe("Tests")

msg1 = "hello"
msg2 = "hello world"

test.assert_equals(interweave("hlo", "el"), msg1,
                   "['hlo', 'el'] should equal 'hello': ")
test.assert_equals(interweave("hlowrd", "el ol"), msg2,
                   "['hlowrd', 'el ol'] should equal 'hello world': ")
Ejemplo n.º 12
0
# Python 3.4
# Check DESCRIPTION.md for the problem's full description.

import test

def filter_lucky(lst):
    return [lucky_number for lucky_number in lst if "7" in str(lucky_number)]

test.describe("Correct tests")

test.it("First test")
l = [1, 2, 4, 6, 7, 12, 30, 50, 60, 65, 70, 68, 69, 77, 80]
test.assert_equals([7, 70, 77], filter_lucky(l))

test.it("Second test")
l = [1, 2, 3, 4, 5, 6, 7, 17, 27, 50]
test.assert_equals([7, 17, 27], filter_lucky(l))