Begin a new Kumite
Kumite (ko͞omiˌtā) is the practice of taking techniques learned from Kata and applying them through the act of freestyle sparring.
You can create a new kumite by providing some initial code and optionally some test cases. From there other warriors can spar with you, by enhancing, refactoring and translating your code. There is no limit to how many warriors you can spar with.
A great use for kumite is to begin an idea for a kata as one. You can collaborate with other code warriors until you have it right, then you can convert it to a kata.
Basic Language Features
Fundamentals
Control Flow
def convert_decimal_roman(numero): num_romanos_dic = { 1: 'I', 5: 'V', 10: 'X', 50: 'L', 100: 'C', 500: 'D', 1000: 'M' } list_num_rom = [{'key': x, 'value': y} for x, y in num_romanos_dic.items()] size_num = len(numero) output = [] for i in range(size_num): num = numero[i:] num_unit = int(num) numextre_izq = int(num[0]) pref = [] for i in range(1, len(list_num_rom), 2): if num_unit >= list_num_rom[i-1]['key'] and num_unit < list_num_rom[i+1]['key']: pref.append(list_num_rom[i-1]['value']) pref.append(list_num_rom[i]['value']) pref.append(list_num_rom[i+1]['value']) if numextre_izq < 4 and numextre_izq > 0: output.append(pref[0]*numextre_izq) if numextre_izq == 4: output.extend(pref[0:2]) if numextre_izq == 5: output.append(pref[1]) if numextre_izq > 5 and numextre_izq < 9: output.append(pref[1] + pref[0]*(numextre_izq-5)) if numextre_izq == 9: output.extend(pref[::2]) output = ''.join(output) return output1 1 def convert_decimal_roman(numero):
2 2 num_romanos_dic = {3 3 1: 'I',
4 4 5: 'V',
5 5 10: 'X',
6 6 50: 'L',
7 7 100: 'C',
8 8 500: 'D',
9 9 1000: 'M'
10 10 }
11 11 list_num_rom = [{'key': x, 'value': y} for x, y in num_romanos_dic.items()]12 12 size_num = len(numero)
13 13 output = []
14 14 for i in range(size_num):
15 15 num = numero[i:]
16 16 num_unit = int(num)
17 17 numextre_izq = int(num[0])
18 18 pref = []
19 19 for i in range(1, len(list_num_rom), 2):
20 20 if num_unit >= list_num_rom[i-1]['key'] and num_unit < list_num_rom[i+1]['key']:
21 21 pref.append(list_num_rom[i-1]['value'])
22 22 pref.append(list_num_rom[i]['value'])
23 23 pref.append(list_num_rom[i+1]['value'])
24 24 25 25 if numextre_izq < 4 and numextre_izq > 0:
26 26 output.append(pref[0]*numextre_izq)
27 27 if numextre_izq == 4:
28 28 output.extend(pref[0:2])
29 29 if numextre_izq == 5:
30 30 output.append(pref[1])
31 31 if numextre_izq > 5 and numextre_izq < 9:
32 32 output.append(pref[1] + pref[0]*(numextre_izq-5))
33 33 if numextre_izq == 9:
34 34 output.extend(pref[::2])
35 35 36 36 output = ''.join(output)
37 37 return output
import codewars_test as test # TODO Write tests import solution # or from solution import example # test.assert_equals(actual, expected, [optional] message) @test.describe("Example") def test_group(): @test.it("test case") def test_case(): test.assert_equals(convert_decimal_roman('69'), 'LXIX') test.assert_equals(convert_decimal_roman('874'), 'DCCCLXXIV') test.assert_equals(convert_decimal_roman('938'), 'CMXXXVIII') test.assert_equals(convert_decimal_roman('442'), 'CDXLII') test.assert_equals(convert_decimal_roman('323'), 'CCCXXIII') test.assert_equals(convert_decimal_roman('548'), 'DXLVIII') test.assert_equals(convert_decimal_roman('386'), 'CCCLXXXVI') test.assert_equals(convert_decimal_roman('962'), 'CMLXII') test.assert_equals(convert_decimal_roman('217'), 'CCXVII') test.assert_equals(convert_decimal_roman('771'), 'DCCLXXI') test.assert_equals(convert_decimal_roman('997'), 'CMXCVII') test.assert_equals(convert_decimal_roman('175'), 'CLXXV') test.assert_equals(convert_decimal_roman('873'), 'DCCCLXXIII') test.assert_equals(convert_decimal_roman('33'), 'XXXIII') test.assert_equals(convert_decimal_roman('508'), 'DVIII') test.assert_equals(convert_decimal_roman('743'), 'DCCXLIII') test.assert_equals(convert_decimal_roman('326'), 'CCCXXVI') test.assert_equals(convert_decimal_roman('858'), 'DCCCLVIII') test.assert_equals(convert_decimal_roman('707'), 'DCCVII') test.assert_equals(convert_decimal_roman('459'), 'CDLIX') test.assert_equals(convert_decimal_roman('976'), 'CMLXXVI') test.assert_equals(convert_decimal_roman('855'), 'DCCCLV') test.assert_equals(convert_decimal_roman('840'), 'DCCCXL') test.assert_equals(convert_decimal_roman('682'), 'DCLXXXII') test.assert_equals(convert_decimal_roman('506'), 'DVI') test.assert_equals(convert_decimal_roman('553'), 'DLIII') test.assert_equals(convert_decimal_roman('1'), 'I') test.assert_equals(convert_decimal_roman('48'), 'XLVIII') test.assert_equals(convert_decimal_roman('125'), 'CXXV') test.assert_equals(convert_decimal_roman('353'), 'CCCLIII') test.assert_equals(convert_decimal_roman('137'), 'CXXXVII') test.assert_equals(convert_decimal_roman('423'), 'CDXXIII') test.assert_equals(convert_decimal_roman('26'), 'XXVI') test.assert_equals(convert_decimal_roman('362'), 'CCCLXII') test.assert_equals(convert_decimal_roman('587'), 'DLXXXVII') test.assert_equals(convert_decimal_roman('599'), 'DXCIX') test.assert_equals(convert_decimal_roman('589'), 'DLXXXIX') test.assert_equals(convert_decimal_roman('619'), 'DCXIX') test.assert_equals(convert_decimal_roman('261'), 'CCLXI') test.assert_equals(convert_decimal_roman('480'), 'CDLXXX') test.assert_equals(convert_decimal_roman('410'), 'CDX') test.assert_equals(convert_decimal_roman('776'), 'DCCLXXVI') test.assert_equals(convert_decimal_roman('625'), 'DCXXV') test.assert_equals(convert_decimal_roman('116'), 'CXVI') test.assert_equals(convert_decimal_roman('112'), 'CXII') test.assert_equals(convert_decimal_roman('603'), 'DCIII') test.assert_equals(convert_decimal_roman('549'), 'DXLIX') test.assert_equals(convert_decimal_roman('838'), 'DCCCXXXVIII') test.assert_equals(convert_decimal_roman('846'), 'DCCCXLVI') test.assert_equals(convert_decimal_roman('756'), 'DCCLVI') test.assert_equals(convert_decimal_roman('333'), 'CCCXXXIII') test.assert_equals(convert_decimal_roman('325'), 'CCCXXV') test.assert_equals(convert_decimal_roman('154'), 'CLIV') test.assert_equals(convert_decimal_roman('104'), 'CIV') test.assert_equals(convert_decimal_roman('669'), 'DCLXIX') test.assert_equals(convert_decimal_roman('822'), 'DCCCXXII') test.assert_equals(convert_decimal_roman('51'), 'LI') test.assert_equals(convert_decimal_roman('372'), 'CCCLXXII') test.assert_equals(convert_decimal_roman('824'), 'DCCCXXIV') test.assert_equals(convert_decimal_roman('136'), 'CXXXVI') test.assert_equals(convert_decimal_roman('89'), 'LXXXIX') test.assert_equals(convert_decimal_roman('693'), 'DCXCIII') test.assert_equals(convert_decimal_roman('81'), 'LXXXI') test.assert_equals(convert_decimal_roman('681'), 'DCLXXXI') test.assert_equals(convert_decimal_roman('306'), 'CCCVI') test.assert_equals(convert_decimal_roman('398'), 'CCCXCVIII') test.assert_equals(convert_decimal_roman('554'), 'DLIV') test.assert_equals(convert_decimal_roman('651'), 'DCLI') test.assert_equals(convert_decimal_roman('403'), 'CDIII') test.assert_equals(convert_decimal_roman('485'), 'CDLXXXV') test.assert_equals(convert_decimal_roman('815'), 'DCCCXV') test.assert_equals(convert_decimal_roman('88'), 'LXXXVIII') test.assert_equals(convert_decimal_roman('53'), 'LIII') test.assert_equals(convert_decimal_roman('610'), 'DCX') test.assert_equals(convert_decimal_roman('410'), 'CDX') test.assert_equals(convert_decimal_roman('376'), 'CCCLXXVI') test.assert_equals(convert_decimal_roman('791'), 'DCCXCI') test.assert_equals(convert_decimal_roman('594'), 'DXCIV') test.assert_equals(convert_decimal_roman('486'), 'CDLXXXVI') test.assert_equals(convert_decimal_roman('165'), 'CLXV') test.assert_equals(convert_decimal_roman('812'), 'DCCCXII') test.assert_equals(convert_decimal_roman('224'), 'CCXXIV') test.assert_equals(convert_decimal_roman('185'), 'CLXXXV') test.assert_equals(convert_decimal_roman('833'), 'DCCCXXXIII') test.assert_equals(convert_decimal_roman('994'), 'CMXCIV') test.assert_equals(convert_decimal_roman('385'), 'CCCLXXXV') test.assert_equals(convert_decimal_roman('821'), 'DCCCXXI') test.assert_equals(convert_decimal_roman('572'), 'DLXXII') test.assert_equals(convert_decimal_roman('428'), 'CDXXVIII') test.assert_equals(convert_decimal_roman('918'), 'CMXVIII') test.assert_equals(convert_decimal_roman('86'), 'LXXXVI') test.assert_equals(convert_decimal_roman('238'), 'CCXXXVIII') test.assert_equals(convert_decimal_roman('206'), 'CCVI') test.assert_equals(convert_decimal_roman('56'), 'LVI') test.assert_equals(convert_decimal_roman('279'), 'CCLXXIX') test.assert_equals(convert_decimal_roman('72'), 'LXXII') test.assert_equals(convert_decimal_roman('380'), 'CCCLXXX') test.assert_equals(convert_decimal_roman('26'), 'XXVI') test.assert_equals(convert_decimal_roman('715'), 'DCCXV') test.assert_equals(convert_decimal_roman('168'), 'CLXVIII')1 1 import codewars_test as test
2 2 # TODO Write tests
3 3 import solution # or from solution import example
4 4 5 5 # test.assert_equals(actual, expected, [optional] message)
6 6 @test.describe("Example")7 7 def test_group():
8 8 @test.it("test case")9 9 def test_case():
10 10 test.assert_equals(convert_decimal_roman('69'), 'LXIX')11 11 test.assert_equals(convert_decimal_roman('874'), 'DCCCLXXIV')12 12 test.assert_equals(convert_decimal_roman('938'), 'CMXXXVIII')13 13 test.assert_equals(convert_decimal_roman('442'), 'CDXLII')14 14 test.assert_equals(convert_decimal_roman('323'), 'CCCXXIII')15 15 test.assert_equals(convert_decimal_roman('548'), 'DXLVIII')16 16 test.assert_equals(convert_decimal_roman('386'), 'CCCLXXXVI')17 17 test.assert_equals(convert_decimal_roman('962'), 'CMLXII')18 18 test.assert_equals(convert_decimal_roman('217'), 'CCXVII')19 19 test.assert_equals(convert_decimal_roman('771'), 'DCCLXXI')20 20 test.assert_equals(convert_decimal_roman('997'), 'CMXCVII')21 21 test.assert_equals(convert_decimal_roman('175'), 'CLXXV')22 22 test.assert_equals(convert_decimal_roman('873'), 'DCCCLXXIII')23 23 test.assert_equals(convert_decimal_roman('33'), 'XXXIII')24 24 test.assert_equals(convert_decimal_roman('508'), 'DVIII')25 25 test.assert_equals(convert_decimal_roman('743'), 'DCCXLIII')26 26 test.assert_equals(convert_decimal_roman('326'), 'CCCXXVI')27 27 test.assert_equals(convert_decimal_roman('858'), 'DCCCLVIII')28 28 test.assert_equals(convert_decimal_roman('707'), 'DCCVII')29 29 test.assert_equals(convert_decimal_roman('459'), 'CDLIX')30 30 test.assert_equals(convert_decimal_roman('976'), 'CMLXXVI')31 31 test.assert_equals(convert_decimal_roman('855'), 'DCCCLV')32 32 test.assert_equals(convert_decimal_roman('840'), 'DCCCXL')33 33 test.assert_equals(convert_decimal_roman('682'), 'DCLXXXII')34 34 test.assert_equals(convert_decimal_roman('506'), 'DVI')35 35 test.assert_equals(convert_decimal_roman('553'), 'DLIII')36 36 test.assert_equals(convert_decimal_roman('1'), 'I')37 37 test.assert_equals(convert_decimal_roman('48'), 'XLVIII')38 38 test.assert_equals(convert_decimal_roman('125'), 'CXXV')39 39 test.assert_equals(convert_decimal_roman('353'), 'CCCLIII')40 40 test.assert_equals(convert_decimal_roman('137'), 'CXXXVII')41 41 test.assert_equals(convert_decimal_roman('423'), 'CDXXIII')42 42 test.assert_equals(convert_decimal_roman('26'), 'XXVI')43 43 test.assert_equals(convert_decimal_roman('362'), 'CCCLXII')44 44 test.assert_equals(convert_decimal_roman('587'), 'DLXXXVII')45 45 test.assert_equals(convert_decimal_roman('599'), 'DXCIX')46 46 test.assert_equals(convert_decimal_roman('589'), 'DLXXXIX')47 47 test.assert_equals(convert_decimal_roman('619'), 'DCXIX')48 48 test.assert_equals(convert_decimal_roman('261'), 'CCLXI')49 49 test.assert_equals(convert_decimal_roman('480'), 'CDLXXX')50 50 test.assert_equals(convert_decimal_roman('410'), 'CDX')51 51 test.assert_equals(convert_decimal_roman('776'), 'DCCLXXVI')52 52 test.assert_equals(convert_decimal_roman('625'), 'DCXXV')53 53 test.assert_equals(convert_decimal_roman('116'), 'CXVI')54 54 test.assert_equals(convert_decimal_roman('112'), 'CXII')55 55 test.assert_equals(convert_decimal_roman('603'), 'DCIII')56 56 test.assert_equals(convert_decimal_roman('549'), 'DXLIX')57 57 test.assert_equals(convert_decimal_roman('838'), 'DCCCXXXVIII')58 58 test.assert_equals(convert_decimal_roman('846'), 'DCCCXLVI')59 59 test.assert_equals(convert_decimal_roman('756'), 'DCCLVI')60 60 test.assert_equals(convert_decimal_roman('333'), 'CCCXXXIII')61 61 test.assert_equals(convert_decimal_roman('325'), 'CCCXXV')62 62 test.assert_equals(convert_decimal_roman('154'), 'CLIV')63 63 test.assert_equals(convert_decimal_roman('104'), 'CIV')64 64 test.assert_equals(convert_decimal_roman('669'), 'DCLXIX')65 65 test.assert_equals(convert_decimal_roman('822'), 'DCCCXXII')66 66 test.assert_equals(convert_decimal_roman('51'), 'LI')67 67 test.assert_equals(convert_decimal_roman('372'), 'CCCLXXII')68 68 test.assert_equals(convert_decimal_roman('824'), 'DCCCXXIV')69 69 test.assert_equals(convert_decimal_roman('136'), 'CXXXVI')70 70 test.assert_equals(convert_decimal_roman('89'), 'LXXXIX')71 71 test.assert_equals(convert_decimal_roman('693'), 'DCXCIII')72 72 test.assert_equals(convert_decimal_roman('81'), 'LXXXI')73 73 test.assert_equals(convert_decimal_roman('681'), 'DCLXXXI')74 74 test.assert_equals(convert_decimal_roman('306'), 'CCCVI')75 75 test.assert_equals(convert_decimal_roman('398'), 'CCCXCVIII')76 76 test.assert_equals(convert_decimal_roman('554'), 'DLIV')77 77 test.assert_equals(convert_decimal_roman('651'), 'DCLI')78 78 test.assert_equals(convert_decimal_roman('403'), 'CDIII')79 79 test.assert_equals(convert_decimal_roman('485'), 'CDLXXXV')80 80 test.assert_equals(convert_decimal_roman('815'), 'DCCCXV')81 81 test.assert_equals(convert_decimal_roman('88'), 'LXXXVIII')82 82 test.assert_equals(convert_decimal_roman('53'), 'LIII')83 83 test.assert_equals(convert_decimal_roman('610'), 'DCX')84 84 test.assert_equals(convert_decimal_roman('410'), 'CDX')85 85 test.assert_equals(convert_decimal_roman('376'), 'CCCLXXVI')86 86 test.assert_equals(convert_decimal_roman('791'), 'DCCXCI')87 87 test.assert_equals(convert_decimal_roman('594'), 'DXCIV')88 88 test.assert_equals(convert_decimal_roman('486'), 'CDLXXXVI')89 89 test.assert_equals(convert_decimal_roman('165'), 'CLXV')90 90 test.assert_equals(convert_decimal_roman('812'), 'DCCCXII')91 91 test.assert_equals(convert_decimal_roman('224'), 'CCXXIV')92 92 test.assert_equals(convert_decimal_roman('185'), 'CLXXXV')93 93 test.assert_equals(convert_decimal_roman('833'), 'DCCCXXXIII')94 94 test.assert_equals(convert_decimal_roman('994'), 'CMXCIV')95 95 test.assert_equals(convert_decimal_roman('385'), 'CCCLXXXV')96 96 test.assert_equals(convert_decimal_roman('821'), 'DCCCXXI')97 97 test.assert_equals(convert_decimal_roman('572'), 'DLXXII')98 98 test.assert_equals(convert_decimal_roman('428'), 'CDXXVIII')99 99 test.assert_equals(convert_decimal_roman('918'), 'CMXVIII')100 100 test.assert_equals(convert_decimal_roman('86'), 'LXXXVI')101 101 test.assert_equals(convert_decimal_roman('238'), 'CCXXXVIII')102 102 test.assert_equals(convert_decimal_roman('206'), 'CCVI')103 103 test.assert_equals(convert_decimal_roman('56'), 'LVI')104 104 test.assert_equals(convert_decimal_roman('279'), 'CCLXXIX')105 105 test.assert_equals(convert_decimal_roman('72'), 'LXXII')106 106 test.assert_equals(convert_decimal_roman('380'), 'CCCLXXX')107 107 test.assert_equals(convert_decimal_roman('26'), 'XXVI')108 108 test.assert_equals(convert_decimal_roman('715'), 'DCCXV')109 109 test.assert_equals(convert_decimal_roman('168'), 'CLXVIII')
Recent Moves:
Basic Language Features
Fundamentals
Control Flow
Roman numerals can be generated with the following letters I, V, X, L, C, D, M, but the generated numbers must be entered in decimal. Let's see examples:
convert_decimal_roman('46') # 'XLVI'
convert_decimal_roman('999') # 'CMXCIX'
convert_decimal_roman('504') # 'DIV'
Requirements:
- The number per argument must be in string type
- No validation required for floating numbers
- Only numbers up to 999 can be entered
def convert_decimal_roman(numero):
num_romanos_dic = {
1: 'I',
5: 'V',
10: 'X',
50: 'L',
100: 'C',
500: 'D',
1000: 'M'
}
list_num_rom = [{'key': x, 'value': y} for x, y in num_romanos_dic.items()]
size_num = len(numero)
output = []
for i in range(size_num):
num = numero[i:]
num_unit = int(num)
numextre_izq = int(num[0])
pref = []
for i in range(1, len(list_num_rom), 2):
if num_unit >= list_num_rom[i-1]['key'] and num_unit < list_num_rom[i+1]['key']:
pref.append(list_num_rom[i-1]['value'])
pref.append(list_num_rom[i]['value'])
pref.append(list_num_rom[i+1]['value'])
if numextre_izq < 4 and numextre_izq > 0:
output.append(pref[0]*numextre_izq)
if numextre_izq == 4:
output.extend(pref[0:2])
if numextre_izq == 5:
output.append(pref[1])
if numextre_izq > 5 and numextre_izq < 9:
output.append(pref[1] + pref[0]*(numextre_izq-5))
if numextre_izq == 9:
output.extend(pref[::2])
output = ''.join(output)
return outputimport codewars_test as test
# TODO Write tests
import solution # or from solution import example
# test.assert_equals(actual, expected, [optional] message)
@test.describe("Example")
def test_group():
@test.it("test case")
def test_case():
test.assert_equals(convert_decimal_roman('69'), 'LXIX')
test.assert_equals(convert_decimal_roman('874'), 'DCCCLXXIV')
test.assert_equals(convert_decimal_roman('938'), 'CMXXXVIII')
test.assert_equals(convert_decimal_roman('442'), 'CDXLII')
test.assert_equals(convert_decimal_roman('323'), 'CCCXXIII')
test.assert_equals(convert_decimal_roman('548'), 'DXLVIII')
test.assert_equals(convert_decimal_roman('386'), 'CCCLXXXVI')
test.assert_equals(convert_decimal_roman('962'), 'CMLXII')
test.assert_equals(convert_decimal_roman('217'), 'CCXVII')
test.assert_equals(convert_decimal_roman('771'), 'DCCLXXI')
test.assert_equals(convert_decimal_roman('997'), 'CMXCVII')
test.assert_equals(convert_decimal_roman('175'), 'CLXXV')
test.assert_equals(convert_decimal_roman('873'), 'DCCCLXXIII')
test.assert_equals(convert_decimal_roman('33'), 'XXXIII')
test.assert_equals(convert_decimal_roman('508'), 'DVIII')
test.assert_equals(convert_decimal_roman('743'), 'DCCXLIII')
test.assert_equals(convert_decimal_roman('326'), 'CCCXXVI')
test.assert_equals(convert_decimal_roman('858'), 'DCCCLVIII')
test.assert_equals(convert_decimal_roman('707'), 'DCCVII')
test.assert_equals(convert_decimal_roman('459'), 'CDLIX')
test.assert_equals(convert_decimal_roman('976'), 'CMLXXVI')
test.assert_equals(convert_decimal_roman('855'), 'DCCCLV')
test.assert_equals(convert_decimal_roman('840'), 'DCCCXL')
test.assert_equals(convert_decimal_roman('682'), 'DCLXXXII')
test.assert_equals(convert_decimal_roman('506'), 'DVI')
test.assert_equals(convert_decimal_roman('553'), 'DLIII')
test.assert_equals(convert_decimal_roman('1'), 'I')
test.assert_equals(convert_decimal_roman('48'), 'XLVIII')
test.assert_equals(convert_decimal_roman('125'), 'CXXV')
test.assert_equals(convert_decimal_roman('353'), 'CCCLIII')
test.assert_equals(convert_decimal_roman('137'), 'CXXXVII')
test.assert_equals(convert_decimal_roman('423'), 'CDXXIII')
test.assert_equals(convert_decimal_roman('26'), 'XXVI')
test.assert_equals(convert_decimal_roman('362'), 'CCCLXII')
test.assert_equals(convert_decimal_roman('587'), 'DLXXXVII')
test.assert_equals(convert_decimal_roman('599'), 'DXCIX')
test.assert_equals(convert_decimal_roman('589'), 'DLXXXIX')
test.assert_equals(convert_decimal_roman('619'), 'DCXIX')
test.assert_equals(convert_decimal_roman('261'), 'CCLXI')
test.assert_equals(convert_decimal_roman('480'), 'CDLXXX')
test.assert_equals(convert_decimal_roman('410'), 'CDX')
test.assert_equals(convert_decimal_roman('776'), 'DCCLXXVI')
test.assert_equals(convert_decimal_roman('625'), 'DCXXV')
test.assert_equals(convert_decimal_roman('116'), 'CXVI')
test.assert_equals(convert_decimal_roman('112'), 'CXII')
test.assert_equals(convert_decimal_roman('603'), 'DCIII')
test.assert_equals(convert_decimal_roman('549'), 'DXLIX')
test.assert_equals(convert_decimal_roman('838'), 'DCCCXXXVIII')
test.assert_equals(convert_decimal_roman('846'), 'DCCCXLVI')
test.assert_equals(convert_decimal_roman('756'), 'DCCLVI')
test.assert_equals(convert_decimal_roman('333'), 'CCCXXXIII')
test.assert_equals(convert_decimal_roman('325'), 'CCCXXV')
test.assert_equals(convert_decimal_roman('154'), 'CLIV')
test.assert_equals(convert_decimal_roman('104'), 'CIV')
test.assert_equals(convert_decimal_roman('669'), 'DCLXIX')
test.assert_equals(convert_decimal_roman('822'), 'DCCCXXII')
test.assert_equals(convert_decimal_roman('51'), 'LI')
test.assert_equals(convert_decimal_roman('372'), 'CCCLXXII')
test.assert_equals(convert_decimal_roman('824'), 'DCCCXXIV')
test.assert_equals(convert_decimal_roman('136'), 'CXXXVI')
test.assert_equals(convert_decimal_roman('89'), 'LXXXIX')
test.assert_equals(convert_decimal_roman('693'), 'DCXCIII')
test.assert_equals(convert_decimal_roman('81'), 'LXXXI')
test.assert_equals(convert_decimal_roman('681'), 'DCLXXXI')
test.assert_equals(convert_decimal_roman('306'), 'CCCVI')
test.assert_equals(convert_decimal_roman('398'), 'CCCXCVIII')
test.assert_equals(convert_decimal_roman('554'), 'DLIV')
test.assert_equals(convert_decimal_roman('651'), 'DCLI')
test.assert_equals(convert_decimal_roman('403'), 'CDIII')
test.assert_equals(convert_decimal_roman('485'), 'CDLXXXV')
test.assert_equals(convert_decimal_roman('815'), 'DCCCXV')
test.assert_equals(convert_decimal_roman('88'), 'LXXXVIII')
test.assert_equals(convert_decimal_roman('53'), 'LIII')
test.assert_equals(convert_decimal_roman('610'), 'DCX')
test.assert_equals(convert_decimal_roman('410'), 'CDX')
test.assert_equals(convert_decimal_roman('376'), 'CCCLXXVI')
test.assert_equals(convert_decimal_roman('791'), 'DCCXCI')
test.assert_equals(convert_decimal_roman('594'), 'DXCIV')
test.assert_equals(convert_decimal_roman('486'), 'CDLXXXVI')
test.assert_equals(convert_decimal_roman('165'), 'CLXV')
test.assert_equals(convert_decimal_roman('812'), 'DCCCXII')
test.assert_equals(convert_decimal_roman('224'), 'CCXXIV')
test.assert_equals(convert_decimal_roman('185'), 'CLXXXV')
test.assert_equals(convert_decimal_roman('833'), 'DCCCXXXIII')
test.assert_equals(convert_decimal_roman('994'), 'CMXCIV')
test.assert_equals(convert_decimal_roman('385'), 'CCCLXXXV')
test.assert_equals(convert_decimal_roman('821'), 'DCCCXXI')
test.assert_equals(convert_decimal_roman('572'), 'DLXXII')
test.assert_equals(convert_decimal_roman('428'), 'CDXXVIII')
test.assert_equals(convert_decimal_roman('918'), 'CMXVIII')
test.assert_equals(convert_decimal_roman('86'), 'LXXXVI')
test.assert_equals(convert_decimal_roman('238'), 'CCXXXVIII')
test.assert_equals(convert_decimal_roman('206'), 'CCVI')
test.assert_equals(convert_decimal_roman('56'), 'LVI')
test.assert_equals(convert_decimal_roman('279'), 'CCLXXIX')
test.assert_equals(convert_decimal_roman('72'), 'LXXII')
test.assert_equals(convert_decimal_roman('380'), 'CCCLXXX')
test.assert_equals(convert_decimal_roman('26'), 'XXVI')
test.assert_equals(convert_decimal_roman('715'), 'DCCXV')
test.assert_equals(convert_decimal_roman('168'), 'CLXVIII')Consider the infinite sequence of integers: 1, 1, 2, 1, 2, 3, 1, 2, 3, 4, 1, 2, 3, 4, 5…. The sequence is built in the following way: at first the number 1 is written out, then the numbers from 1 to 2, then the numbers from 1 to 3, then the numbers from 1 to 4 and so on.
Find the number on the n-th position of the sequence.
Input: n = 3
Output: 2
Input: n = 55
Output:10
function solution(num){
let times = 1;
let count = 0;
while(num > 0){
count = num
num -= times;
times++;
}
return count;
}const { assert } = require("chai")
function test(n, expected) {
let actual = solution(n)
it(`Expected ${expected}, got ${actual}`, () => {
assert.strictEqual(actual, expected)
})
}
describe("basic tests", function(){
test(3,2);
test(55,10);
test(4,1);
})Programming challenge description:
The example sequence
011212201220200112 ... is constructed as
follows:
- The first element in the sequence is 0.
- For each iteration, repeat the following
action: take a copy of the entire current
sequence, replace O with 1, 1 with 2, and 2
with 0, and place it at the end of the
current sequence. E.g.
0 ≥ 01 > 0112 > 01121220 > ...
Create an algorithm which determines what
number is at the Nth position in the
sequence (using -based indexing).
Input:
Your program should read lines from
standard input. Each line contains an
integer N such that O <= N <=
3000000000.
Output:
Print out the number which is at the Nth
position in the sequence.
Test 1
Test Input: 5
Test Output: 2
Test 2
Test Input: 101
Test Output: 1
Test 3
Test Input: 25684
Test Output: 0
function solution(num){
if(num === 0) return 0
let count = 1;
while(num >1){
count++;
let tmp = Math.round(Math.log2(num))
num -= Math.pow(tmp,2)
}
if(Math.round(count % 3) === 1){
return 1
}
if(Math.round(count % 3) === 2){
return 2
}
if(Math.round(count % 3) === 0){
return 0
}
}
// let test1 = findNth(0)
// console.log(test1)//0
// let test2 = findNth(5)
// console.log(test2)//2
// let test3 = findNth(101)
// console.log(test3)//1
// let test4 = findNth(25684)
// console.log(test4)//0const { assert } = require("chai")
function test(n, expected) {
let actual = solution(n)
it(`Expected ${expected}, got ${actual}`, () => {
assert.strictEqual(actual, expected)
})
}
describe("basic tests", function(){
test(0,0);
test(5,2);
test(101,1);
test(25684,0);
})Memory
In this kata you have to determine which memory segment a pointer belongs to.
The memory layout of a C program is divided in the following segments:
- global and
staticvariables are stored in the.datasegment;- if they are
constant they are stored in the.rodata(read-only data) segment instead; - else if they are uninitialized or initialized to
0, they are stored in the.bss(block starting symbol) segment instead;
- if they are
- local variables are stored onto the
stack; -
malloc()&co allocate memory on theheap - the program's machine code is stored in the
.textsegment;
The NULL pointer does not belong to any of these segments.
The kata contains an enum corresponding to these different memory types. Determine which kind of pointer was passed to your function and return the correct enum member.
#include <stdlib.h>
#include <stddef.h>
enum memory_type {DATA, RODATA, BSS, STACK, HEAP, NIL, TEXT};
ptrdiff_t array_min (size_t length, ptrdiff_t array[])
{
if (length == 0)
return 0;
ptrdiff_t min = array[0];
for (size_t i = 1; i < length; i++)
min = (array[i] < min) ? array[i] : min;
return min;
}
enum memory_type guess_memory_type (const void *ptr)
{
if (ptr == NULL)
return NIL;
static char *string_literal = "some string literal";
void *rodata_ptr = string_literal;
static char static_var = '@';
void *data_ptr = &static_var;
static char uninitialized_static_var;
void *bss_ptr = &uninitialized_static_var;
char local_var;
void *stack_ptr = &local_var;
void *heap_ptr = malloc(1);
void *text_ptr = guess_memory_type;
// it's UB to substract pointers unless they point to the same array, but whatever
ptrdiff_t stack_diff = llabs((char *)ptr - (char *)stack_ptr);
ptrdiff_t heap_diff = llabs((char *)ptr - (char *)heap_ptr);
ptrdiff_t bss_diff = llabs((char *)ptr - (char *)bss_ptr);
ptrdiff_t rodata_diff = llabs((char *)ptr - (char *)rodata_ptr);
ptrdiff_t data_diff = llabs((char *)ptr - (char *)data_ptr);
ptrdiff_t text_diff = llabs((char *)ptr - (char *)text_ptr);
ptrdiff_t diffs_array[] = { stack_diff, heap_diff, bss_diff, rodata_diff, data_diff, text_diff};
ptrdiff_t smallest = array_min(sizeof(diffs_array) / sizeof(diffs_array[0]), diffs_array);
free(heap_ptr);
// that wont work if pointers are close to the segment boundaries
if (smallest == stack_diff) return STACK;
if (smallest == heap_diff) return HEAP;
if (smallest == bss_diff) return BSS;
if (smallest == rodata_diff) return RODATA;
if (smallest == data_diff) return DATA;
if (smallest == text_diff) return TEXT;
return -1;
}#include <criterion/criterion.h>
#include <stdlib.h>
#include <stdbool.h>
#define member2str(member) [member] = #member
enum memory_type {DATA, RODATA, BSS, STACK, HEAP, NIL, TEXT};
const char *const names[] = { member2str(DATA), member2str(RODATA), member2str(BSS), member2str(STACK), member2str(HEAP), member2str(NIL), member2str(TEXT)};
enum memory_type guess_memory_type (const void *ptr);
#define do_test(ptr, expected) \
do { \
enum memory_type actual = guess_memory_type(ptr); \
cr_assert_eq(actual, expected, "%p is a %s pointer, but got %s", ptr, names[expected], names[actual]);\
} while (false)
char a; // global uninitialized variable
char b = 0; // global 0-initialized variable
char c = '@'; // global initialized variable
char *d = "do androids dream of electric sheep ?"; // pointer to string literal
void e (void) {} // function pointer
const char j = 0; // global constant 0-initialized variable
Test(tests_suite, sample_tests)
{
char f; // stack-allocated local variable
void *g = malloc(1); // heap-allocated local variable
static char h; // static uninitialized variable
static char i = '$'; // static initialized variable
do_test(NULL, NIL);
do_test(&a, BSS);
do_test(&b, BSS);
do_test(&c, DATA);
do_test(d, RODATA);
do_test(&e, TEXT);
do_test(&f, STACK);
do_test(g, HEAP);
do_test(&h, BSS);
do_test(&i, DATA);
do_test(&j, RODATA);
free(g);
}Input data now come from parameters with zero default value, so it can calculate for any data and can be tested with different test cases. Modified the original test case and added a new one.
/*input data come from parameters with zero default value, so it can calculate for any data and can be tested with different test cases*/ const yearlyElectricCosts = (m1 = 0, m2 = 0, m3 = 0, m4 = 0, m5 = 0, m6 = 0, m7 = 0, m8 = 0, m9 = 0, m10 = 0, m11 = 0, m12 = 0 ) => { /* Create an object with 12 keys and the input values*/ const monthlyCosts = { januaryBill : m1, februaryBill : m2, marchBill : m3, aprilBill : m4, mayBill : m5, juneBill : m6, julyBill : m7, augustBill : m8, septemberBill : m9, octoberBill : m10, novemberBill : m11, decemberBill : m12 } /*print the object*/ console.log(monthlyCosts); // Decide on a variable name and sum all the monthly charges const totalCharges = Object.values(monthlyCosts).reduce((acc, curr) => acc + curr, 0); // Return the value of the variable by typing it in after the `return` keyword below console.log(totalCharges.toFixed(2), typeof(totalCharges.toFixed(2))); /*toFixed converts the result to string, we have to convert it back to number*/ return parseFloat(totalCharges.toFixed(2)); }1 − const yearlyElectricCosts = () => {2 − // Create an object with 12 keys with the correct values
1 + /*input data come from parameters with zero default value, so it can calculate for any data and can be tested with different test cases*/
2 + const yearlyElectricCosts = (m1 = 0, m2 = 0, m3 = 0, m4 = 0, m5 = 0, m6 = 0, m7 = 0, m8 = 0, m9 = 0, m10 = 0, m11 = 0, m12 = 0 ) => {3 + /* Create an object with 12 keys and the input values*/
3 3 const monthlyCosts = {4 − januaryBill : 43.11,
5 − februaryBill : 50.21,
6 − marchBill : 48.92,
7 − aprilBill : 62.36,
8 − mayBill : 54.64,
9 − juneBill : 49.30,
10 − julyBill : 61.93,
11 − augustBill : 68.54,
12 − septemberBill : 71.77,
13 − octoberBill : 70.28,
14 − novemberBill : 59.56,
15 − decemberBill : 62.04
5 + januaryBill : m1,
6 + februaryBill : m2,
7 + marchBill : m3,
8 + aprilBill : m4,
9 + mayBill : m5,
10 + juneBill : m6,
11 + julyBill : m7,
12 + augustBill : m8,
13 + septemberBill : m9,
14 + octoberBill : m10,
15 + novemberBill : m11,
16 + decemberBill : m12
16 16 }
17 − // Decide on a variable name and add all the monthly charges
18 + /*print the object*/
19 + console.log(monthlyCosts);
20 + // Decide on a variable name and sum all the monthly charges
18 18 const totalCharges = Object.values(monthlyCosts).reduce((acc, curr) => acc + curr, 0);
19 19 20 20 // Return the value of the variable by typing it in after the `return` keyword below
21 21 console.log(totalCharges.toFixed(2), typeof(totalCharges.toFixed(2)));
22 22 /*toFixed converts the result to string, we have to convert it back to number*/
23 23 return parseFloat(totalCharges.toFixed(2));
24 24 }
const { assert } = require("chai"); describe("Solution", function() { it("should test for something", function() { assert.strictEqual(yearlyElectricCosts(43.11, 50.21, 48.92, 62.36, 54.64, 49.30, 61.93, 68.54, 71.77, 70.28, 59.56, 62.04), 702.66) }); it("should test for something", function() { assert.strictEqual(yearlyElectricCosts(43.11, 50.21, 48.92, 62.36, 54.64, 49.30, 61.93, 68.54, 71.77, 70.28, 59.56), 640.62) }); });1 1 const { assert } = require("chai");2 2 3 3 describe("Solution", function() {4 4 it("should test for something", function() {5 − assert.strictEqual(yearlyElectricCosts(), 702.66)
5 + assert.strictEqual(yearlyElectricCosts(43.11, 50.21, 48.92, 62.36, 54.64, 49.30, 61.93, 68.54, 71.77, 70.28, 59.56, 62.04), 702.66)
6 + });
7 + it("should test for something", function() {8 + assert.strictEqual(yearlyElectricCosts(43.11, 50.21, 48.92, 62.36, 54.64, 49.30, 61.93, 68.54, 71.77, 70.28, 59.56), 640.62)
6 6 });
7 7 });
Royal Morse Code
The Royal British Kingdom has enforced a new decree in the society that all princes and princesses must use a new
form of Morse code for all communications.
We know that Morse Code uses dots (.) and dashes (;) to communicate meaning to the receiver. The following rules
are stated according to this decree:
Any message must begin with a dot (.)
Any message must end with a dash (-)
Every dot (.) must have a corresponding dash (-) after it to close it
If a message follows all the mentioned rules, then it is considered compliant with the Royal Decree and the messa
allowed to be sent. Otherwise, it is considered as defaulted.
The Great Prince of Britain has sent out a set of N messages of the new Morse code. You have to figure out the
number of messages which are compliant and ultimately sent forward.
Input Specification:
input1: N, the number of messages.
input2: Sequence of strings, each representing a new message in the set.
Output Specification:
The number of messages compliant to the new decree
Example 1:
input1: 1
input2: ("..---.-")
Output: 0
Explanation:
The given string starts with a dot(.) and ends with a dash (-), but it fails the third criteria as there are 5 dots but only 4
dashes. Thus, O messages are compliant.
Example 2:
input1: 2
input2: (".-.-.-.-","...---.-")
Output: 2
Explanation:
Both the given strings follow all 3 rules. Thus, both 2 messages are compliant.
import java.util.*;
class MorseCodeChecker{
public int decreeCompliant(int input1, String[] input2){
int result = 0;
for(int i = 0 ; i < input2.length; i++){
Deque<Character> stack = new ArrayDeque<>();
if(input2[i] == null || input2[i].length() == 0){
continue;
}
String cur = input2[i];
if(cur.charAt(0) != '.' && cur.charAt(cur.length()-1) != '-'){
break;
}
int j = 0;
while(j < cur.length()){
if((cur.charAt(j) == '.')){
while(j < cur.length() && cur.charAt(j) == '.'){
j++;
stack.push('.');
}
}
else{
if(stack.size() == 0){
break;
}
stack.pop();
j++;
}
}
if(j == cur.length() && stack.size() == 0){
result++;
}
}
return result;
}
}import org.junit.jupiter.api.Test;
import static org.junit.jupiter.api.Assertions.assertEquals;
// TODO: Replace examples and use TDD by writing your own tests
class SolutionTest {
MorseCodeChecker tests = new MorseCodeChecker();
@Test
void testValid() {
// assertEquals("expected", "actual");
String[] testcase = {".-.-.-","...---.-"};
String[] testcase2 = {".---.-"};
assertEquals(2,tests.decreeCompliant(2,testcase));
assertEquals(1,tests.decreeCompliant(1,testcase2));
}
@Test
void testInvalid() {
// assertEquals("expected", "actual");
String[] testcase = {".-..-.-"};
String[] testcase2 = {"-.-.-."};
String[] testcase3 = {".--..-.-"};
assertEquals(0,tests.decreeCompliant(1,testcase));
assertEquals(0,tests.decreeCompliant(1,testcase2));
assertEquals(0,tests.decreeCompliant(1,testcase3));
}
}The evaluation order may be different from the left-to-right order if the pipe operator is present.
The generated code for this example is similar to the following code:
Caml_obj.caml_equal(Caml_array.caml_array_get(a.sort(), 0), Caml_array.caml_array_get($$Array.copy(a), 0));
let f = (a: array(int)): int => a[0]open Jest;
open Expect;
open Solution;
describe("test", () => {
let refSol = (a: array(int)): int => Js.Array.sortInPlaceWith((-), a)[0];
test("[| 3, 1, 2 |]", () => {
let a = [| 3, 1, 2 |];
// let c = Array.copy(a);
expect(f(Array.copy(a))) |> toBe(refSol(a))
})
});Fundamentals
Games
def riddle _;/#{?\\+??}/=~_ end1 − def riddle(word):
2 − return word.rindex("?")1 + def riddle _;/#{?\\+??}/=~_ end
# From Ruby 3.0, RSpec is used under the hood. # See https://rspec.info/ # Defaults to the global `describe` for backwards compatibility, but `RSpec.desribe` works as well. describe "Example" do it "Finds index of '?'" do expect(riddle("Two?")).to eq(3) expect(riddle("Ten?")).to eq(3) expect(riddle("Three?")).to eq(5) # The following is still supported, but new tests should now use them. # Test.assert_equals(add(1, 1), 2) end end1 − test.assert_equals(riddle("Two?"), 3)2 − test.assert_equals(riddle("Ten?"), 3)3 − test.assert_equals(riddle("Three?"), 5)1 + # From Ruby 3.0, RSpec is used under the hood.
2 + # See https://rspec.info/
3 + # Defaults to the global `describe` for backwards compatibility, but `RSpec.desribe` works as well.
4 + describe "Example" do
5 + it "Finds index of '?'" do
6 + expect(riddle("Two?")).to eq(3)7 + expect(riddle("Ten?")).to eq(3)8 + expect(riddle("Three?")).to eq(5)9 + # The following is still supported, but new tests should now use them.
10 + # Test.assert_equals(add(1, 1), 2)
11 + end
12 + end
Recent Moves:
Fundamentals
Games