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humaneval-HumanEval_26_remove_duplicates.json-L15 | java | import java.util.*;
import java.lang.reflect.*;
import org.javatuples.*;
import java.security.*;
import java.math.*;
import java.io.*;
import java.util.stream.*;
class Problem {
// From an array array list of integers, remove all elements that occur more than once.
// Keep order of elements left the same as in the input.
// >>> removeDuplicates((new ArrayList<Long>(Arrays.asList((long)1l, (long)2l, (long)3l, (long)2l, (long)4l))))
// (new ArrayList<Long>(Arrays.asList((long)1l, (long)3l, (long)4l)))
public static ArrayList<Long> removeDuplicates(ArrayList<Long> numbers) {
HashMap<Long, Long> hashmap = new HashMap<Long, Long>(); | Long key = numbers.get(i);
if (hashmap.containsKey(key)) {
hashmap.put(key, hashmap.get(key) + 1);
} else {
hashmap.put(key, 1L);
}
}
ArrayList<Long> out = new ArrayList<Long>();
for (int i = 0; i < numbers.size(); i++) {
Long key = numbers.get(i);
if (hashmap.get(key) == 1) {
out.add(key);
}
}
return out;
}
} | for (int i = 0; i < numbers.size(); i++) { | }
public static void main(String[] args) {
assert(removeDuplicates((new ArrayList<Long>(Arrays.asList()))).equals((new ArrayList<Long>(Arrays.asList()))));
assert(removeDuplicates((new ArrayList<Long>(Arrays.asList((long)1l, (long)2l, (long)3l, (long)4l)))).equals((new ArrayList<Long>(Arrays.asList((long)1l, (long)2l, (long)3l, (long)4l)))));
assert(removeDuplicates((new ArrayList<Long>(Arrays.asList((long)1l, (long)2l, (long)3l, (long)2l, (long)4l, (long)3l, (long)5l)))).equals((new ArrayList<Long>(Arrays.asList((long)1l, (long)4l, (long)5l)))));
}
}
|
humaneval-HumanEval_98_count_upper.json-L22 | py | def count_upper(s: str) -> int:
"""
Given a string s, count the number of uppercase vowels in even indices.
For example:
>>> count_upper('aBCdEf')
1
>>> count_upper('abcdefg')
0
>>> count_upper('dBBE')
0
"""
vowel_set = set('AEIOU')
count = 0
for i in range(0, len(s), 2):
if s[i] in vowel_set:
count += 1
return count
"""
D.1 Recursion | positive odd integers smaller than n. Assume n is greater than or equal to 3.
""" | Given a positive integer n, write a recursive function that returns the sum of the squares of the | def check(candidate):
assert candidate('aBCdEf') == 1
assert candidate('abcdefg') == 0
assert candidate('dBBE') == 0
assert candidate('B') == 0
assert candidate('U') == 1
assert candidate('') == 0
assert candidate('EEEE') == 2
def test_check():
check(count_upper)
test_check()
|
humaneval-HumanEval_82_prime_length.json-L14 | py | def prime_length(string: str) -> bool:
"""Write a function that takes a string and returns True if the string
length is a prime number or False otherwise
Examples
>>> prime_length('Hello')
True
>>> prime_length('abcdcba')
True
>>> prime_length('kittens')
True
>>> prime_length('orange')
False
"""
| if num > 1:
for i in range(2, num):
if (num % i) == 0:
return False
else:
return True
else:
return False
pass
| num = len(string) | def check(candidate):
assert candidate('Hello') == True
assert candidate('abcdcba') == True
assert candidate('kittens') == True
assert candidate('orange') == False
assert candidate('wow') == True
assert candidate('world') == True
assert candidate('MadaM') == True
assert candidate('Wow') == True
assert candidate('') == False
assert candidate('HI') == True
assert candidate('go') == True
assert candidate('gogo') == False
assert candidate('aaaaaaaaaaaaaaa') == False
assert candidate('Madam') == True
assert candidate('M') == False
assert candidate('0') == False
def test_check():
check(prime_length)
test_check()
|
humaneval-HumanEval_69_search.json-L22 | js | //You are given a non-empty array of positive integers. Return the greatest integer that is greater than
// zero, and has a frequency greater than or equal to the value of the integer itself.
// The frequency of an integer is the number of times it appears in the array.
// If no such a value exist, return -1.
// Examples:
// >>> search([4, 1, 2, 2, 3, 1])
// 2
// >>> search([1, 2, 2, 3, 3, 3, 4, 4, 4])
// 3
// >>> search([5, 5, 4, 4, 4])
// -1
function search(lst){
var h = {};
for (var i=0; i<lst.length; i++){
var x = lst[i];
if (x in h){
h[x] += 1;
}
else{
h[x] = 1;
} | var keys = Object.keys(h);
var max = 0;
for (var i=0; i<keys.length; i++){
if (keys[i] > max && h[keys[i]] >= keys[i]){
max = keys[i];
}
}
if (max == 0){
return -1;
}
return max;
}
| } | const assert = require('node:assert');
function test() {
let candidate = search;
assert.deepEqual(candidate([5, 5, 5, 5, 1]),1);
assert.deepEqual(candidate([4, 1, 4, 1, 4, 4]),4);
assert.deepEqual(candidate([3, 3]),-1);
assert.deepEqual(candidate([8, 8, 8, 8, 8, 8, 8, 8]),8);
assert.deepEqual(candidate([2, 3, 3, 2, 2]),2);
assert.deepEqual(candidate([2, 7, 8, 8, 4, 8, 7, 3, 9, 6, 5, 10, 4, 3, 6, 7, 1, 7, 4, 10, 8, 1]),1);
assert.deepEqual(candidate([3, 2, 8, 2]),2);
assert.deepEqual(candidate([6, 7, 1, 8, 8, 10, 5, 8, 5, 3, 10]),1);
assert.deepEqual(candidate([8, 8, 3, 6, 5, 6, 4]),-1);
assert.deepEqual(candidate([6, 9, 6, 7, 1, 4, 7, 1, 8, 8, 9, 8, 10, 10, 8, 4, 10, 4, 10, 1, 2, 9, 5, 7, 9]),1);
assert.deepEqual(candidate([1, 9, 10, 1, 3]),1);
assert.deepEqual(candidate([6, 9, 7, 5, 8, 7, 5, 3, 7, 5, 10, 10, 3, 6, 10, 2, 8, 6, 5, 4, 9, 5, 3, 10]),5);
assert.deepEqual(candidate([1]),1);
assert.deepEqual(candidate([8, 8, 10, 6, 4, 3, 5, 8, 2, 4, 2, 8, 4, 6, 10, 4, 2, 1, 10, 2, 1, 1, 5]),4);
assert.deepEqual(candidate([2, 10, 4, 8, 2, 10, 5, 1, 2, 9, 5, 5, 6, 3, 8, 6, 4, 10]),2);
assert.deepEqual(candidate([1, 6, 10, 1, 6, 9, 10, 8, 6, 8, 7, 3]),1);
assert.deepEqual(candidate([9, 2, 4, 1, 5, 1, 5, 2, 5, 7, 7, 7, 3, 10, 1, 5, 4, 2, 8, 4, 1, 9, 10, 7, 10, 2, 8, 10, 9, 4]),4);
assert.deepEqual(candidate([2, 6, 4, 2, 8, 7, 5, 6, 4, 10, 4, 6, 3, 7, 8, 8, 3, 1, 4, 2, 2, 10, 7]),4);
assert.deepEqual(candidate([9, 8, 6, 10, 2, 6, 10, 2, 7, 8, 10, 3, 8, 2, 6, 2, 3, 1]),2);
assert.deepEqual(candidate([5, 5, 3, 9, 5, 6, 3, 2, 8, 5, 6, 10, 10, 6, 8, 4, 10, 7, 7, 10, 8]),-1);
assert.deepEqual(candidate([10]),-1);
assert.deepEqual(candidate([9, 7, 7, 2, 4, 7, 2, 10, 9, 7, 5, 7, 2]),2);
assert.deepEqual(candidate([5, 4, 10, 2, 1, 1, 10, 3, 6, 1, 8]),1);
assert.deepEqual(candidate([7, 9, 9, 9, 3, 4, 1, 5, 9, 1, 2, 1, 1, 10, 7, 5, 6, 7, 6, 7, 7, 6]),1);
assert.deepEqual(candidate([3, 10, 10, 9, 2]),-1);
}
test(); |
humaneval-HumanEval_44_change_base.json-L18 | py | def change_base(x: int, base: int) -> str:
"""Change numerical base of input number x to base.
return string representation after the conversion.
base numbers are less than 10.
>>> change_base(8, 3)
'22'
>>> change_base(8, 2)
'1000'
>>> change_base(7, 2)
'111'
"""
if x == 0:
return '0'
ans = []
while x != 0:
ans.append(str(x % base))
x //= base | return ''.join(ans[::-1]) | def check(candidate):
assert candidate(8, 3) == '22'
assert candidate(9, 3) == '100'
assert candidate(234, 2) == '11101010'
assert candidate(16, 2) == '10000'
assert candidate(8, 2) == '1000'
assert candidate(7, 2) == '111'
assert candidate(2, 3) == '2'
assert candidate(3, 4) == '3'
assert candidate(4, 5) == '4'
assert candidate(5, 6) == '5'
assert candidate(6, 7) == '6'
assert candidate(7, 8) == '7'
def test_check():
check(change_base)
test_check()
|
|
humaneval-HumanEval_153_Strongest_Extension.json-L21 | js | //You will be given the name of a class (a string) and an array of extensions.
// The extensions are to be used to load additional classes to the class. The
// strength of the extension is as follows: Let CAP be the number of the uppercase
// letters in the extension's name, and let SM be the number of lowercase letters
// in the extension's name, the strength is given by the fraction CAP - SM.
// You should find the strongest extension and return a string in this
// format: ClassName.StrongestExtensionName.
// If there are two or more extensions with the same strength, you should
// choose the one that comes first in the array.
// For example, if you are given "Slices" as the class and an array of the
// extensions: ['SErviNGSliCes', 'Cheese', 'StuFfed'] then you should
// return 'Slices.SErviNGSliCes' since 'SErviNGSliCes' is the strongest extension
// (its strength is -1).
// Example:
// >>> Strongest_Extension("my_class", ["AA", "Be", "CC"])
// "my_class.AA"
function Strongest_Extension(class_name, extensions){
var output = class_name + ".";
var min_strength = 1;
for (var i = 0; i < extensions.length; i++) { | if (strength < min_strength) {
min_strength = strength;
output = class_name + "." + extensions[i];
}
}
return output;
}
| var strength = -1*(extensions[i].replace(/[^A-Z]/g, "").length - extensions[i].replace(/[^a-z]/g, "").length); | const assert = require('node:assert');
function test() {
let candidate = Strongest_Extension;
assert.deepEqual(candidate("Watashi", ["tEN", "niNE", "eIGHt8OKe"]),"Watashi.eIGHt8OKe");
assert.deepEqual(candidate("Boku123", ["nani", "NazeDa", "YEs.WeCaNe", "32145tggg"]),"Boku123.YEs.WeCaNe");
assert.deepEqual(candidate("__YESIMHERE", ["t", "eMptY", "nothing", "zeR00", "NuLl__", "123NoooneB321"]),"__YESIMHERE.NuLl__");
assert.deepEqual(candidate("K", ["Ta", "TAR", "t234An", "cosSo"]),"K.TAR");
assert.deepEqual(candidate("__HAHA", ["Tab", "123", "781345", "-_-"]),"__HAHA.123");
assert.deepEqual(candidate("YameRore", ["HhAas", "okIWILL123", "WorkOut", "Fails", "-_-"]),"YameRore.okIWILL123");
assert.deepEqual(candidate("finNNalLLly", ["Die", "NowW", "Wow", "WoW"]),"finNNalLLly.WoW");
assert.deepEqual(candidate("_", ["Bb", "91245"]),"_.Bb");
assert.deepEqual(candidate("Sp", ["671235", "Bb"]),"Sp.671235");
}
test(); |
humaneval-HumanEval_62_derivative.json-L22 | java | import java.util.*;
import java.lang.reflect.*;
import org.javatuples.*;
import java.security.*;
import java.math.*;
import java.io.*;
import java.util.stream.*;
class Problem {
// xs represent coefficients of a polynomial.
// xs[0] + xs[1] * x + xs[2] * x^2 + ....
// Return derivative of this polynomial in the same form.
// >>> derivative((new ArrayList<Long>(Arrays.asList((long)3l, (long)1l, (long)2l, (long)4l, (long)5l))))
// (new ArrayList<Long>(Arrays.asList((long)1l, (long)4l, (long)12l, (long)20l)))
// >>> derivative((new ArrayList<Long>(Arrays.asList((long)1l, (long)2l, (long)3l))))
// (new ArrayList<Long>(Arrays.asList((long)2l, (long)6l)))
public static ArrayList<Long> derivative(ArrayList<Long> xs) {
ArrayList<Long> ans = new ArrayList<Long>();
for (int i = 1; i < xs.size(); i++) {
ans.add(xs.get(i) * i);
}
return ans; | } | } | }
public static void main(String[] args) {
assert(derivative((new ArrayList<Long>(Arrays.asList((long)3l, (long)1l, (long)2l, (long)4l, (long)5l)))).equals((new ArrayList<Long>(Arrays.asList((long)1l, (long)4l, (long)12l, (long)20l)))));
assert(derivative((new ArrayList<Long>(Arrays.asList((long)1l, (long)2l, (long)3l)))).equals((new ArrayList<Long>(Arrays.asList((long)2l, (long)6l)))));
assert(derivative((new ArrayList<Long>(Arrays.asList((long)3l, (long)2l, (long)1l)))).equals((new ArrayList<Long>(Arrays.asList((long)2l, (long)2l)))));
assert(derivative((new ArrayList<Long>(Arrays.asList((long)3l, (long)2l, (long)1l, (long)0l, (long)4l)))).equals((new ArrayList<Long>(Arrays.asList((long)2l, (long)2l, (long)0l, (long)16l)))));
assert(derivative((new ArrayList<Long>(Arrays.asList((long)1l)))).equals((new ArrayList<Long>(Arrays.asList()))));
}
}
|
humaneval-HumanEval_108_count_nums.json-L26 | js | //Write a function count_nums which takes an array of integers and returns
// the number of elements which has a sum of digits > 0.
// If a number is negative, then its first signed digit will be negative:
// e.g. -123 has signed digits -1, 2, and 3.
// >>> count_nums([])
// 0
// >>> count_nums([-1, 11, -11])
// 1
// >>> count_nums([1, 1, 2])
// 3
function count_nums(arr){
if(!arr.length) {
return 0;
}
var count = 0;
for(var i = 0; i < arr.length; i++) {
var sum = 0;
var str = arr[i].toString();
if(str[0] === '-') {
sum += Number(str[0] + str[1]);
for(var j = 2; j < str.length; j++) {
sum += Number(str[j]);
}
} else {
for(var k = 0; k < str.length; k++) { | }
}
if(sum > 0) {
count++;
}
}
return count;
} | sum += Number(str[k]); | const assert = require('node:assert');
function test() {
let candidate = count_nums;
assert.deepEqual(candidate([]),0);
assert.deepEqual(candidate([-1, -2, 0]),0);
assert.deepEqual(candidate([1, 1, 2, -2, 3, 4, 5]),6);
assert.deepEqual(candidate([1, 6, 9, -6, 0, 1, 5]),5);
assert.deepEqual(candidate([1, 100, 98, -7, 1, -1]),4);
assert.deepEqual(candidate([12, 23, 34, -45, -56, 0]),5);
assert.deepEqual(candidate([0, 1]),1);
assert.deepEqual(candidate([1]),1);
}
test(); |
humaneval-HumanEval_122_add_elements.json-L16 | js | //Given a non-empty array of integers arr and an integer k, return
// the sum of the elements with at most two digits from the first k elements of arr.
// Example:
// >>> add_elements([111, 21, 3, 4000, 5, 6, 7, 8, 9], 4)
// 24
// Constraints:
// 1. 1 <= len(arr) <= 100
// 2. 1 <= k <= len(arr)
function add_elements(arr, k){
var sum = 0;
for(var i = 0; i < k; i++){
if(arr[i] < 100){
sum += arr[i];
}
} | }
| return sum; | const assert = require('node:assert');
function test() {
let candidate = add_elements;
assert.deepEqual(candidate([1, -2, -3, 41, 57, 76, 87, 88, 99], 3),-4);
assert.deepEqual(candidate([111, 121, 3, 4000, 5, 6], 2),0);
assert.deepEqual(candidate([11, 21, 3, 90, 5, 6, 7, 8, 9], 4),125);
assert.deepEqual(candidate([111, 21, 3, 4000, 5, 6, 7, 8, 9], 4),24);
assert.deepEqual(candidate([1], 1),1);
}
test(); |
humaneval-HumanEval_81_numerical_letter_grade.json-L57 | js | //It is the last week of the semester and the teacher has to give the grades
// to students. The teacher has been making her own algorithm for grading.
// The only problem is, she has lost the code she used for grading.
// She has given you an array of GPAs for some students and you have to write
// a function that can output an array of letter grades using the following table:
// GPA | Letter grade
// 4.0 A+
// > 3.7 A
// > 3.3 A-
// > 3.0 B+
// > 2.7 B
// > 2.3 B-
// > 2.0 C+
// > 1.7 C
// > 1.3 C-
// > 1.0 D+
// > 0.7 D
// > 0.0 D-
// 0.0 E
// Example:
// >>> grade_equation([4.0, 3, 1.7, 2, 3.5])
// ["A+", "B", "C-", "C", "A-"]
function numerical_letter_grade(grades){
var grades_array = [];
for (var i = 0; i < grades.length; i++){
if (grades[i] >= 4.0){
grades_array.push("A+");
}
else if (grades[i] > 3.7){
grades_array.push("A");
}
else if (grades[i] > 3.3){
grades_array.push("A-");
}
else if (grades[i] > 3.0){
grades_array.push("B+");
}
else if (grades[i] > 2.7){
grades_array.push("B");
}
else if (grades[i] > 2.3){
grades_array.push("B-");
}
else if (grades[i] > 2.0){
grades_array.push("C+");
}
else if (grades[i] > 1.7){
grades_array.push("C");
}
else if (grades[i] > 1.3){
grades_array.push("C-");
}
else if (grades[i] > 1.0){
grades_array.push("D+");
}
else if (grades[i] > 0.7){ | }
else if (grades[i] > 0.0){
grades_array.push("D-");
}
else if (grades[i] == 0.0){
grades_array.push("E");
}
}
return grades_array;
} | grades_array.push("D"); | const assert = require('node:assert');
function test() {
let candidate = numerical_letter_grade;
assert.deepEqual(candidate([4.0, 3, 1.7, 2, 3.5]),["A+", "B", "C-", "C", "A-"]);
assert.deepEqual(candidate([1.2]),["D+"]);
assert.deepEqual(candidate([0.5]),["D-"]);
assert.deepEqual(candidate([0.0]),["E"]);
assert.deepEqual(candidate([1.0, 0.3, 1.5, 2.8, 3.3]),["D", "D-", "C-", "B", "B+"]);
assert.deepEqual(candidate([0.0, 0.7]),["E", "D-"]);
}
test(); |
humaneval-HumanEval_94_skjkasdkd.json-L23 | js | //You are given an array of integers.
// You need to find the largest prime value and return the sum of its digits.
// Examples:
// >>> skjkasdkd([0, 3, 2, 1, 3, 5, 7, 4, 5, 5, 5, 2, 181, 32, 4, 32, 3, 2, 32, 324, 4, 3])
// 10
// >>> skjkasdkd([1, 0, 1, 8, 2, 4597, 2, 1, 3, 40, 1, 2, 1, 2, 4, 2, 5, 1])
// 25
// >>> skjkasdkd([1, 3, 1, 32, 5107, 34, 83278, 109, 163, 23, 2323, 32, 30, 1, 9, 3])
// 13
// >>> skjkasdkd([0, 724, 32, 71, 99, 32, 6, 0, 5, 91, 83, 0, 5, 6])
// 11
// >>> skjkasdkd([0, 81, 12, 3, 1, 21])
// 3
// >>> skjkasdkd([0, 8, 1, 2, 1, 7])
// 7
function skjkasdkd(lst){
function prime(n){
if (n<2) return false;
for (let i=2; i<=Math.sqrt(n); i++){
if (n%i==0) return false;
}
return true; | let max = Math.max(...lst.filter(x=>prime(x)));
let digits = String(max).split('');
let sum = 0;
for (let i=0; i<digits.length; i++){
sum += Number(digits[i]);
}
return sum;
} | } | const assert = require('node:assert');
function test() {
let candidate = skjkasdkd;
assert.deepEqual(candidate([0, 3, 2, 1, 3, 5, 7, 4, 5, 5, 5, 2, 181, 32, 4, 32, 3, 2, 32, 324, 4, 3]),10);
assert.deepEqual(candidate([1, 0, 1, 8, 2, 4597, 2, 1, 3, 40, 1, 2, 1, 2, 4, 2, 5, 1]),25);
assert.deepEqual(candidate([1, 3, 1, 32, 5107, 34, 83278, 109, 163, 23, 2323, 32, 30, 1, 9, 3]),13);
assert.deepEqual(candidate([0, 724, 32, 71, 99, 32, 6, 0, 5, 91, 83, 0, 5, 6]),11);
assert.deepEqual(candidate([0, 81, 12, 3, 1, 21]),3);
assert.deepEqual(candidate([0, 8, 1, 2, 1, 7]),7);
assert.deepEqual(candidate([8191]),19);
assert.deepEqual(candidate([8191, 123456, 127, 7]),19);
assert.deepEqual(candidate([127, 97, 8192]),10);
}
test(); |
humaneval-HumanEval_123_get_odd_collatz.json-L25 | py | from typing import List
def get_odd_collatz(n: int) -> List[int]:
"""
Given a positive integer n, return a sorted list that has the odd numbers in collatz sequence.
The Collatz conjecture is a conjecture in mathematics that concerns a sequence defined
as follows: start with any positive integer n. Then each term is obtained from the
previous term as follows: if the previous term is even, the next term is one half of
the previous term. If the previous term is odd, the next term is 3 times the previous
term plus 1. The conjecture is that no matter what value of n, the sequence will always reach 1.
Note:
1. Collatz(1) is [1].
2. returned list sorted in increasing order.
For example:
get_odd_collatz(5) returns [1, 5] # The collatz sequence for 5 is [5, 16, 8, 4, 2, 1], so the odd numbers are only 1, and 5.
>>> get_odd_collatz(5)
[1, 5]
"""
collatz_list = []
current_num = n
while (current_num > 1): | if (current_num % 2 == 0):
current_num = current_num // 2
else:
current_num = current_num * 3 + 1
collatz_list.append(1)
return sorted(list(set([x for x in collatz_list if x % 2 != 0])))
| collatz_list.append(current_num) | def check(candidate):
assert candidate(14) == [1, 5, 7, 11, 13, 17]
assert candidate(5) == [1, 5]
assert candidate(12) == [1, 3, 5]
assert candidate(1) == [1]
def test_check():
check(get_odd_collatz)
test_check()
|
humaneval-HumanEval_61_correct_bracketing.json-L20 | java | import java.util.*;
import java.lang.reflect.*;
import org.javatuples.*;
import java.security.*;
import java.math.*;
import java.io.*;
import java.util.stream.*;
class Problem {
// brackets is a string of "(" and ")".
// return true if every opening bracket has a corresponding closing bracket.
// >>> correctBracketing(("("))
// (false)
// >>> correctBracketing(("()"))
// (true)
// >>> correctBracketing(("(()())"))
// (true)
// >>> correctBracketing((")(()"))
// (false)
public static boolean correctBracketing(String brackets) {
| for (int i = 0; i < brackets.length(); i++) {
if (brackets.charAt(i) == '(') {
balance++;
} else {
balance--;
}
if (balance < 0) {
return false;
}
}
return balance == 0;
}
} | int balance = 0; | }
public static void main(String[] args) {
assert(correctBracketing(("()")) == (true));
assert(correctBracketing(("(()())")) == (true));
assert(correctBracketing(("()()(()())()")) == (true));
assert(correctBracketing(("()()((()()())())(()()(()))")) == (true));
assert(correctBracketing(("((()())))")) == (false));
assert(correctBracketing((")(()")) == (false));
assert(correctBracketing(("(")) == (false));
assert(correctBracketing(("((((")) == (false));
assert(correctBracketing((")")) == (false));
assert(correctBracketing(("(()")) == (false));
assert(correctBracketing(("()()(()())())(()")) == (false));
assert(correctBracketing(("()()(()())()))()")) == (false));
}
}
|
humaneval-HumanEval_81_numerical_letter_grade.json-L29 | js | //It is the last week of the semester and the teacher has to give the grades
// to students. The teacher has been making her own algorithm for grading.
// The only problem is, she has lost the code she used for grading.
// She has given you an array of GPAs for some students and you have to write
// a function that can output an array of letter grades using the following table:
// GPA | Letter grade
// 4.0 A+
// > 3.7 A
// > 3.3 A-
// > 3.0 B+
// > 2.7 B
// > 2.3 B-
// > 2.0 C+
// > 1.7 C
// > 1.3 C-
// > 1.0 D+
// > 0.7 D
// > 0.0 D-
// 0.0 E
// Example:
// >>> grade_equation([4.0, 3, 1.7, 2, 3.5])
// ["A+", "B", "C-", "C", "A-"]
function numerical_letter_grade(grades){
var grades_array = [];
for (var i = 0; i < grades.length; i++){
if (grades[i] >= 4.0){
grades_array.push("A+");
} | grades_array.push("A");
}
else if (grades[i] > 3.3){
grades_array.push("A-");
}
else if (grades[i] > 3.0){
grades_array.push("B+");
}
else if (grades[i] > 2.7){
grades_array.push("B");
}
else if (grades[i] > 2.3){
grades_array.push("B-");
}
else if (grades[i] > 2.0){
grades_array.push("C+");
}
else if (grades[i] > 1.7){
grades_array.push("C");
}
else if (grades[i] > 1.3){
grades_array.push("C-");
}
else if (grades[i] > 1.0){
grades_array.push("D+");
}
else if (grades[i] > 0.7){
grades_array.push("D");
}
else if (grades[i] > 0.0){
grades_array.push("D-");
}
else if (grades[i] == 0.0){
grades_array.push("E");
}
}
return grades_array;
} | else if (grades[i] > 3.7){ | const assert = require('node:assert');
function test() {
let candidate = numerical_letter_grade;
assert.deepEqual(candidate([4.0, 3, 1.7, 2, 3.5]),["A+", "B", "C-", "C", "A-"]);
assert.deepEqual(candidate([1.2]),["D+"]);
assert.deepEqual(candidate([0.5]),["D-"]);
assert.deepEqual(candidate([0.0]),["E"]);
assert.deepEqual(candidate([1.0, 0.3, 1.5, 2.8, 3.3]),["D", "D-", "C-", "B", "B+"]);
assert.deepEqual(candidate([0.0, 0.7]),["E", "D-"]);
}
test(); |
humaneval-HumanEval_39_prime_fib.json-L29 | js | //prime_fib returns n-th number that is a Fibonacci number and it's also prime.
// >>> prime_fib(1)
// 2
// >>> prime_fib(2)
// 3
// >>> prime_fib(3)
// 5
// >>> prime_fib(4)
// 13
// >>> prime_fib(5)
// 89
function prime_fib(n){
function isPrime(number){
if(number <= 3){
return number > 1;
}
else if(number % 2 == 0 || number % 3 == 0){
return false;
}
else{
for(var i = 5; i * i <= number; i += 6){
if(number % i == 0 || number % (i + 2) == 0){
return false;
}
}
return true;
}
} | var a = 1, b = 0, temp;
while (num >= 0){
temp = a;
a = a + b;
b = temp;
num--;
}
return b;
}
var res = 0;
var fibNum = 0;
while(res < n){
if(isPrime(fib(fibNum))){
res++;
}
fibNum++;
}
return fib(fibNum - 1);
} | function fib(num){ | const assert = require('node:assert');
function test() {
let candidate = prime_fib;
assert.deepEqual(candidate(1),2);
assert.deepEqual(candidate(2),3);
assert.deepEqual(candidate(3),5);
assert.deepEqual(candidate(4),13);
assert.deepEqual(candidate(5),89);
assert.deepEqual(candidate(6),233);
assert.deepEqual(candidate(7),1597);
assert.deepEqual(candidate(8),28657);
assert.deepEqual(candidate(9),514229);
assert.deepEqual(candidate(10),433494437);
}
test(); |
humaneval-HumanEval_105_by_length.json-L39 | js | //Given an array of integers, sort the integers that are between 1 and 9 inclusive,
// reverse the resulting array, and then replace each digit by its corresponding name from
// "One", "Two", "Three", "Four", "Five", "Six", "Seven", "Eight", "Nine".
// For example:
// >>> by_length([2, 1, 1, 4, 5, 8, 2, 3])
// ["Eight", "Five", "Four", "Three", "Two", "Two", "One", "One"]
// If the array is empty, return an empty array:
// >>> by_length([])
// []
// If the array has any strange number ignore it:
// >>> by_length([1, -1, 55])
// ["One"]
function by_length(arr){
var arr2 = [];
for(var i = 0; i < arr.length; i++){
var num = arr[i];
if(num > 0 && num < 10){
arr2.push(num);
}
}
arr2.sort();
arr2.reverse();
var arr3 = [];
for(var i = 0; i < arr2.length; i++){
var num = arr2[i];
if(num == 1){
arr3.push("One");
}
else if(num == 2){
arr3.push("Two");
}
else if(num == 3){
arr3.push("Three");
}
else if(num == 4){
arr3.push("Four");
}
else if(num == 5){ | }
else if(num == 6){
arr3.push("Six");
}
else if(num == 7){
arr3.push("Seven");
}
else if(num == 8){
arr3.push("Eight");
}
else if(num == 9){
arr3.push("Nine");
}
}
return arr3;
} | arr3.push("Five"); | const assert = require('node:assert');
function test() {
let candidate = by_length;
assert.deepEqual(candidate([2, 1, 1, 4, 5, 8, 2, 3]),["Eight", "Five", "Four", "Three", "Two", "Two", "One", "One"]);
assert.deepEqual(candidate([]),[]);
assert.deepEqual(candidate([1, -1, 55]),["One"]);
assert.deepEqual(candidate([1, -1, 3, 2]),["Three", "Two", "One"]);
assert.deepEqual(candidate([9, 4, 8]),["Nine", "Eight", "Four"]);
}
test(); |
humaneval-HumanEval_148_bf.json-L31 | java | import java.util.*;
import java.lang.reflect.*;
import org.javatuples.*;
import java.security.*;
import java.math.*;
import java.io.*;
import java.util.stream.*;
class Problem {
// There are eight planets in our solar system: the closerst to the Sun
// is Mercury, the next one is Venus, then Earth, Mars, Jupiter, Saturn,
// Uranus, Neptune.
// Write a function that takes two planet names as strings planet1 and planet2.
// The function should return a pair containing all planets whose orbits are
// located between the orbit of planet1 and the orbit of planet2, sorted by
// the proximity to the sun.
// The function should return an empty pair if planet1 or planet2
// are not correct planet names.
// Examples
// >>> bf(("Jupiter"), ("Neptune"))
// (new ArrayList<String>(Arrays.asList((String)"Saturn", (String)"Uranus")))
// >>> bf(("Earth"), ("Mercury"))
// (ArrayList<String>("Venus"))
// >>> bf(("Mercury"), ("Uranus"))
// (new ArrayList<String>(Arrays.asList((String)"Venus", (String)"Earth", (String)"Mars", (String)"Jupiter", (String)"Saturn")))
public static ArrayList<String> bf(String planet1, String planet2) {
ArrayList<String> planets = new ArrayList<String>(Arrays.asList((String)"Mercury", (String)"Venus", (String)"Earth", (String)"Mars", (String)"Jupiter", (String)"Saturn", (String)"Uranus", (String)"Neptune"));
int indexPlanet1 = planets.indexOf(planet1);
int indexPlanet2 = planets.indexOf(planet2);
int indexMin = 0;
int indexMax = 0; | if (indexPlanet1 < indexPlanet2) {
indexMin = indexPlanet1;
indexMax = indexPlanet2;
} else {
indexMin = indexPlanet2;
indexMax = indexPlanet1;
}
ArrayList<String> planetsInBetween = new ArrayList<String>();
for (int i = indexMin + 1; i < indexMax; i++) {
planetsInBetween.add(planets.get(i));
}
return planetsInBetween;
} else {
return new ArrayList<String>();
}
}
} | if (indexPlanet1 >= 0 && indexPlanet2 >= 0) { | }
public static void main(String[] args) {
assert(bf(("Jupiter"), ("Neptune")).equals((new ArrayList<String>(Arrays.asList((String)"Saturn", (String)"Uranus")))));
assert(bf(("Earth"), ("Mercury")).equals((new ArrayList<String>(Arrays.asList((String)"Venus")))));
assert(bf(("Mercury"), ("Uranus")).equals((new ArrayList<String>(Arrays.asList((String)"Venus", (String)"Earth", (String)"Mars", (String)"Jupiter", (String)"Saturn")))));
assert(bf(("Neptune"), ("Venus")).equals((new ArrayList<String>(Arrays.asList((String)"Earth", (String)"Mars", (String)"Jupiter", (String)"Saturn", (String)"Uranus")))));
assert(bf(("Earth"), ("Earth")).equals((new ArrayList<String>(Arrays.asList()))));
assert(bf(("Mars"), ("Earth")).equals((new ArrayList<String>(Arrays.asList()))));
assert(bf(("Jupiter"), ("Makemake")).equals((new ArrayList<String>(Arrays.asList()))));
}
}
|
humaneval-HumanEval_156_int_to_mini_roman.json-L47 | java | import java.util.*;
import java.lang.reflect.*;
import org.javatuples.*;
import java.security.*;
import java.math.*;
import java.io.*;
import java.util.stream.*;
class Problem {
// Given a positive integer, obtain its roman numeral equivalent as a string,
// and return it in lowercase.
// Restrictions: 1 <= num <= 1000
// Examples:
// >>> intToMiniRoman((19l))
// ("xix")
// >>> intToMiniRoman((152l))
// ("clii")
// >>> intToMiniRoman((426l))
// ("cdxxvi")
public static String intToMiniRoman(long number) {
int num = (int) number;
String res = "";
if (num == 0)
return "";
while (num >= 1000) {
res += "m";
num -= 1000;
}
if (num >= 900) {
res += "cm";
num -= 900;
}
if (num >= 500) {
res += "d";
num -= 500;
}
if (num >= 400) {
res += "cd";
num -= 400;
}
while (num >= 100) {
res += "c";
num -= 100;
}
if (num >= 90) {
res += "xc";
num -= 90; | if (num >= 50) {
res += "l";
num -= 50;
}
if (num >= 40) {
res += "xl";
num -= 40;
}
while (num >= 10) {
res += "x";
num -= 10;
}
if (num >= 9) {
res += "ix";
num -= 9;
}
if (num >= 5) {
res += "v";
num -= 5;
}
if (num >= 4) {
res += "iv";
num -= 4;
}
while (num >= 1) {
res += "i";
num -= 1;
}
return res;
}
} | } | }
public static void main(String[] args) {
assert(intToMiniRoman((19l)).equals(("xix")));
assert(intToMiniRoman((152l)).equals(("clii")));
assert(intToMiniRoman((251l)).equals(("ccli")));
assert(intToMiniRoman((426l)).equals(("cdxxvi")));
assert(intToMiniRoman((500l)).equals(("d")));
assert(intToMiniRoman((1l)).equals(("i")));
assert(intToMiniRoman((4l)).equals(("iv")));
assert(intToMiniRoman((43l)).equals(("xliii")));
assert(intToMiniRoman((90l)).equals(("xc")));
assert(intToMiniRoman((94l)).equals(("xciv")));
assert(intToMiniRoman((532l)).equals(("dxxxii")));
assert(intToMiniRoman((900l)).equals(("cm")));
assert(intToMiniRoman((994l)).equals(("cmxciv")));
assert(intToMiniRoman((1000l)).equals(("m")));
}
}
|
humaneval-HumanEval_129_minPath.json-L25 | js | //Given a grid with N rows and N columns (N >= 2) and a positive integer k,
// each cell of the grid contains a value. Every integer in the range [1, N * N]
// inclusive appears exactly once on the cells of the grid.
// You have to find the minimum path of length k in the grid. You can start
// from any cell, and in each step you can move to any of the neighbor cells,
// in other words, you can go to cells which share an edge with you current
// cell.
// Please note that a path of length k means visiting exactly k cells (not
// necessarily distinct).
// You CANNOT go off the grid.
// A path A (of length k) is considered less than a path B (of length k) if
// after making the ordered arrays of the values on the cells that A and B go
// through (let's call them lst_A and lst_B), lst_A is lexicographically less
// than lst_B, in other words, there exist an integer index i (1 <= i <= k)
// such that lst_A[i] < lst_B[i] and for any j (1 <= j < i) we have
// lst_A[j] = lst_B[j].
// It is guaranteed that the answer is unique.
// Return an ordered array of the values on the cells that the minimum path go through.
// Examples:
// >>> minPath([[1, 2, 3], [4, 5, 6], [7, 8, 9]], 3)
// [1, 2, 1]
// >>> minPath([[5, 9, 3], [4, 1, 6], [7, 8, 2]], 1)
// [1]
function minPath(grid, k){
| let path = [];
let startCell = grid[0][0];
for(let i = 0; i < n; i++){
for(let j = 0; j < n; j++){
let curr = grid[i][j];
if(curr < startCell){
startCell = curr;
}
}
}
let currCell = startCell;
for(let l = 0; l < k; l++){
path.push(currCell);
let neighbours = [];
let x = null;
let y = null;
for(let i = 0; i < n; i++){
for(let j = 0; j < n; j++){
if(grid[i][j] === currCell){
x = i;
y = j;
}
}
}
if(x > 0){
neighbours.push(grid[x - 1][y]);
}
if(x < n - 1){
neighbours.push(grid[x + 1][y]);
}
if(y > 0){
neighbours.push(grid[x][y - 1]);
}
if(y < n - 1){
neighbours.push(grid[x][y + 1]);
}
let nextCell = neighbours[0];
for(let i = 0; i < neighbours.length; i++){
let curr = neighbours[i];
if(curr < nextCell){
nextCell = curr;
}
}
currCell = nextCell;
}
return path;
} | let n = grid.length; | const assert = require('node:assert');
function test() {
let candidate = minPath;
assert.deepEqual(candidate([[1, 2, 3], [4, 5, 6], [7, 8, 9]], 3),[1, 2, 1]);
assert.deepEqual(candidate([[5, 9, 3], [4, 1, 6], [7, 8, 2]], 1),[1]);
assert.deepEqual(candidate([[1, 2, 3, 4], [5, 6, 7, 8], [9, 10, 11, 12], [13, 14, 15, 16]], 4),[1, 2, 1, 2]);
assert.deepEqual(candidate([[6, 4, 13, 10], [5, 7, 12, 1], [3, 16, 11, 15], [8, 14, 9, 2]], 7),[1, 10, 1, 10, 1, 10, 1]);
assert.deepEqual(candidate([[8, 14, 9, 2], [6, 4, 13, 15], [5, 7, 1, 12], [3, 10, 11, 16]], 5),[1, 7, 1, 7, 1]);
assert.deepEqual(candidate([[11, 8, 7, 2], [5, 16, 14, 4], [9, 3, 15, 6], [12, 13, 10, 1]], 9),[1, 6, 1, 6, 1, 6, 1, 6, 1]);
assert.deepEqual(candidate([[12, 13, 10, 1], [9, 3, 15, 6], [5, 16, 14, 4], [11, 8, 7, 2]], 12),[1, 6, 1, 6, 1, 6, 1, 6, 1, 6, 1, 6]);
assert.deepEqual(candidate([[2, 7, 4], [3, 1, 5], [6, 8, 9]], 8),[1, 3, 1, 3, 1, 3, 1, 3]);
assert.deepEqual(candidate([[6, 1, 5], [3, 8, 9], [2, 7, 4]], 8),[1, 5, 1, 5, 1, 5, 1, 5]);
assert.deepEqual(candidate([[1, 2], [3, 4]], 10),[1, 2, 1, 2, 1, 2, 1, 2, 1, 2]);
assert.deepEqual(candidate([[1, 3], [3, 2]], 10),[1, 3, 1, 3, 1, 3, 1, 3, 1, 3]);
}
test(); |
humaneval-HumanEval_44_change_base.json-L19 | java | import java.util.*;
import java.lang.reflect.*;
import org.javatuples.*;
import java.security.*;
import java.math.*;
import java.io.*;
import java.util.stream.*;
class Problem {
// Change numerical base of input number x to base.
// return string representation after the conversion.
// base numbers are less than 10.
// >>> changeBase((8l), (3l))
// ("22")
// >>> changeBase((8l), (2l))
// ("1000")
// >>> changeBase((7l), (2l))
// ("111")
public static String changeBase(long x, long base) {
| throw new IllegalArgumentException("bad input");
}
if (x==0) {
return "0";
}
StringBuilder sb = new StringBuilder();
while (x>0) {
sb.append(x%base);
x = x/base;
}
return sb.reverse().toString();
}
} | if (x<0 || base<2 || base>9) { | }
public static void main(String[] args) {
assert(changeBase((8l), (3l)).equals(("22")));
assert(changeBase((9l), (3l)).equals(("100")));
assert(changeBase((234l), (2l)).equals(("11101010")));
assert(changeBase((16l), (2l)).equals(("10000")));
assert(changeBase((8l), (2l)).equals(("1000")));
assert(changeBase((7l), (2l)).equals(("111")));
assert(changeBase((2l), (3l)).equals(("2")));
assert(changeBase((3l), (4l)).equals(("3")));
assert(changeBase((4l), (5l)).equals(("4")));
assert(changeBase((5l), (6l)).equals(("5")));
assert(changeBase((6l), (7l)).equals(("6")));
assert(changeBase((7l), (8l)).equals(("7")));
}
}
|
humaneval-HumanEval_100_make_a_pile.json-L13 | js | //Given a positive integer n, you have to make a pile of n levels of stones.
// The first level has n stones.
// The number of stones in the next level is:
// - the next odd number if n is odd.
// - the next even number if n is even.
// Return the number of stones in each level in an array, where element at index
// i represents the number of stones in the level (i+1).
// Examples:
// >>> make_a_pile(3)
// [3, 5, 7]
function make_a_pile(n){
let arr = []; | arr.push(n + (i * 2));
}
return arr;
} | for(let i = 0; i < n; i++){ | const assert = require('node:assert');
function test() {
let candidate = make_a_pile;
assert.deepEqual(candidate(3),[3, 5, 7]);
assert.deepEqual(candidate(4),[4, 6, 8, 10]);
assert.deepEqual(candidate(5),[5, 7, 9, 11, 13]);
assert.deepEqual(candidate(6),[6, 8, 10, 12, 14, 16]);
assert.deepEqual(candidate(8),[8, 10, 12, 14, 16, 18, 20, 22]);
}
test(); |
humaneval-HumanEval_26_remove_duplicates.json-L30 | java | import java.util.*;
import java.lang.reflect.*;
import org.javatuples.*;
import java.security.*;
import java.math.*;
import java.io.*;
import java.util.stream.*;
class Problem {
// From an array array list of integers, remove all elements that occur more than once.
// Keep order of elements left the same as in the input.
// >>> removeDuplicates((new ArrayList<Long>(Arrays.asList((long)1l, (long)2l, (long)3l, (long)2l, (long)4l))))
// (new ArrayList<Long>(Arrays.asList((long)1l, (long)3l, (long)4l)))
public static ArrayList<Long> removeDuplicates(ArrayList<Long> numbers) {
HashMap<Long, Long> hashmap = new HashMap<Long, Long>();
for (int i = 0; i < numbers.size(); i++) {
Long key = numbers.get(i);
if (hashmap.containsKey(key)) {
hashmap.put(key, hashmap.get(key) + 1);
} else {
hashmap.put(key, 1L);
}
}
ArrayList<Long> out = new ArrayList<Long>();
for (int i = 0; i < numbers.size(); i++) {
Long key = numbers.get(i);
if (hashmap.get(key) == 1) {
out.add(key);
}
} | }
} | return out; | }
public static void main(String[] args) {
assert(removeDuplicates((new ArrayList<Long>(Arrays.asList()))).equals((new ArrayList<Long>(Arrays.asList()))));
assert(removeDuplicates((new ArrayList<Long>(Arrays.asList((long)1l, (long)2l, (long)3l, (long)4l)))).equals((new ArrayList<Long>(Arrays.asList((long)1l, (long)2l, (long)3l, (long)4l)))));
assert(removeDuplicates((new ArrayList<Long>(Arrays.asList((long)1l, (long)2l, (long)3l, (long)2l, (long)4l, (long)3l, (long)5l)))).equals((new ArrayList<Long>(Arrays.asList((long)1l, (long)4l, (long)5l)))));
}
}
|
humaneval-HumanEval_40_triples_sum_to_zero.json-L44 | java | import java.util.*;
import java.lang.reflect.*;
import org.javatuples.*;
import java.security.*;
import java.math.*;
import java.io.*;
import java.util.stream.*;
class Problem {
// triples_sum_to_zero takes an array array list of integers as an input.
// it returns true if there are three distinct elements in the array list that
// sum to zero, and false otherwise.
// >>> triplesSumToZero((new ArrayList<Long>(Arrays.asList((long)1l, (long)3l, (long)5l, (long)0l))))
// (false)
// >>> triplesSumToZero((new ArrayList<Long>(Arrays.asList((long)1l, (long)3l, (long)-2l, (long)1l))))
// (true)
// >>> triplesSumToZero((new ArrayList<Long>(Arrays.asList((long)1l, (long)2l, (long)3l, (long)7l))))
// (false)
// >>> triplesSumToZero((new ArrayList<Long>(Arrays.asList((long)2l, (long)4l, (long)-5l, (long)3l, (long)9l, (long)7l))))
// (true)
// >>> triplesSumToZero((new ArrayList<Long>(Arrays.asList((long)1l))))
// (false)
public static boolean triplesSumToZero(ArrayList<Long> l) {
if (l.size() < 3) {
return false;
}
ArrayList<Long> sortedList = new ArrayList<Long>(l);
Collections.sort(sortedList);
for (int i = 0; i < sortedList.size() - 2; i++) {
int j = i + 1;
int k = sortedList.size() - 1;
while (j < k) {
long currSum = sortedList.get(i) + sortedList.get(j) + sortedList.get(k);
if (currSum == 0) {
return true;
} else if (currSum < 0) {
j++;
} else {
k--;
}
}
}
return false;
} | } | }
public static void main(String[] args) {
assert(triplesSumToZero((new ArrayList<Long>(Arrays.asList((long)1l, (long)3l, (long)5l, (long)0l)))) == (false));
assert(triplesSumToZero((new ArrayList<Long>(Arrays.asList((long)1l, (long)3l, (long)5l, (long)-1l)))) == (false));
assert(triplesSumToZero((new ArrayList<Long>(Arrays.asList((long)1l, (long)3l, (long)-2l, (long)1l)))) == (true));
assert(triplesSumToZero((new ArrayList<Long>(Arrays.asList((long)1l, (long)2l, (long)3l, (long)7l)))) == (false));
assert(triplesSumToZero((new ArrayList<Long>(Arrays.asList((long)1l, (long)2l, (long)5l, (long)7l)))) == (false));
assert(triplesSumToZero((new ArrayList<Long>(Arrays.asList((long)2l, (long)4l, (long)-5l, (long)3l, (long)9l, (long)7l)))) == (true));
assert(triplesSumToZero((new ArrayList<Long>(Arrays.asList((long)1l)))) == (false));
assert(triplesSumToZero((new ArrayList<Long>(Arrays.asList((long)1l, (long)3l, (long)5l, (long)-100l)))) == (false));
assert(triplesSumToZero((new ArrayList<Long>(Arrays.asList((long)100l, (long)3l, (long)5l, (long)-100l)))) == (false));
}
}
|
|
humaneval-HumanEval_110_exchange.json-L34 | js | //In this problem, you will implement a function that takes two arrays of numbers,
// and determines whether it is possible to perform an exchange of elements
// between them to make lst1 an array of only even numbers.
// There is no limit on the number of exchanged elements between lst1 and lst2.
// If it is possible to exchange elements between the lst1 and lst2 to make
// all the elements of lst1 to be even, return "YES".
// Otherwise, return "NO".
// For example:
// >>> exchange([1, 2, 3, 4], [1, 2, 3, 4])
// "YES"
// >>> exchange([1, 2, 3, 4], [1, 5, 3, 4])
// "NO"
// It is assumed that the input arrays will be non-empty.
function exchange(lst1, lst2){
var num1 = 0;
var num2 = 0;
var exchange = true;
while(num1 < lst1.length && exchange){
if(lst1[num1] % 2 !== 0){
exchange = false;
if(num2 < lst2.length){
while(num2 < lst2.length && exchange == false){
if(lst2[num2] % 2 == 0){
lst1[num1] = lst2[num2];
exchange = true;
}
num2++;
}
}
}
num1++;
}
if(exchange){ | }else{
return "NO";
}
}
| return "YES"; | const assert = require('node:assert');
function test() {
let candidate = exchange;
assert.deepEqual(candidate([1, 2, 3, 4], [1, 2, 3, 4]),"YES");
assert.deepEqual(candidate([1, 2, 3, 4], [1, 5, 3, 4]),"NO");
assert.deepEqual(candidate([1, 2, 3, 4], [2, 1, 4, 3]),"YES");
assert.deepEqual(candidate([5, 7, 3], [2, 6, 4]),"YES");
assert.deepEqual(candidate([5, 7, 3], [2, 6, 3]),"NO");
assert.deepEqual(candidate([3, 2, 6, 1, 8, 9], [3, 5, 5, 1, 1, 1]),"NO");
assert.deepEqual(candidate([100, 200], [200, 200]),"YES");
}
test(); |
humaneval-HumanEval_40_triples_sum_to_zero.json-L15 | js | //triples_sum_to_zero takes an array of integers as an input.
// it returns true if there are three distinct elements in the array that
// sum to zero, and false otherwise.
// >>> triples_sum_to_zero([1, 3, 5, 0])
// false
// >>> triples_sum_to_zero([1, 3, -2, 1])
// true
// >>> triples_sum_to_zero([1, 2, 3, 7])
// false
// >>> triples_sum_to_zero([2, 4, -5, 3, 9, 7])
// true
// >>> triples_sum_to_zero([1])
// false
function triples_sum_to_zero(l){
| for (var j = 0; j < l.length; j++) {
for (var k = 0; k < l.length; k++) {
if (i !== j && i !== k && j !== k) {
if (l[i] + l[j] + l[k] === 0) {
return true;
}
}
}
}
}
return false;
}
| for (var i = 0; i < l.length; i++) { | const assert = require('node:assert');
function test() {
let candidate = triples_sum_to_zero;
assert.deepEqual(candidate([1, 3, 5, 0]),false);
assert.deepEqual(candidate([1, 3, 5, -1]),false);
assert.deepEqual(candidate([1, 3, -2, 1]),true);
assert.deepEqual(candidate([1, 2, 3, 7]),false);
assert.deepEqual(candidate([1, 2, 5, 7]),false);
assert.deepEqual(candidate([2, 4, -5, 3, 9, 7]),true);
assert.deepEqual(candidate([1]),false);
assert.deepEqual(candidate([1, 3, 5, -100]),false);
assert.deepEqual(candidate([100, 3, 5, -100]),false);
}
test(); |
humaneval-HumanEval_0_has_close_elements.json-L20 | java | import java.util.*;
import java.lang.reflect.*;
import org.javatuples.*;
import java.security.*;
import java.math.*;
import java.io.*;
import java.util.stream.*;
class Problem {
// Check if in given array list of numbers, are any two numbers closer to each other than
// given threshold.
// >>> hasCloseElements((new ArrayList<Float>(Arrays.asList((float)1.0f, (float)2.0f, (float)3.0f))), (0.5f))
// (false)
// >>> hasCloseElements((new ArrayList<Float>(Arrays.asList((float)1.0f, (float)2.8f, (float)3.0f, (float)4.0f, (float)5.0f, (float)2.0f))), (0.3f))
// (true)
public static boolean hasCloseElements(ArrayList<Float> numbers, float threshold) {
Collections.sort(numbers);
for (int i = 0; i < numbers.size() - 1; i++) {
if (numbers.get(i+1) - numbers.get(i) < threshold) {
return true; | }
return false;
}
} | } | }
public static void main(String[] args) {
assert(hasCloseElements((new ArrayList<Float>(Arrays.asList((float)1.0f, (float)2.0f, (float)3.9f, (float)4.0f, (float)5.0f, (float)2.2f))), (0.3f)) == (true));
assert(hasCloseElements((new ArrayList<Float>(Arrays.asList((float)1.0f, (float)2.0f, (float)3.9f, (float)4.0f, (float)5.0f, (float)2.2f))), (0.05f)) == (false));
assert(hasCloseElements((new ArrayList<Float>(Arrays.asList((float)1.0f, (float)2.0f, (float)5.9f, (float)4.0f, (float)5.0f))), (0.95f)) == (true));
assert(hasCloseElements((new ArrayList<Float>(Arrays.asList((float)1.0f, (float)2.0f, (float)5.9f, (float)4.0f, (float)5.0f))), (0.8f)) == (false));
assert(hasCloseElements((new ArrayList<Float>(Arrays.asList((float)1.0f, (float)2.0f, (float)3.0f, (float)4.0f, (float)5.0f, (float)2.0f))), (0.1f)) == (true));
assert(hasCloseElements((new ArrayList<Float>(Arrays.asList((float)1.1f, (float)2.2f, (float)3.1f, (float)4.1f, (float)5.1f))), (1.0f)) == (true));
assert(hasCloseElements((new ArrayList<Float>(Arrays.asList((float)1.1f, (float)2.2f, (float)3.1f, (float)4.1f, (float)5.1f))), (0.5f)) == (false));
}
}
|
humaneval-HumanEval_113_odd_count.json-L15 | js | //Given an array of strings, where each string consists of only digits, return an array.
// Each element i of the output should be "the number of odd elements in the
// string i of the input." where all the i's should be replaced by the number
// of odd digits in the i'th string of the input.
// >>> odd_count(["1234567"])
// ["the number of odd elements 4n the str4ng 4 of the 4nput."]
// >>> odd_count(["3", "11111111"])
// ["the number of odd elements 1n the str1ng 1 of the 1nput.", "the number of odd elements 8n the str8ng 8 of the 8nput."]
function odd_count(lst){
var new_lst = [];
for (var i = 0; i < lst.length; i++){
var word = lst[i];
var odd_sum = 0;
for (var j = 0; j < word.length; j++){ | odd_sum += 1;
}
}
var odd_word = "the number of odd elements " + odd_sum + "n the str" + odd_sum + "ng " + odd_sum + " of the " + odd_sum + "nput.";
new_lst.push(odd_word);
}
return new_lst;
} | if (word[j] % 2 == 1){ | const assert = require('node:assert');
function test() {
let candidate = odd_count;
assert.deepEqual(candidate(["1234567"]),["the number of odd elements 4n the str4ng 4 of the 4nput."]);
assert.deepEqual(candidate(["3", "11111111"]),["the number of odd elements 1n the str1ng 1 of the 1nput.", "the number of odd elements 8n the str8ng 8 of the 8nput."]);
assert.deepEqual(candidate(["271", "137", "314"]),["the number of odd elements 2n the str2ng 2 of the 2nput.", "the number of odd elements 3n the str3ng 3 of the 3nput.", "the number of odd elements 2n the str2ng 2 of the 2nput."]);
}
test(); |
humaneval-HumanEval_42_incr_list.json-L13 | py | from typing import List
def incr_list(l: List[int]) -> List[int]:
"""Return list with elements incremented by 1.
>>> incr_list([1, 2, 3])
[2, 3, 4]
>>> incr_list([5, 3, 5, 2, 3, 3, 9, 0, 123])
[6, 4, 6, 3, 4, 4, 10, 1, 124]
"""
res = []
for i in l:
res.append(i + 1) | return res | def check(candidate):
assert candidate([]) == []
assert candidate([3, 2, 1]) == [4, 3, 2]
assert candidate([5, 2, 5, 2, 3, 3, 9, 0, 123]) == [6, 3, 6, 3, 4, 4, 10, 1, 124]
def test_check():
check(incr_list)
test_check()
|
|
humaneval-HumanEval_150_x_or_y.json-L23 | java | import java.util.*;
import java.lang.reflect.*;
import org.javatuples.*;
import java.security.*;
import java.math.*;
import java.io.*;
import java.util.stream.*;
class Problem {
// A simple program which should return the value of x if n is
// a prime number and should return the value of y otherwise.
// Examples:
// >>> xOrY((7l), (34l), (12l))
// (34l)
// >>> xOrY((15l), (8l), (5l))
// (5l)
public static long xOrY(long n, long x, long y) {
BigInteger nBig = BigInteger.valueOf(n);
if (nBig.isProbablePrime(100)) {
return x;
} else {
return y;
} | } | } | }
public static void main(String[] args) {
assert(xOrY((7l), (34l), (12l)) == (34l));
assert(xOrY((15l), (8l), (5l)) == (5l));
assert(xOrY((3l), (33l), (5212l)) == (33l));
assert(xOrY((1259l), (3l), (52l)) == (3l));
assert(xOrY((7919l), (-1l), (12l)) == (-1l));
assert(xOrY((3609l), (1245l), (583l)) == (583l));
assert(xOrY((91l), (56l), (129l)) == (129l));
assert(xOrY((6l), (34l), (1234l)) == (1234l));
assert(xOrY((1l), (2l), (0l)) == (0l));
assert(xOrY((2l), (2l), (0l)) == (2l));
}
}
|
humaneval-HumanEval_118_get_closest_vowel.json-L16 | js | //You are given a word. Your task is to find the closest vowel that stands between
// two consonants from the right side of the word (case sensitive).
// Vowels in the beginning and ending doesn't count. Return empty string if you didn't
// find any vowel met the above condition.
// You may assume that the given string contains English letter only.
// Example:
// >>> get_closest_vowel("yogurt")
// "u"
// >>> get_closest_vowel("FULL")
// "U"
// >>> get_closest_vowel("quick")
// ""
// >>> get_closest_vowel("ab")
// ""
function get_closest_vowel(word){
| let i = word.length - 1;
let result = [];
if (word.length === 1) {
return ""
} else {
while (i >= 0) {
if (vowels.includes(word[i])) {
if (i > 0 && i < word.length - 1) {
if (!vowels.includes(word[i-1]) && !vowels.includes(word[i+1])) {
result.push(word[i]);
}
}
}
i--;
}
if (result.length === 0) {
return ""
} else {
return result[0];
}
}
} | let vowels = ["a", "e", "i", "o", "u"]; | const assert = require('node:assert');
function test() {
let candidate = get_closest_vowel;
assert.deepEqual(candidate("yogurt"),"u");
assert.deepEqual(candidate("full"),"u");
assert.deepEqual(candidate("easy"),"");
assert.deepEqual(candidate("eAsy"),"");
assert.deepEqual(candidate("ali"),"");
assert.deepEqual(candidate("bad"),"a");
assert.deepEqual(candidate("most"),"o");
assert.deepEqual(candidate("ab"),"");
assert.deepEqual(candidate("ba"),"");
assert.deepEqual(candidate("quick"),"");
assert.deepEqual(candidate("anime"),"i");
assert.deepEqual(candidate("Asia"),"");
assert.deepEqual(candidate("Above"),"o");
}
test(); |
humaneval-HumanEval_156_int_to_mini_roman.json-L23 | js | //Given a positive integer, obtain its roman numeral equivalent as a string,
// and return it in lowercase.
// Restrictions: 1 <= num <= 1000
// Examples:
// >>> int_to_mini_roman(19)
// "xix"
// >>> int_to_mini_roman(152)
// "clii"
// >>> int_to_mini_roman(426)
// "cdxxvi"
function int_to_mini_roman(number){
var roman_conversion = {
1000: "m",
900: "cm",
500: "d",
400: "cd",
100: "c",
90: "xc",
50: "l",
40: "xl",
10: "x",
9: "ix", | 4: "iv",
1: "i"
};
var output = "";
while (number > 0){
var key_list = Object.keys(roman_conversion).map(Number);
key_list.sort(function(a, b){return b-a});
for (var i = 0; i < key_list.length; i++){
if (key_list[i] <= number){
output += roman_conversion[key_list[i]];
number -= key_list[i];
break;
}
}
}
return output;
}
| 5: "v", | const assert = require('node:assert');
function test() {
let candidate = int_to_mini_roman;
assert.deepEqual(candidate(19),"xix");
assert.deepEqual(candidate(152),"clii");
assert.deepEqual(candidate(251),"ccli");
assert.deepEqual(candidate(426),"cdxxvi");
assert.deepEqual(candidate(500),"d");
assert.deepEqual(candidate(1),"i");
assert.deepEqual(candidate(4),"iv");
assert.deepEqual(candidate(43),"xliii");
assert.deepEqual(candidate(90),"xc");
assert.deepEqual(candidate(94),"xciv");
assert.deepEqual(candidate(532),"dxxxii");
assert.deepEqual(candidate(900),"cm");
assert.deepEqual(candidate(994),"cmxciv");
assert.deepEqual(candidate(1000),"m");
}
test(); |
humaneval-HumanEval_74_total_match.json-L26 | py | from typing import List
def total_match(lst1: List[str], lst2: List[str]) -> List[str]:
"""
Write a function that accepts two lists of strings and returns the list that has
total number of chars in the all strings of the list less than the other list.
if the two lists have the same number of chars, return the first list.
Examples
>>> total_match([], [])
[]
>>> total_match(['hi', 'admin'], ['hI', 'Hi'])
['hI', 'Hi']
>>> total_match(['hi', 'admin'], ['hi', 'hi', 'admin', 'project'])
['hi', 'admin']
>>> total_match(['hi', 'admin'], ['hI', 'hi', 'hi'])
['hI', 'hi', 'hi']
>>> total_match(['4'], ['1', '2', '3', '4', '5'])
['4']
"""
count1 = sum([len(s) for s in lst1])
count2 = sum([len(s) for s in lst2])
if count1 == count2:
return lst1 | return lst1
return lst2
| if count1 < count2: | def check(candidate):
assert candidate([], []) == []
assert candidate(['hi', 'admin'], ['hi', 'hi']) == ['hi', 'hi']
assert candidate(['hi', 'admin'], ['hi', 'hi', 'admin', 'project']) == ['hi', 'admin']
assert candidate(['4'], ['1', '2', '3', '4', '5']) == ['4']
assert candidate(['hi', 'admin'], ['hI', 'Hi']) == ['hI', 'Hi']
assert candidate(['hi', 'admin'], ['hI', 'hi', 'hi']) == ['hI', 'hi', 'hi']
assert candidate(['hi', 'admin'], ['hI', 'hi', 'hii']) == ['hi', 'admin']
assert candidate([], ['this']) == []
assert candidate(['this'], []) == []
def test_check():
check(total_match)
test_check()
|
humaneval-HumanEval_94_skjkasdkd.json-L43 | java | import java.util.*;
import java.lang.reflect.*;
import org.javatuples.*;
import java.security.*;
import java.math.*;
import java.io.*;
import java.util.stream.*;
class Problem {
// You are given an array array list of integers.
// You need to find the largest prime value and return the sum of its digits.
// Examples:
// >>> skjkasdkd((new ArrayList<Long>(Arrays.asList((long)0l, (long)3l, (long)2l, (long)1l, (long)3l, (long)5l, (long)7l, (long)4l, (long)5l, (long)5l, (long)5l, (long)2l, (long)181l, (long)32l, (long)4l, (long)32l, (long)3l, (long)2l, (long)32l, (long)324l, (long)4l, (long)3l))))
// (10l)
// >>> skjkasdkd((new ArrayList<Long>(Arrays.asList((long)1l, (long)0l, (long)1l, (long)8l, (long)2l, (long)4597l, (long)2l, (long)1l, (long)3l, (long)40l, (long)1l, (long)2l, (long)1l, (long)2l, (long)4l, (long)2l, (long)5l, (long)1l))))
// (25l)
// >>> skjkasdkd((new ArrayList<Long>(Arrays.asList((long)1l, (long)3l, (long)1l, (long)32l, (long)5107l, (long)34l, (long)83278l, (long)109l, (long)163l, (long)23l, (long)2323l, (long)32l, (long)30l, (long)1l, (long)9l, (long)3l))))
// (13l)
// >>> skjkasdkd((new ArrayList<Long>(Arrays.asList((long)0l, (long)724l, (long)32l, (long)71l, (long)99l, (long)32l, (long)6l, (long)0l, (long)5l, (long)91l, (long)83l, (long)0l, (long)5l, (long)6l))))
// (11l)
// >>> skjkasdkd((new ArrayList<Long>(Arrays.asList((long)0l, (long)81l, (long)12l, (long)3l, (long)1l, (long)21l))))
// (3l)
// >>> skjkasdkd((new ArrayList<Long>(Arrays.asList((long)0l, (long)8l, (long)1l, (long)2l, (long)1l, (long)7l))))
// (7l)
public static long skjkasdkd(ArrayList<Long> lst) {
long largestPrime = 0l;
for (Long item : lst) {
long number = item;
int counter = 0;
if (item == 1) {
continue;
}
if (item == 2) {
counter = 1;
}
else {
int l = 1;
while (l <= (int) number) {
if (number % l == 0) {
counter++;
}
l++;
} | if (counter == 2) {
if (number > largestPrime) {
largestPrime = number;
}
}
}
if (largestPrime == 0) {
return 0l;
}
else {
long output = 0l;
while (largestPrime > 0) {
output += largestPrime % 10;
largestPrime /= 10;
}
return output;
}
}
} | } | }
public static void main(String[] args) {
assert(skjkasdkd((new ArrayList<Long>(Arrays.asList((long)0l, (long)3l, (long)2l, (long)1l, (long)3l, (long)5l, (long)7l, (long)4l, (long)5l, (long)5l, (long)5l, (long)2l, (long)181l, (long)32l, (long)4l, (long)32l, (long)3l, (long)2l, (long)32l, (long)324l, (long)4l, (long)3l)))) == (10l));
assert(skjkasdkd((new ArrayList<Long>(Arrays.asList((long)1l, (long)0l, (long)1l, (long)8l, (long)2l, (long)4597l, (long)2l, (long)1l, (long)3l, (long)40l, (long)1l, (long)2l, (long)1l, (long)2l, (long)4l, (long)2l, (long)5l, (long)1l)))) == (25l));
assert(skjkasdkd((new ArrayList<Long>(Arrays.asList((long)1l, (long)3l, (long)1l, (long)32l, (long)5107l, (long)34l, (long)83278l, (long)109l, (long)163l, (long)23l, (long)2323l, (long)32l, (long)30l, (long)1l, (long)9l, (long)3l)))) == (13l));
assert(skjkasdkd((new ArrayList<Long>(Arrays.asList((long)0l, (long)724l, (long)32l, (long)71l, (long)99l, (long)32l, (long)6l, (long)0l, (long)5l, (long)91l, (long)83l, (long)0l, (long)5l, (long)6l)))) == (11l));
assert(skjkasdkd((new ArrayList<Long>(Arrays.asList((long)0l, (long)81l, (long)12l, (long)3l, (long)1l, (long)21l)))) == (3l));
assert(skjkasdkd((new ArrayList<Long>(Arrays.asList((long)0l, (long)8l, (long)1l, (long)2l, (long)1l, (long)7l)))) == (7l));
assert(skjkasdkd((new ArrayList<Long>(Arrays.asList((long)8191l)))) == (19l));
assert(skjkasdkd((new ArrayList<Long>(Arrays.asList((long)8191l, (long)123456l, (long)127l, (long)7l)))) == (19l));
assert(skjkasdkd((new ArrayList<Long>(Arrays.asList((long)127l, (long)97l, (long)8192l)))) == (10l));
}
}
|
humaneval-HumanEval_36_fizz_buzz.json-L14 | py | def fizz_buzz(n: int) -> int:
"""Return the number of times the digit 7 appears in integers less than n which are divisible by 11 or 13.
>>> fizz_buzz(50)
0
>>> fizz_buzz(78)
2
>>> fizz_buzz(79)
3
"""
x = 0
for i in range(n):
if i % 11 == 0 or i % 13 == 0:
x += str(i).count('7') | return x | def check(candidate):
assert candidate(50) == 0
assert candidate(78) == 2
assert candidate(79) == 3
assert candidate(100) == 3
assert candidate(200) == 6
assert candidate(4000) == 192
assert candidate(10000) == 639
assert candidate(100000) == 8026
def test_check():
check(fizz_buzz)
test_check()
|
|
humaneval-HumanEval_15_string_sequence.json-L21 | java | import java.util.*;
import java.lang.reflect.*;
import org.javatuples.*;
import java.security.*;
import java.math.*;
import java.io.*;
import java.util.stream.*;
class Problem {
// Return a string containing space-delimited numbers starting from 0 upto n inclusive.
// >>> stringSequence((0l))
// ("0")
// >>> stringSequence((5l))
// ("0 1 2 3 4 5")
public static String stringSequence(long n) {
String result = "";
for (long i = 0; i <= n; i++) {
result += i + " ";
}
return result.trim();
} | } | }
public static void main(String[] args) {
assert(stringSequence((0l)).equals(("0")));
assert(stringSequence((3l)).equals(("0 1 2 3")));
assert(stringSequence((10l)).equals(("0 1 2 3 4 5 6 7 8 9 10")));
}
}
|
|
humaneval-HumanEval_108_count_nums.json-L17 | js | //Write a function count_nums which takes an array of integers and returns
// the number of elements which has a sum of digits > 0.
// If a number is negative, then its first signed digit will be negative:
// e.g. -123 has signed digits -1, 2, and 3.
// >>> count_nums([])
// 0
// >>> count_nums([-1, 11, -11])
// 1
// >>> count_nums([1, 1, 2])
// 3
function count_nums(arr){
if(!arr.length) {
return 0;
}
var count = 0;
for(var i = 0; i < arr.length; i++) { | var str = arr[i].toString();
if(str[0] === '-') {
sum += Number(str[0] + str[1]);
for(var j = 2; j < str.length; j++) {
sum += Number(str[j]);
}
} else {
for(var k = 0; k < str.length; k++) {
sum += Number(str[k]);
}
}
if(sum > 0) {
count++;
}
}
return count;
} | var sum = 0; | const assert = require('node:assert');
function test() {
let candidate = count_nums;
assert.deepEqual(candidate([]),0);
assert.deepEqual(candidate([-1, -2, 0]),0);
assert.deepEqual(candidate([1, 1, 2, -2, 3, 4, 5]),6);
assert.deepEqual(candidate([1, 6, 9, -6, 0, 1, 5]),5);
assert.deepEqual(candidate([1, 100, 98, -7, 1, -1]),4);
assert.deepEqual(candidate([12, 23, 34, -45, -56, 0]),5);
assert.deepEqual(candidate([0, 1]),1);
assert.deepEqual(candidate([1]),1);
}
test(); |
humaneval-HumanEval_26_remove_duplicates.json-L11 | py | from typing import List
def remove_duplicates(numbers: List[int]) -> List[int]:
""" From a list of integers, remove all elements that occur more than once.
Keep order of elements left the same as in the input.
>>> remove_duplicates([1, 2, 3, 2, 4])
[1, 3, 4]
"""
numbers.sort()
numbers = [i for i in numbers if numbers.count(i) == 1] | return numbers | def check(candidate):
assert candidate([]) == []
assert candidate([1, 2, 3, 4]) == [1, 2, 3, 4]
assert candidate([1, 2, 3, 2, 4, 3, 5]) == [1, 4, 5]
def test_check():
check(remove_duplicates)
test_check()
|
|
humaneval-HumanEval_94_skjkasdkd.json-L20 | js | //You are given an array of integers.
// You need to find the largest prime value and return the sum of its digits.
// Examples:
// >>> skjkasdkd([0, 3, 2, 1, 3, 5, 7, 4, 5, 5, 5, 2, 181, 32, 4, 32, 3, 2, 32, 324, 4, 3])
// 10
// >>> skjkasdkd([1, 0, 1, 8, 2, 4597, 2, 1, 3, 40, 1, 2, 1, 2, 4, 2, 5, 1])
// 25
// >>> skjkasdkd([1, 3, 1, 32, 5107, 34, 83278, 109, 163, 23, 2323, 32, 30, 1, 9, 3])
// 13
// >>> skjkasdkd([0, 724, 32, 71, 99, 32, 6, 0, 5, 91, 83, 0, 5, 6])
// 11
// >>> skjkasdkd([0, 81, 12, 3, 1, 21])
// 3
// >>> skjkasdkd([0, 8, 1, 2, 1, 7])
// 7
function skjkasdkd(lst){
function prime(n){
if (n<2) return false;
for (let i=2; i<=Math.sqrt(n); i++){ | }
return true;
}
let max = Math.max(...lst.filter(x=>prime(x)));
let digits = String(max).split('');
let sum = 0;
for (let i=0; i<digits.length; i++){
sum += Number(digits[i]);
}
return sum;
} | if (n%i==0) return false; | const assert = require('node:assert');
function test() {
let candidate = skjkasdkd;
assert.deepEqual(candidate([0, 3, 2, 1, 3, 5, 7, 4, 5, 5, 5, 2, 181, 32, 4, 32, 3, 2, 32, 324, 4, 3]),10);
assert.deepEqual(candidate([1, 0, 1, 8, 2, 4597, 2, 1, 3, 40, 1, 2, 1, 2, 4, 2, 5, 1]),25);
assert.deepEqual(candidate([1, 3, 1, 32, 5107, 34, 83278, 109, 163, 23, 2323, 32, 30, 1, 9, 3]),13);
assert.deepEqual(candidate([0, 724, 32, 71, 99, 32, 6, 0, 5, 91, 83, 0, 5, 6]),11);
assert.deepEqual(candidate([0, 81, 12, 3, 1, 21]),3);
assert.deepEqual(candidate([0, 8, 1, 2, 1, 7]),7);
assert.deepEqual(candidate([8191]),19);
assert.deepEqual(candidate([8191, 123456, 127, 7]),19);
assert.deepEqual(candidate([127, 97, 8192]),10);
}
test(); |
humaneval-HumanEval_83_starts_one_ends.json-L6 | js | //Given a positive integer n, return the count of the numbers of n-digit
// positive integers that start or end with 1.
function starts_one_ends(n){
let ones = [];
for(let i = Math.pow(10, n-1); i < Math.pow(10, n); i++){ | ones.push(i);
}
}
return ones.length;
} | if(i.toString().startsWith('1') || i.toString().endsWith('1')){ | const assert = require('node:assert');
function test() {
let candidate = starts_one_ends;
assert.deepEqual(candidate(1),1);
assert.deepEqual(candidate(2),18);
assert.deepEqual(candidate(3),180);
assert.deepEqual(candidate(4),1800);
assert.deepEqual(candidate(5),18000);
}
test(); |
humaneval-HumanEval_116_sort_array.json-L12 | js | //In this Kata, you have to sort an array of non-negative integers according to
// number of ones in their binary representation in ascending order.
// For similar number of ones, sort based on decimal value.
// It must be implemented like this:
// >>> sort_array([1, 5, 2, 3, 4])
// [1, 2, 3, 4, 5]
// >>> sort_array([-2, -3, -4, -5, -6])
// [-6, -5, -4, -3, -2]
// >>> sort_array([1, 0, 2, 3, 4])
// [0, 1, 2, 3, 4]
function sort_array(arr){
| let aBinary = a.toString(2).split('').filter(el => el === '1').length;
let bBinary = b.toString(2).split('').filter(el => el === '1').length;
if (aBinary === bBinary) {
return a - b;
} else {
return aBinary - bBinary;
}
});
} | return arr.sort((a, b) => { | const assert = require('node:assert');
function test() {
let candidate = sort_array;
assert.deepEqual(candidate([1, 5, 2, 3, 4]),[1, 2, 4, 3, 5]);
assert.deepEqual(candidate([-2, -3, -4, -5, -6]),[-4, -2, -6, -5, -3]);
assert.deepEqual(candidate([1, 0, 2, 3, 4]),[0, 1, 2, 4, 3]);
assert.deepEqual(candidate([]),[]);
assert.deepEqual(candidate([2, 5, 77, 4, 5, 3, 5, 7, 2, 3, 4]),[2, 2, 4, 4, 3, 3, 5, 5, 5, 7, 77]);
assert.deepEqual(candidate([3, 6, 44, 12, 32, 5]),[32, 3, 5, 6, 12, 44]);
assert.deepEqual(candidate([2, 4, 8, 16, 32]),[2, 4, 8, 16, 32]);
assert.deepEqual(candidate([2, 4, 8, 16, 32]),[2, 4, 8, 16, 32]);
}
test(); |
humaneval-HumanEval_128_prod_signs.json-L30 | js | //You are given an array arr of integers and you need to return
// sum of magnitudes of integers multiplied by product of all signs
// of each number in the array, represented by 1, -1 or 0.
// Note: return undefined for empty arr.
// Example:
// >>> prod_signs([1, 2, 2, -4])
// 9
// >>> prod_signs([0, 1])
// 0
// >>> prod_signs([])
// undefined
function prod_signs(arr){
var total = 0;
var len = arr.length;
var pro = 1;
if(len == 0){
return undefined;
}
else{
for(var i = 0; i < len; i++){
total += Math.abs(arr[i]);
if(arr[i] < 0){
pro *= -1;
}
else if(arr[i] == 0){
pro *= 0;
}
}
total *= pro; | }
}
| return total; | const assert = require('node:assert');
function test() {
let candidate = prod_signs;
assert.deepEqual(candidate([1, 2, 2, -4]),-9);
assert.deepEqual(candidate([0, 1]),0);
assert.deepEqual(candidate([1, 1, 1, 2, 3, -1, 1]),-10);
assert.deepEqual(candidate([]),undefined);
assert.deepEqual(candidate([2, 4, 1, 2, -1, -1, 9]),20);
assert.deepEqual(candidate([-1, 1, -1, 1]),4);
assert.deepEqual(candidate([-1, 1, 1, 1]),-4);
assert.deepEqual(candidate([-1, 1, 1, 0]),0);
}
test(); |
humaneval-HumanEval_93_encode.json-L16 | js | //Write a function that takes a message, and encodes in such a
// way that it swaps case of all letters, replaces all vowels in
// the message with the letter that appears 2 places ahead of that
// vowel in the english alphabet.
// Assume only letters.
// Examples:
// >>> encode("test")
// "TGST"
// >>> encode("This is a message")
// "tHKS KS C MGSSCGG"
function encode(message){
const vowels = "aeiou";
let result = "";
for(let i = 0; i < message.length; i++){
let letter = message[i]; | let newIndex = (letter.charCodeAt(0) + 2 - (letter.toLowerCase() === letter ? 'a'.charCodeAt(0) : 'A'.charCodeAt(0))) % 26;
letter = String.fromCharCode(newIndex + (letter.toLowerCase() === letter ? 'a'.charCodeAt(0) : 'A'.charCodeAt(0)));
}
result += letter.toUpperCase() === letter ? letter.toLowerCase() : letter.toUpperCase();
}
return result;
} | if(vowels.includes(letter.toLowerCase())){ | const assert = require('node:assert');
function test() {
let candidate = encode;
assert.deepEqual(candidate("TEST"),"tgst");
assert.deepEqual(candidate("Mudasir"),"mWDCSKR");
assert.deepEqual(candidate("YES"),"ygs");
assert.deepEqual(candidate("This is a message"),"tHKS KS C MGSSCGG");
assert.deepEqual(candidate("I DoNt KnOw WhAt tO WrItE"),"k dQnT kNqW wHcT Tq wRkTg");
}
test(); |
humaneval-HumanEval_8_sum_product.json-L17 | js | //For a given array of integers, return an array consisting of a sum and a product of all the integers in an array.
// Empty sum should be equal to 0 and empty product should be equal to 1.
// >>> sum_product([])
// [0, 1]
// >>> sum_product([1, 2, 3, 4])
// [10, 24]
function sum_product(numbers){
if(numbers.length == 0){
return [0, 1];
}
let sum = 0;
let product = 1;
for(let i = 0; i < numbers.length; i++){
sum += numbers[i];
product *= numbers[i];
} | }
| return [sum, product]; | const assert = require('node:assert');
function test() {
let candidate = sum_product;
assert.deepEqual(candidate([]),[0, 1]);
assert.deepEqual(candidate([1, 1, 1]),[3, 1]);
assert.deepEqual(candidate([100, 0]),[100, 0]);
assert.deepEqual(candidate([3, 5, 7]),[15, 105]);
assert.deepEqual(candidate([10]),[10, 10]);
}
test(); |
humaneval-HumanEval_108_count_nums.json-L14 | js | //Write a function count_nums which takes an array of integers and returns
// the number of elements which has a sum of digits > 0.
// If a number is negative, then its first signed digit will be negative:
// e.g. -123 has signed digits -1, 2, and 3.
// >>> count_nums([])
// 0
// >>> count_nums([-1, 11, -11])
// 1
// >>> count_nums([1, 1, 2])
// 3
function count_nums(arr){
if(!arr.length) {
return 0; | var count = 0;
for(var i = 0; i < arr.length; i++) {
var sum = 0;
var str = arr[i].toString();
if(str[0] === '-') {
sum += Number(str[0] + str[1]);
for(var j = 2; j < str.length; j++) {
sum += Number(str[j]);
}
} else {
for(var k = 0; k < str.length; k++) {
sum += Number(str[k]);
}
}
if(sum > 0) {
count++;
}
}
return count;
} | } | const assert = require('node:assert');
function test() {
let candidate = count_nums;
assert.deepEqual(candidate([]),0);
assert.deepEqual(candidate([-1, -2, 0]),0);
assert.deepEqual(candidate([1, 1, 2, -2, 3, 4, 5]),6);
assert.deepEqual(candidate([1, 6, 9, -6, 0, 1, 5]),5);
assert.deepEqual(candidate([1, 100, 98, -7, 1, -1]),4);
assert.deepEqual(candidate([12, 23, 34, -45, -56, 0]),5);
assert.deepEqual(candidate([0, 1]),1);
assert.deepEqual(candidate([1]),1);
}
test(); |
humaneval-HumanEval_70_strange_sort_list.json-L23 | java | import java.util.*;
import java.lang.reflect.*;
import org.javatuples.*;
import java.security.*;
import java.math.*;
import java.io.*;
import java.util.stream.*;
class Problem {
// Given array list of integers, return array list in strange order.
// Strange sorting, is when you start with the minimum value,
// then maximum of the remaining integers, then minimum and so on.
// Examples:
// >>> strangeSortList((new ArrayList<Long>(Arrays.asList((long)1l, (long)2l, (long)3l, (long)4l))))
// (new ArrayList<Long>(Arrays.asList((long)1l, (long)4l, (long)2l, (long)3l)))
// >>> strangeSortList((new ArrayList<Long>(Arrays.asList((long)5l, (long)5l, (long)5l, (long)5l))))
// (new ArrayList<Long>(Arrays.asList((long)5l, (long)5l, (long)5l, (long)5l)))
// >>> strangeSortList((new ArrayList<Long>(Arrays.asList())))
// (new ArrayList<Long>(Arrays.asList()))
public static ArrayList<Long> strangeSortList(ArrayList<Long> lst) {
if (lst.size() <= 1) {
return lst;
} | ArrayList<Long> sorted = new ArrayList<Long>(lst);
Collections.sort(sorted);
int min = 0;
int max = sorted.size() - 1;
while (min <= max) {
result.add(sorted.get(min));
min++;
if (min <= max) {
result.add(sorted.get(max));
max--;
}
}
return result;
}
} | ArrayList<Long> result = new ArrayList<Long>(); | }
public static void main(String[] args) {
assert(strangeSortList((new ArrayList<Long>(Arrays.asList((long)1l, (long)2l, (long)3l, (long)4l)))).equals((new ArrayList<Long>(Arrays.asList((long)1l, (long)4l, (long)2l, (long)3l)))));
assert(strangeSortList((new ArrayList<Long>(Arrays.asList((long)5l, (long)6l, (long)7l, (long)8l, (long)9l)))).equals((new ArrayList<Long>(Arrays.asList((long)5l, (long)9l, (long)6l, (long)8l, (long)7l)))));
assert(strangeSortList((new ArrayList<Long>(Arrays.asList((long)1l, (long)2l, (long)3l, (long)4l, (long)5l)))).equals((new ArrayList<Long>(Arrays.asList((long)1l, (long)5l, (long)2l, (long)4l, (long)3l)))));
assert(strangeSortList((new ArrayList<Long>(Arrays.asList((long)5l, (long)6l, (long)7l, (long)8l, (long)9l, (long)1l)))).equals((new ArrayList<Long>(Arrays.asList((long)1l, (long)9l, (long)5l, (long)8l, (long)6l, (long)7l)))));
assert(strangeSortList((new ArrayList<Long>(Arrays.asList((long)5l, (long)5l, (long)5l, (long)5l)))).equals((new ArrayList<Long>(Arrays.asList((long)5l, (long)5l, (long)5l, (long)5l)))));
assert(strangeSortList((new ArrayList<Long>(Arrays.asList()))).equals((new ArrayList<Long>(Arrays.asList()))));
assert(strangeSortList((new ArrayList<Long>(Arrays.asList((long)1l, (long)2l, (long)3l, (long)4l, (long)5l, (long)6l, (long)7l, (long)8l)))).equals((new ArrayList<Long>(Arrays.asList((long)1l, (long)8l, (long)2l, (long)7l, (long)3l, (long)6l, (long)4l, (long)5l)))));
assert(strangeSortList((new ArrayList<Long>(Arrays.asList((long)0l, (long)2l, (long)2l, (long)2l, (long)5l, (long)5l, (long)-5l, (long)-5l)))).equals((new ArrayList<Long>(Arrays.asList((long)-5l, (long)5l, (long)-5l, (long)5l, (long)0l, (long)2l, (long)2l, (long)2l)))));
assert(strangeSortList((new ArrayList<Long>(Arrays.asList((long)111111l)))).equals((new ArrayList<Long>(Arrays.asList((long)111111l)))));
}
}
|
humaneval-HumanEval_110_exchange.json-L29 | js | //In this problem, you will implement a function that takes two arrays of numbers,
// and determines whether it is possible to perform an exchange of elements
// between them to make lst1 an array of only even numbers.
// There is no limit on the number of exchanged elements between lst1 and lst2.
// If it is possible to exchange elements between the lst1 and lst2 to make
// all the elements of lst1 to be even, return "YES".
// Otherwise, return "NO".
// For example:
// >>> exchange([1, 2, 3, 4], [1, 2, 3, 4])
// "YES"
// >>> exchange([1, 2, 3, 4], [1, 5, 3, 4])
// "NO"
// It is assumed that the input arrays will be non-empty.
function exchange(lst1, lst2){
var num1 = 0;
var num2 = 0;
var exchange = true;
while(num1 < lst1.length && exchange){
if(lst1[num1] % 2 !== 0){
exchange = false;
if(num2 < lst2.length){
while(num2 < lst2.length && exchange == false){
if(lst2[num2] % 2 == 0){
lst1[num1] = lst2[num2];
exchange = true;
}
num2++;
} | }
num1++;
}
if(exchange){
return "YES";
}else{
return "NO";
}
}
| } | const assert = require('node:assert');
function test() {
let candidate = exchange;
assert.deepEqual(candidate([1, 2, 3, 4], [1, 2, 3, 4]),"YES");
assert.deepEqual(candidate([1, 2, 3, 4], [1, 5, 3, 4]),"NO");
assert.deepEqual(candidate([1, 2, 3, 4], [2, 1, 4, 3]),"YES");
assert.deepEqual(candidate([5, 7, 3], [2, 6, 4]),"YES");
assert.deepEqual(candidate([5, 7, 3], [2, 6, 3]),"NO");
assert.deepEqual(candidate([3, 2, 6, 1, 8, 9], [3, 5, 5, 1, 1, 1]),"NO");
assert.deepEqual(candidate([100, 200], [200, 200]),"YES");
}
test(); |
humaneval-HumanEval_148_bf.json-L42 | java | import java.util.*;
import java.lang.reflect.*;
import org.javatuples.*;
import java.security.*;
import java.math.*;
import java.io.*;
import java.util.stream.*;
class Problem {
// There are eight planets in our solar system: the closerst to the Sun
// is Mercury, the next one is Venus, then Earth, Mars, Jupiter, Saturn,
// Uranus, Neptune.
// Write a function that takes two planet names as strings planet1 and planet2.
// The function should return a pair containing all planets whose orbits are
// located between the orbit of planet1 and the orbit of planet2, sorted by
// the proximity to the sun.
// The function should return an empty pair if planet1 or planet2
// are not correct planet names.
// Examples
// >>> bf(("Jupiter"), ("Neptune"))
// (new ArrayList<String>(Arrays.asList((String)"Saturn", (String)"Uranus")))
// >>> bf(("Earth"), ("Mercury"))
// (ArrayList<String>("Venus"))
// >>> bf(("Mercury"), ("Uranus"))
// (new ArrayList<String>(Arrays.asList((String)"Venus", (String)"Earth", (String)"Mars", (String)"Jupiter", (String)"Saturn")))
public static ArrayList<String> bf(String planet1, String planet2) {
ArrayList<String> planets = new ArrayList<String>(Arrays.asList((String)"Mercury", (String)"Venus", (String)"Earth", (String)"Mars", (String)"Jupiter", (String)"Saturn", (String)"Uranus", (String)"Neptune"));
int indexPlanet1 = planets.indexOf(planet1);
int indexPlanet2 = planets.indexOf(planet2);
int indexMin = 0;
int indexMax = 0;
if (indexPlanet1 >= 0 && indexPlanet2 >= 0) {
if (indexPlanet1 < indexPlanet2) {
indexMin = indexPlanet1;
indexMax = indexPlanet2;
} else {
indexMin = indexPlanet2;
indexMax = indexPlanet1;
}
ArrayList<String> planetsInBetween = new ArrayList<String>();
for (int i = indexMin + 1; i < indexMax; i++) {
planetsInBetween.add(planets.get(i)); | return planetsInBetween;
} else {
return new ArrayList<String>();
}
}
} | } | }
public static void main(String[] args) {
assert(bf(("Jupiter"), ("Neptune")).equals((new ArrayList<String>(Arrays.asList((String)"Saturn", (String)"Uranus")))));
assert(bf(("Earth"), ("Mercury")).equals((new ArrayList<String>(Arrays.asList((String)"Venus")))));
assert(bf(("Mercury"), ("Uranus")).equals((new ArrayList<String>(Arrays.asList((String)"Venus", (String)"Earth", (String)"Mars", (String)"Jupiter", (String)"Saturn")))));
assert(bf(("Neptune"), ("Venus")).equals((new ArrayList<String>(Arrays.asList((String)"Earth", (String)"Mars", (String)"Jupiter", (String)"Saturn", (String)"Uranus")))));
assert(bf(("Earth"), ("Earth")).equals((new ArrayList<String>(Arrays.asList()))));
assert(bf(("Mars"), ("Earth")).equals((new ArrayList<String>(Arrays.asList()))));
assert(bf(("Jupiter"), ("Makemake")).equals((new ArrayList<String>(Arrays.asList()))));
}
}
|
humaneval-HumanEval_34_unique.json-L8 | py | from typing import List
def unique(l: List[int]) -> List[int]:
"""Return sorted unique elements in a list
>>> unique([5, 3, 5, 2, 3, 3, 9, 0, 123])
[0, 2, 3, 5, 9, 123]
"""
| return sorted(set(l)) | def check(candidate):
assert candidate([5, 3, 5, 2, 3, 3, 9, 0, 123]) == [0, 2, 3, 5, 9, 123]
def test_check():
check(unique)
test_check()
|
|
humaneval-HumanEval_69_search.json-L23 | java | import java.util.*;
import java.lang.reflect.*;
import org.javatuples.*;
import java.security.*;
import java.math.*;
import java.io.*;
import java.util.stream.*;
class Problem {
// You are given a non-empty array list of positive integers. Return the greatest integer that is greater than
// zero, and has a frequency greater than or equal to the value of the integer itself.
// The frequency of an integer is the number of times it appears in the array list.
// If no such a value exist, return -1.
// Examples:
// >>> search((new ArrayList<Long>(Arrays.asList((long)4l, (long)1l, (long)2l, (long)2l, (long)3l, (long)1l))))
// (2l)
// >>> search((new ArrayList<Long>(Arrays.asList((long)1l, (long)2l, (long)2l, (long)3l, (long)3l, (long)3l, (long)4l, (long)4l, (long)4l))))
// (3l)
// >>> search((new ArrayList<Long>(Arrays.asList((long)5l, (long)5l, (long)4l, (long)4l, (long)4l))))
// (-1l)
public static long search(ArrayList<Long> lst) {
HashMap<Long, Long> map = new HashMap<Long, Long>();
Long max = (long)-1; | long val = lst.get(i);
if (map.containsKey(val)) {
map.put(val, map.get(val) + 1);
} else {
map.put(val, (long)1);
}
if (map.get(val) >= val && val > max) {
max = val;
}
}
return max;
}
} | for (int i = 0; i < lst.size(); i++) { | }
public static void main(String[] args) {
assert(search((new ArrayList<Long>(Arrays.asList((long)5l, (long)5l, (long)5l, (long)5l, (long)1l)))) == (1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)4l, (long)1l, (long)4l, (long)1l, (long)4l, (long)4l)))) == (4l));
assert(search((new ArrayList<Long>(Arrays.asList((long)3l, (long)3l)))) == (-1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)8l, (long)8l, (long)8l, (long)8l, (long)8l, (long)8l, (long)8l, (long)8l)))) == (8l));
assert(search((new ArrayList<Long>(Arrays.asList((long)2l, (long)3l, (long)3l, (long)2l, (long)2l)))) == (2l));
assert(search((new ArrayList<Long>(Arrays.asList((long)2l, (long)7l, (long)8l, (long)8l, (long)4l, (long)8l, (long)7l, (long)3l, (long)9l, (long)6l, (long)5l, (long)10l, (long)4l, (long)3l, (long)6l, (long)7l, (long)1l, (long)7l, (long)4l, (long)10l, (long)8l, (long)1l)))) == (1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)3l, (long)2l, (long)8l, (long)2l)))) == (2l));
assert(search((new ArrayList<Long>(Arrays.asList((long)6l, (long)7l, (long)1l, (long)8l, (long)8l, (long)10l, (long)5l, (long)8l, (long)5l, (long)3l, (long)10l)))) == (1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)8l, (long)8l, (long)3l, (long)6l, (long)5l, (long)6l, (long)4l)))) == (-1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)6l, (long)9l, (long)6l, (long)7l, (long)1l, (long)4l, (long)7l, (long)1l, (long)8l, (long)8l, (long)9l, (long)8l, (long)10l, (long)10l, (long)8l, (long)4l, (long)10l, (long)4l, (long)10l, (long)1l, (long)2l, (long)9l, (long)5l, (long)7l, (long)9l)))) == (1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)1l, (long)9l, (long)10l, (long)1l, (long)3l)))) == (1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)6l, (long)9l, (long)7l, (long)5l, (long)8l, (long)7l, (long)5l, (long)3l, (long)7l, (long)5l, (long)10l, (long)10l, (long)3l, (long)6l, (long)10l, (long)2l, (long)8l, (long)6l, (long)5l, (long)4l, (long)9l, (long)5l, (long)3l, (long)10l)))) == (5l));
assert(search((new ArrayList<Long>(Arrays.asList((long)1l)))) == (1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)8l, (long)8l, (long)10l, (long)6l, (long)4l, (long)3l, (long)5l, (long)8l, (long)2l, (long)4l, (long)2l, (long)8l, (long)4l, (long)6l, (long)10l, (long)4l, (long)2l, (long)1l, (long)10l, (long)2l, (long)1l, (long)1l, (long)5l)))) == (4l));
assert(search((new ArrayList<Long>(Arrays.asList((long)2l, (long)10l, (long)4l, (long)8l, (long)2l, (long)10l, (long)5l, (long)1l, (long)2l, (long)9l, (long)5l, (long)5l, (long)6l, (long)3l, (long)8l, (long)6l, (long)4l, (long)10l)))) == (2l));
assert(search((new ArrayList<Long>(Arrays.asList((long)1l, (long)6l, (long)10l, (long)1l, (long)6l, (long)9l, (long)10l, (long)8l, (long)6l, (long)8l, (long)7l, (long)3l)))) == (1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)9l, (long)2l, (long)4l, (long)1l, (long)5l, (long)1l, (long)5l, (long)2l, (long)5l, (long)7l, (long)7l, (long)7l, (long)3l, (long)10l, (long)1l, (long)5l, (long)4l, (long)2l, (long)8l, (long)4l, (long)1l, (long)9l, (long)10l, (long)7l, (long)10l, (long)2l, (long)8l, (long)10l, (long)9l, (long)4l)))) == (4l));
assert(search((new ArrayList<Long>(Arrays.asList((long)2l, (long)6l, (long)4l, (long)2l, (long)8l, (long)7l, (long)5l, (long)6l, (long)4l, (long)10l, (long)4l, (long)6l, (long)3l, (long)7l, (long)8l, (long)8l, (long)3l, (long)1l, (long)4l, (long)2l, (long)2l, (long)10l, (long)7l)))) == (4l));
assert(search((new ArrayList<Long>(Arrays.asList((long)9l, (long)8l, (long)6l, (long)10l, (long)2l, (long)6l, (long)10l, (long)2l, (long)7l, (long)8l, (long)10l, (long)3l, (long)8l, (long)2l, (long)6l, (long)2l, (long)3l, (long)1l)))) == (2l));
assert(search((new ArrayList<Long>(Arrays.asList((long)5l, (long)5l, (long)3l, (long)9l, (long)5l, (long)6l, (long)3l, (long)2l, (long)8l, (long)5l, (long)6l, (long)10l, (long)10l, (long)6l, (long)8l, (long)4l, (long)10l, (long)7l, (long)7l, (long)10l, (long)8l)))) == (-1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)10l)))) == (-1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)9l, (long)7l, (long)7l, (long)2l, (long)4l, (long)7l, (long)2l, (long)10l, (long)9l, (long)7l, (long)5l, (long)7l, (long)2l)))) == (2l));
assert(search((new ArrayList<Long>(Arrays.asList((long)5l, (long)4l, (long)10l, (long)2l, (long)1l, (long)1l, (long)10l, (long)3l, (long)6l, (long)1l, (long)8l)))) == (1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)7l, (long)9l, (long)9l, (long)9l, (long)3l, (long)4l, (long)1l, (long)5l, (long)9l, (long)1l, (long)2l, (long)1l, (long)1l, (long)10l, (long)7l, (long)5l, (long)6l, (long)7l, (long)6l, (long)7l, (long)7l, (long)6l)))) == (1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)3l, (long)10l, (long)10l, (long)9l, (long)2l)))) == (-1l));
}
}
|
humaneval-HumanEval_5_intersperse.json-L12 | js | //Insert a number 'delimeter' between every two consecutive elements of input array `numbers'
// >>> intersperse([], 4)
// []
// >>> intersperse([1, 2, 3], 4)
// [1, 4, 2, 4, 3]
function intersperse(numbers, delimeter){
var result = [];
for(var i = 0; i < numbers.length; i++){
result.push(numbers[i]);
if(i !== numbers.length - 1){
result.push(delimeter); | }
return result;
}
| } | const assert = require('node:assert');
function test() {
let candidate = intersperse;
assert.deepEqual(candidate([], 7),[]);
assert.deepEqual(candidate([5, 6, 3, 2], 8),[5, 8, 6, 8, 3, 8, 2]);
assert.deepEqual(candidate([2, 2, 2], 2),[2, 2, 2, 2, 2]);
}
test(); |
humaneval-HumanEval_131_digits.json-L19 | java | import java.util.*;
import java.lang.reflect.*;
import org.javatuples.*;
import java.security.*;
import java.math.*;
import java.io.*;
import java.util.stream.*;
class Problem {
// Given a positive integer n, return the product of the odd digits.
// Return 0 if all digits are even.
// For example:
// >>> digits((1l))
// (1l)
// >>> digits((4l))
// (0l)
// >>> digits((235l))
// (15l)
public static long digits(long n) {
| return n % 2 == 1 ? n : 0;
}
return digits(n / 10) * (n % 2 == 1 ? n % 10 : 1);
}
} | if (n < 10) { | }
public static void main(String[] args) {
assert(digits((5l)) == (5l));
assert(digits((54l)) == (5l));
assert(digits((120l)) == (1l));
assert(digits((5014l)) == (5l));
assert(digits((98765l)) == (315l));
assert(digits((5576543l)) == (2625l));
assert(digits((2468l)) == (0l));
}
}
|
humaneval-HumanEval_17_parse_music.json-L18 | js | //Input to this function is a string representing musical notes in a special ASCII format.
// Your task is to parse this string and return array of integers corresponding to how many beats does each
// not last.
// Here is a legend:
// 'o' - whole note, lasts four beats
// 'o|' - half note, lasts two beats
// '.|' - quater note, lasts one beat
// >>> parse_music("o o| .| o| o| .| .| .| .| o o")
// [4, 2, 1, 2, 2, 1, 1, 1, 1, 4, 4]
function parse_music(music_string){
let songs = music_string.split(' ');
let song = [];
songs.forEach(s => {
if(s === 'o'){
song.push(4);
}else if(s === 'o|'){
song.push(2); | song.push(1);
}
});
return song;
}
| }else if(s === '.|'){ | const assert = require('node:assert');
function test() {
let candidate = parse_music;
assert.deepEqual(candidate(""),[]);
assert.deepEqual(candidate("o o o o"),[4, 4, 4, 4]);
assert.deepEqual(candidate(".| .| .| .|"),[1, 1, 1, 1]);
assert.deepEqual(candidate("o| o| .| .| o o o o"),[2, 2, 1, 1, 4, 4, 4, 4]);
assert.deepEqual(candidate("o| .| o| .| o o| o o|"),[2, 1, 2, 1, 4, 2, 4, 2]);
}
test(); |
humaneval-HumanEval_110_exchange.json-L28 | js | //In this problem, you will implement a function that takes two arrays of numbers,
// and determines whether it is possible to perform an exchange of elements
// between them to make lst1 an array of only even numbers.
// There is no limit on the number of exchanged elements between lst1 and lst2.
// If it is possible to exchange elements between the lst1 and lst2 to make
// all the elements of lst1 to be even, return "YES".
// Otherwise, return "NO".
// For example:
// >>> exchange([1, 2, 3, 4], [1, 2, 3, 4])
// "YES"
// >>> exchange([1, 2, 3, 4], [1, 5, 3, 4])
// "NO"
// It is assumed that the input arrays will be non-empty.
function exchange(lst1, lst2){
var num1 = 0;
var num2 = 0;
var exchange = true;
while(num1 < lst1.length && exchange){
if(lst1[num1] % 2 !== 0){
exchange = false;
if(num2 < lst2.length){
while(num2 < lst2.length && exchange == false){
if(lst2[num2] % 2 == 0){
lst1[num1] = lst2[num2];
exchange = true;
}
num2++; | }
}
num1++;
}
if(exchange){
return "YES";
}else{
return "NO";
}
}
| } | const assert = require('node:assert');
function test() {
let candidate = exchange;
assert.deepEqual(candidate([1, 2, 3, 4], [1, 2, 3, 4]),"YES");
assert.deepEqual(candidate([1, 2, 3, 4], [1, 5, 3, 4]),"NO");
assert.deepEqual(candidate([1, 2, 3, 4], [2, 1, 4, 3]),"YES");
assert.deepEqual(candidate([5, 7, 3], [2, 6, 4]),"YES");
assert.deepEqual(candidate([5, 7, 3], [2, 6, 3]),"NO");
assert.deepEqual(candidate([3, 2, 6, 1, 8, 9], [3, 5, 5, 1, 1, 1]),"NO");
assert.deepEqual(candidate([100, 200], [200, 200]),"YES");
}
test(); |
humaneval-HumanEval_93_encode.json-L33 | java | import java.util.*;
import java.lang.reflect.*;
import org.javatuples.*;
import java.security.*;
import java.math.*;
import java.io.*;
import java.util.stream.*;
class Problem {
// Write a function that takes a message, and encodes in such a
// way that it swaps case of all letters, replaces all vowels in
// the message with the letter that appears 2 places ahead of that
// vowel in the english alphabet.
// Assume only letters.
// Examples:
// >>> encode(("test"))
// ("TGST")
// >>> encode(("This is a message"))
// ("tHKS KS C MGSSCGG")
public static String encode(String message) {
char[] arr = message.toCharArray();
char[] vowels = "AEIOUaeiou".toCharArray();
for (int i = 0; i < arr.length; i++) {
if (Arrays.binarySearch(vowels, arr[i]) > -1) {
arr[i] = (char) (arr[i] + 2);
}
if (Character.isUpperCase(arr[i])) {
arr[i] = Character.toLowerCase(arr[i]);
} else {
arr[i] = Character.toUpperCase(arr[i]);
}
}
return new String(arr); | } | } | }
public static void main(String[] args) {
assert(encode(("TEST")).equals(("tgst")));
assert(encode(("Mudasir")).equals(("mWDCSKR")));
assert(encode(("YES")).equals(("ygs")));
assert(encode(("This is a message")).equals(("tHKS KS C MGSSCGG")));
assert(encode(("I DoNt KnOw WhAt tO WrItE")).equals(("k dQnT kNqW wHcT Tq wRkTg")));
}
}
|
humaneval-HumanEval_81_numerical_letter_grade.json-L43 | py | from typing import List
def numerical_letter_grade(grades: List[float]) -> List[str]:
"""It is the last week of the semester and the teacher has to give the grades
to students. The teacher has been making her own algorithm for grading.
The only problem is, she has lost the code she used for grading.
She has given you a list of GPAs for some students and you have to write
a function that can output a list of letter grades using the following table:
GPA | Letter grade
4.0 A+
> 3.7 A
> 3.3 A-
> 3.0 B+
> 2.7 B
> 2.3 B-
> 2.0 C+
> 1.7 C
> 1.3 C-
> 1.0 D+
> 0.7 D
> 0.0 D-
0.0 E
Example:
>>> grade_equation([4.0, 3, 1.7, 2, 3.5])
['A+', 'B', 'C-', 'C', 'A-']
"""
final = []
for x in grades:
if x == 4.0:
final.append('A+')
elif x > 3.7:
final.append('A')
elif x > 3.3:
final.append('A-')
elif x > 3.0:
final.append('B+')
elif x > 2.7:
final.append('B')
elif x > 2.3:
final.append('B-') | final.append('C+')
elif x > 1.7:
final.append('C')
elif x > 1.3:
final.append('C-')
elif x > 1.0:
final.append('D+')
elif x > 0.7:
final.append('D')
elif x > 0.0:
final.append('D-')
else:
final.append('E')
return final
| elif x > 2.0: | def check(candidate):
assert candidate([4.0, 3, 1.7, 2, 3.5]) == ['A+', 'B', 'C-', 'C', 'A-']
assert candidate([1.2]) == ['D+']
assert candidate([0.5]) == ['D-']
assert candidate([0.0]) == ['E']
assert candidate([1.0, 0.3, 1.5, 2.8, 3.3]) == ['D', 'D-', 'C-', 'B', 'B+']
assert candidate([0.0, 0.7]) == ['E', 'D-']
def test_check():
check(numerical_letter_grade)
test_check()
|
humaneval-HumanEval_112_reverse_delete.json-L16 | js | //Task
// We are given two strings s and c, you have to deleted all the characters in s that are equal to any character in c
// then check if the result string is palindrome.
// A string is called palindrome if it reads the same backward as forward.
// You should return an array containing the result string and true/false for the check.
// Example
// >>> reverse_delete("abcde", "ae")
// ["bcd", false]
// >>> reverse_delete("abcdef", "b")
// ["acdef", false]
// >>> reverse_delete("abcdedcba", "ab")
// ["cdedc", true]
function reverse_delete(s, c){
const filter = s.split('').filter(x => c.includes(x) === false);
const filterString = filter.join(''); | const result = [];
if (filterString === filterStringReverse) {
result.push(filterString, true);
} else {
result.push(filterString, false);
}
return result;
} | const filterStringReverse = filter.reverse().join(''); | const assert = require('node:assert');
function test() {
let candidate = reverse_delete;
assert.deepEqual(candidate("abcde", "ae"),["bcd", false]);
assert.deepEqual(candidate("abcdef", "b"),["acdef", false]);
assert.deepEqual(candidate("abcdedcba", "ab"),["cdedc", true]);
assert.deepEqual(candidate("dwik", "w"),["dik", false]);
assert.deepEqual(candidate("a", "a"),["", true]);
assert.deepEqual(candidate("abcdedcba", ""),["abcdedcba", true]);
assert.deepEqual(candidate("abcdedcba", "v"),["abcdedcba", true]);
assert.deepEqual(candidate("vabba", "v"),["abba", true]);
assert.deepEqual(candidate("mamma", "mia"),["", true]);
}
test(); |
humaneval-HumanEval_105_by_length.json-L34 | java | import java.util.*;
import java.lang.reflect.*;
import org.javatuples.*;
import java.security.*;
import java.math.*;
import java.io.*;
import java.util.stream.*;
class Problem {
// Given an array array list of integers, sort the integers that are between 1 and 9 inclusive,
// reverse the resulting array array list, and then replace each digit by its corresponding name from
// "One", "Two", "Three", "Four", "Five", "Six", "Seven", "Eight", "Nine".
// For example:
// >>> byLength((new ArrayList<Long>(Arrays.asList((long)2l, (long)1l, (long)1l, (long)4l, (long)5l, (long)8l, (long)2l, (long)3l))))
// (new ArrayList<String>(Arrays.asList((String)"Eight", (String)"Five", (String)"Four", (String)"Three", (String)"Two", (String)"Two", (String)"One", (String)"One")))
// If the array array list is empty, return an empty array array list:
// >>> byLength((new ArrayList<Long>(Arrays.asList())))
// (new ArrayList<String>(Arrays.asList()))
// If the array array list has any strange number ignore it:
// >>> byLength((new ArrayList<Long>(Arrays.asList((long)1l, (long)-1l, (long)55l))))
// (new ArrayList<String>(Arrays.asList((String)"One")))
public static ArrayList<String> byLength(ArrayList<Long> arr) {
String[] a = new String[] {"One", "Two", "Three", "Four", "Five", "Six", "Seven", "Eight", "Nine"};
ArrayList<String> res = new ArrayList<String>();
ArrayList<Long> good = new ArrayList<Long>();
for (Long i : arr) {
if (i >= 1 && i <= 9) {
good.add(i);
}
}
good.sort(new Comparator<Long>() {
public int compare(Long i1, Long i2) {
return i1.compareTo(i2);
} | Collections.reverse(good);
for (Long i : good) {
res.add(a[i.intValue() - 1]);
}
return res;
}
} | }); | }
public static void main(String[] args) {
assert(byLength((new ArrayList<Long>(Arrays.asList((long)2l, (long)1l, (long)1l, (long)4l, (long)5l, (long)8l, (long)2l, (long)3l)))).equals((new ArrayList<String>(Arrays.asList((String)"Eight", (String)"Five", (String)"Four", (String)"Three", (String)"Two", (String)"Two", (String)"One", (String)"One")))));
assert(byLength((new ArrayList<Long>(Arrays.asList()))).equals((new ArrayList<String>(Arrays.asList()))));
assert(byLength((new ArrayList<Long>(Arrays.asList((long)1l, (long)-1l, (long)55l)))).equals((new ArrayList<String>(Arrays.asList((String)"One")))));
assert(byLength((new ArrayList<Long>(Arrays.asList((long)1l, (long)-1l, (long)3l, (long)2l)))).equals((new ArrayList<String>(Arrays.asList((String)"Three", (String)"Two", (String)"One")))));
assert(byLength((new ArrayList<Long>(Arrays.asList((long)9l, (long)4l, (long)8l)))).equals((new ArrayList<String>(Arrays.asList((String)"Nine", (String)"Eight", (String)"Four")))));
}
}
|
humaneval-HumanEval_121_solution.json-L18 | js | //Given a non-empty array of integers, return the sum of all of the odd elements that are in even positions.
// Examples
// >>> solution([5, 8, 7, 1])
// 12
// >>> solution([3, 3, 3, 3, 3])
// 9
// >>> solution([30, 13, 24, 321])
// 0
function solution(lst){
let result = 0;
for (let i = 0; i < lst.length; i++){
if (i % 2 === 0){
if (lst[i] % 2 === 1){
result += lst[i];
}
}
} | } | return result; | const assert = require('node:assert');
function test() {
let candidate = solution;
assert.deepEqual(candidate([5, 8, 7, 1]),12);
assert.deepEqual(candidate([3, 3, 3, 3, 3]),9);
assert.deepEqual(candidate([30, 13, 24, 321]),0);
assert.deepEqual(candidate([5, 9]),5);
assert.deepEqual(candidate([2, 4, 8]),0);
assert.deepEqual(candidate([30, 13, 23, 32]),23);
assert.deepEqual(candidate([3, 13, 2, 9]),3);
}
test(); |
humaneval-HumanEval_106_f.json-L28 | js | //Implement the function f that takes n as a parameter,
// and returns an array of size n, such that the value of the element at index i is the factorial of i if i is even
// or the sum of numbers from 1 to i otherwise.
// i starts from 1.
// the factorial of i is the multiplication of the numbers from 1 to i (1 * 2 * ... * i).
// Example:
// >>> f(5)
// [1, 2, 6, 24, 15]
function f(n){
var result = [];
var sum = 0;
var factorial = 1;
for(var i = 1; i <= n; i++){
if(i % 2 == 0){
for(var j = 1; j <= i; j++){
factorial *= j;
}
result.push(factorial);
factorial = 1;
}else{
for(var k = 1; k <= i; k++){
sum += k;
}
result.push(sum);
sum = 0;
}
} | } | return result; | const assert = require('node:assert');
function test() {
let candidate = f;
assert.deepEqual(candidate(5),[1, 2, 6, 24, 15]);
assert.deepEqual(candidate(7),[1, 2, 6, 24, 15, 720, 28]);
assert.deepEqual(candidate(1),[1]);
assert.deepEqual(candidate(3),[1, 2, 6]);
}
test(); |
humaneval-HumanEval_57_monotonic.json-L24 | js | //Return true is array elements are monotonically increasing or decreasing.
// >>> monotonic([1, 2, 4, 20])
// true
// >>> monotonic([1, 20, 4, 10])
// false
// >>> monotonic([4, 1, 0, -10])
// true
function monotonic(l){
if(l.length <= 1){
return true;
}
if(l[0] < l[1]){
for(var i = 1; i < l.length - 1; i++){
if(l[i] > l[i + 1]){
return false;
}
}
}
else{
for(var i = 1; i < l.length - 1; i++){
if(l[i] < l[i + 1]){
return false;
} | }
return true;
}
| } | const assert = require('node:assert');
function test() {
let candidate = monotonic;
assert.deepEqual(candidate([1, 2, 4, 10]),true);
assert.deepEqual(candidate([1, 2, 4, 20]),true);
assert.deepEqual(candidate([1, 20, 4, 10]),false);
assert.deepEqual(candidate([4, 1, 0, -10]),true);
assert.deepEqual(candidate([4, 1, 1, 0]),true);
assert.deepEqual(candidate([1, 2, 3, 2, 5, 60]),false);
assert.deepEqual(candidate([1, 2, 3, 4, 5, 60]),true);
assert.deepEqual(candidate([9, 9, 9, 9]),true);
}
test(); |
humaneval-HumanEval_55_fib.json-L26 | java | import java.util.*;
import java.lang.reflect.*;
import org.javatuples.*;
import java.security.*;
import java.math.*;
import java.io.*;
import java.util.stream.*;
class Problem {
// Return n-th Fibonacci number.
// >>> fib((10l))
// (55l)
// >>> fib((1l))
// (1l)
// >>> fib((8l))
// (21l)
public static long fib(long n) {
if (n == 0) {
return 0l;
}
else if (n == 1) {
return 1l;
}
else {
return Problem.fib((n - 1)) + Problem.fib((n - 2));
} | } | } | }
public static void main(String[] args) {
assert(fib((10l)) == (55l));
assert(fib((1l)) == (1l));
assert(fib((8l)) == (21l));
assert(fib((11l)) == (89l));
assert(fib((12l)) == (144l));
}
}
|
humaneval-HumanEval_75_is_multiply_prime.json-L13 | py | def is_multiply_prime(a: int) -> bool:
"""Write a function that returns true if the given number is the multiplication of 3 prime numbers
and false otherwise.
Knowing that (a) is less then 100.
Example:
>>> is_multiply_prime(30)
True
30 = 2 * 3 * 5
"""
n = a
d = 2
prime_factors = [] | if n % d == 0:
prime_factors.append(d)
n //= d
else:
d += 1
if n > 1:
prime_factors.append(n)
if len(prime_factors) == 3:
return True
else:
return False
| while d * d <= n: | def check(candidate):
assert candidate(5) == False
assert candidate(30) == True
assert candidate(8) == True
assert candidate(10) == False
assert candidate(125) == True
assert candidate(105) == True
assert candidate(126) == False
assert candidate(729) == False
assert candidate(891) == False
assert candidate(1001) == True
def test_check():
check(is_multiply_prime)
test_check()
|
humaneval-HumanEval_148_bf.json-L19 | js | //There are eight planets in our solar system: the closerst to the Sun
// is Mercury, the next one is Venus, then Earth, Mars, Jupiter, Saturn,
// Uranus, Neptune.
// Write a function that takes two planet names as strings planet1 and planet2.
// The function should return an array containing all planets whose orbits are
// located between the orbit of planet1 and the orbit of planet2, sorted by
// the proximity to the sun.
// The function should return an empty array if planet1 or planet2
// are not correct planet names.
// Examples
// >>> bf("Jupiter", "Neptune")
// ["Saturn", "Uranus"]
// >>> bf("Earth", "Mercury")
// "Venus"
// >>> bf("Mercury", "Uranus")
// ["Venus", "Earth", "Mars", "Jupiter", "Saturn"]
function bf(planet1, planet2){
var planets = { | 'Venus':2,
'Earth':3,
'Mars':4,
'Jupiter':5,
'Saturn':6,
'Uranus':7,
'Neptune':8
}
if(!planets[planet1] || !planets[planet2]){
return [];
}
var keys = Object.keys(planets);
var position1 = keys.indexOf(planet1);
var position2 = keys.indexOf(planet2);
if(position1 > position2){
var temp = position1;
position1 = position2;
position2 = temp;
}
var res = [];
for(var i = position1 + 1; i < position2; i++){
res.push(keys[i]);
}
return res;
} | 'Mercury':1, | const assert = require('node:assert');
function test() {
let candidate = bf;
assert.deepEqual(candidate("Jupiter", "Neptune"),["Saturn", "Uranus"]);
assert.deepEqual(candidate("Earth", "Mercury"),["Venus"]);
assert.deepEqual(candidate("Mercury", "Uranus"),["Venus", "Earth", "Mars", "Jupiter", "Saturn"]);
assert.deepEqual(candidate("Neptune", "Venus"),["Earth", "Mars", "Jupiter", "Saturn", "Uranus"]);
assert.deepEqual(candidate("Earth", "Earth"),[]);
assert.deepEqual(candidate("Mars", "Earth"),[]);
assert.deepEqual(candidate("Jupiter", "Makemake"),[]);
}
test(); |
humaneval-HumanEval_133_sum_squares.json-L25 | py | from typing import List
def sum_squares(lst: List[float]) -> int:
"""You are given a list of numbers.
You need to return the sum of squared numbers in the given list,
round each element in the list to the upper int(Ceiling) first.
Examples:
>>> lst([1.0, 2.0, 3.0])
14
>>> lst([1.0, 4.0, 9.0])
98
>>> lst([1.0, 3.0, 5.0, 7.0])
84
>>> lst([1.4, 4.2, 0.0])
29
>>> lst([-2.4, 1.0, 1.0])
6
"""
import math
for i in range(len(lst)):
lst[i] = math.ceil(lst[i])
total = 0 | total += i**2
return total | for i in lst: | def check(candidate):
assert candidate([1.0, 2.0, 3.0]) == 14
assert candidate([1.0, 2.0, 3.0]) == 14
assert candidate([1.0, 3.0, 5.0, 7.0]) == 84
assert candidate([1.4, 4.2, 0.0]) == 29
assert candidate([-2.4, 1.0, 1.0]) == 6
assert candidate([100.0, 1.0, 15.0, 2.0]) == 10230
assert candidate([10000.0, 10000.0]) == 200000000
assert candidate([-1.4, 4.6, 6.3]) == 75
assert candidate([-1.4, 17.9, 18.9, 19.9]) == 1086
assert candidate([0.0]) == 0
assert candidate([-1.0]) == 1
assert candidate([-1.0, 1.0, 0.0]) == 2
def test_check():
check(sum_squares)
test_check()
|
humaneval-HumanEval_66_digitSum.json-L23 | js | //Task
// Write a function that takes a string as input and returns the sum of the upper characters only'
// ASCII codes.
// Examples:
// >>> digitSum("")
// 0
// >>> digitSum("abAB")
// 131
// >>> digitSum("abcCd")
// 67
// >>> digitSum("helloE")
// 69
// >>> digitSum("woArBld")
// 131
// >>> digitSum("aAaaaXa")
// 153
function digitSum(s){
var sum = 0;
for(var i = 0; i < s.length; i++){
if(s[i] >= 'A' && s[i] <= 'Z'){
sum += s.charCodeAt(i);
} | return sum;
} | } | const assert = require('node:assert');
function test() {
let candidate = digitSum;
assert.deepEqual(candidate(""),0);
assert.deepEqual(candidate("abAB"),131);
assert.deepEqual(candidate("abcCd"),67);
assert.deepEqual(candidate("helloE"),69);
assert.deepEqual(candidate("woArBld"),131);
assert.deepEqual(candidate("aAaaaXa"),153);
assert.deepEqual(candidate(" How are yOu?"),151);
assert.deepEqual(candidate("You arE Very Smart"),327);
}
test(); |
humaneval-HumanEval_123_get_odd_collatz.json-L23 | java | import java.util.*;
import java.lang.reflect.*;
import org.javatuples.*;
import java.security.*;
import java.math.*;
import java.io.*;
import java.util.stream.*;
class Problem {
// Given a positive integer n, return a sorted array list that has the odd numbers in collatz sequence.
// The Collatz conjecture is a conjecture in mathematics that concerns a sequence defined
// as follows: start with any positive integer n. Then each term is obtained from the
// previous term as follows: if the previous term is even, the next term is one half of
// the previous term. If the previous term is odd, the next term is 3 times the previous
// term plus 1. The conjecture is that no matter what value of n, the sequence will always reach 1.
// Note:
// 1. Collatz(1) is [1].
// 2. returned array list sorted in increasing order.
// For example:
// get_odd_collatz(5) returns [1, 5] # The collatz sequence for 5 is [5, 16, 8, 4, 2, 1], so the odd numbers are only 1, and 5.
// >>> getOddCollatz((5l))
// (new ArrayList<Long>(Arrays.asList((long)1l, (long)5l)))
public static ArrayList<Long> getOddCollatz(long n) {
| HashSet<Long> odds = new HashSet<Long>();
long n1 = n;
while (n1 > 1) {
if (n1 % 2 == 1) odds.add(n1);
n1 = n1 % 2 == 0 ? n1 / 2 : 3 * n1 + 1;
}
odds.add(1l);
Long[] odds_arr = odds.toArray(new Long[odds.size()]);
ArrayList<Long> ans = new ArrayList<Long>(Arrays.asList(odds_arr));
Collections.sort(ans);
return ans;
}
} | if (n <= 0) return new ArrayList<Long>(); | }
public static void main(String[] args) {
assert(getOddCollatz((14l)).equals((new ArrayList<Long>(Arrays.asList((long)1l, (long)5l, (long)7l, (long)11l, (long)13l, (long)17l)))));
assert(getOddCollatz((5l)).equals((new ArrayList<Long>(Arrays.asList((long)1l, (long)5l)))));
assert(getOddCollatz((12l)).equals((new ArrayList<Long>(Arrays.asList((long)1l, (long)3l, (long)5l)))));
assert(getOddCollatz((1l)).equals((new ArrayList<Long>(Arrays.asList((long)1l)))));
}
}
|
humaneval-HumanEval_33_sort_third.json-L33 | java | import java.util.*;
import java.lang.reflect.*;
import org.javatuples.*;
import java.security.*;
import java.math.*;
import java.io.*;
import java.util.stream.*;
class Problem {
// This function takes an array array list l and returns an array array list l' such that
// l' is identical to l in the indicies that are not divisible by three, while its values at the indicies that are divisible by three are equal
// to the values of the corresponding indicies of l, but sorted.
// >>> sortThird((new ArrayList<Long>(Arrays.asList((long)1l, (long)2l, (long)3l))))
// (new ArrayList<Long>(Arrays.asList((long)1l, (long)2l, (long)3l)))
// >>> sortThird((new ArrayList<Long>(Arrays.asList((long)5l, (long)6l, (long)3l, (long)4l, (long)8l, (long)9l, (long)2l))))
// (new ArrayList<Long>(Arrays.asList((long)2l, (long)6l, (long)3l, (long)4l, (long)8l, (long)9l, (long)5l)))
public static ArrayList<Long> sortThird(ArrayList<Long> l) {
ArrayList<Long> l_r = new ArrayList<Long>();
ArrayList<Long> l_e = new ArrayList<Long>();
ArrayList<Long> l_s = new ArrayList<Long>();
for (int i = 0; i < l.size(); i++) {
if (i % 3 == 0) {
l_e.add(l.get(i));
} else {
l_r.add(l.get(i));
}
}
for (int i = 0; i < l_e.size(); i++) {
long min = l_e.get(i);
for (int j = i; j < l_e.size(); j++) {
if (l_e.get(j) < min) {
min = l_e.get(j);
l_e.set(j, l_e.get(i)); | }
}
}
int j = 0;
for (int i = 0; i < l.size(); i++) {
if (i % 3 == 0) {
l_s.add(l_e.get(j));
j++;
} else {
l_s.add(l_r.get(i - j));
}
}
return l_s;
}
} | l_e.set(i, min); | }
public static void main(String[] args) {
assert(sortThird((new ArrayList<Long>(Arrays.asList((long)5l, (long)6l, (long)3l, (long)4l, (long)8l, (long)9l, (long)2l)))).equals((new ArrayList<Long>(Arrays.asList((long)2l, (long)6l, (long)3l, (long)4l, (long)8l, (long)9l, (long)5l)))));
assert(sortThird((new ArrayList<Long>(Arrays.asList((long)5l, (long)8l, (long)3l, (long)4l, (long)6l, (long)9l, (long)2l)))).equals((new ArrayList<Long>(Arrays.asList((long)2l, (long)8l, (long)3l, (long)4l, (long)6l, (long)9l, (long)5l)))));
assert(sortThird((new ArrayList<Long>(Arrays.asList((long)5l, (long)6l, (long)9l, (long)4l, (long)8l, (long)3l, (long)2l)))).equals((new ArrayList<Long>(Arrays.asList((long)2l, (long)6l, (long)9l, (long)4l, (long)8l, (long)3l, (long)5l)))));
assert(sortThird((new ArrayList<Long>(Arrays.asList((long)5l, (long)6l, (long)3l, (long)4l, (long)8l, (long)9l, (long)2l, (long)1l)))).equals((new ArrayList<Long>(Arrays.asList((long)2l, (long)6l, (long)3l, (long)4l, (long)8l, (long)9l, (long)5l, (long)1l)))));
}
}
|
humaneval-HumanEval_95_check_dict_case.json-L26 | java | import java.util.*;
import java.lang.reflect.*;
import org.javatuples.*;
import java.security.*;
import java.math.*;
import java.io.*;
import java.util.stream.*;
class Problem {
// Given a hash map, return true if all keys are strings in lower
// case or all keys are strings in upper case, else return false.
// The function should return false is the given hash map is empty.
// Examples:
// >>> checkDictCase((new HashMap<String,String>(Map.of("a", "apple", "b", "banana"))))
// (true)
// >>> checkDictCase((new HashMap<String,String>(Map.of("a", "apple", "A", "banana", "B", "banana"))))
// (false)
// >>> checkDictCase((new HashMap<String,String>(Map.of("a", "apple", 8l, "banana", "a", "apple"))))
// (false)
// >>> checkDictCase((new HashMap<String,String>(Map.of("Name", "John", "Age", "36", "City", "Houston"))))
// (false)
// >>> checkDictCase((new HashMap<String,String>(Map.of("STATE", "NC", "ZIP", "12345"))))
// (true)
public static boolean checkDictCase(HashMap<String,String> dict) {
if (dict.isEmpty()) {
return false; | boolean allLowerCase = dict.keySet().stream().allMatch(k -> k.matches("^[a-z]+$"));
boolean allUpperCase = dict.keySet().stream().allMatch(k -> k.matches("^[A-Z]+$"));
return allLowerCase || allUpperCase;
}
} | } | }
public static void main(String[] args) {
assert(checkDictCase((new HashMap<String,String>(Map.of("p", "pineapple", "b", "banana")))) == (true));
assert(checkDictCase((new HashMap<String,String>(Map.of("p", "pineapple", "A", "banana", "B", "banana")))) == (false));
assert(checkDictCase((new HashMap<String,String>(Map.of("p", "pineapple", "5", "banana", "a", "apple")))) == (false));
assert(checkDictCase((new HashMap<String,String>(Map.of("Name", "John", "Age", "36", "City", "Houston")))) == (false));
assert(checkDictCase((new HashMap<String,String>(Map.of("STATE", "NC", "ZIP", "12345")))) == (true));
assert(checkDictCase((new HashMap<String,String>(Map.of("fruit", "Orange", "taste", "Sweet")))) == (true));
assert(checkDictCase((new HashMap<String,String>())) == (false));
}
}
|
humaneval-HumanEval_152_compare.json-L25 | java | import java.util.*;
import java.lang.reflect.*;
import org.javatuples.*;
import java.security.*;
import java.math.*;
import java.io.*;
import java.util.stream.*;
class Problem {
// I think we all remember that feeling when the result of some long-awaited
// event is finally known. The feelings and thoughts you have at that moment are
// definitely worth noting down and comparing.
// Your task is to determine if a person correctly guessed the results of a number of matches.
// You are given two array array lists of scores and guesses of equal length, where each index shows a match.
// Return an array array list of the same length denoting how far off each guess was. If they have guessed correctly,
// the value is 0, and if not, the value is the absolute difference between the guess and the score.
// example:
// >>> compare((new ArrayList<Long>(Arrays.asList((long)1l, (long)2l, (long)3l, (long)4l, (long)5l, (long)1l))), (new ArrayList<Long>(Arrays.asList((long)1l, (long)2l, (long)3l, (long)4l, (long)2l, (long)-2l))))
// (new ArrayList<Long>(Arrays.asList((long)0l, (long)0l, (long)0l, (long)0l, (long)3l, (long)3l)))
// >>> compare((new ArrayList<Long>(Arrays.asList((long)0l, (long)5l, (long)0l, (long)0l, (long)0l, (long)4l))), (new ArrayList<Long>(Arrays.asList((long)4l, (long)1l, (long)1l, (long)0l, (long)0l, (long)-2l))))
// (new ArrayList<Long>(Arrays.asList((long)4l, (long)4l, (long)1l, (long)0l, (long)0l, (long)6l)))
public static ArrayList<Long> compare(ArrayList<Long> game, ArrayList<Long> guess) {
ArrayList<Long> result = new ArrayList<Long>();
for (int i = 0; i < game.size(); i++) {
if (game.get(i) != guess.get(i)) { | } else {
result.add((long)0);
}
}
return result;
}
} | result.add(Math.abs(game.get(i) - guess.get(i))); | }
public static void main(String[] args) {
assert(compare((new ArrayList<Long>(Arrays.asList((long)1l, (long)2l, (long)3l, (long)4l, (long)5l, (long)1l))), (new ArrayList<Long>(Arrays.asList((long)1l, (long)2l, (long)3l, (long)4l, (long)2l, (long)-2l)))).equals((new ArrayList<Long>(Arrays.asList((long)0l, (long)0l, (long)0l, (long)0l, (long)3l, (long)3l)))));
assert(compare((new ArrayList<Long>(Arrays.asList((long)0l, (long)0l, (long)0l, (long)0l, (long)0l, (long)0l))), (new ArrayList<Long>(Arrays.asList((long)0l, (long)0l, (long)0l, (long)0l, (long)0l, (long)0l)))).equals((new ArrayList<Long>(Arrays.asList((long)0l, (long)0l, (long)0l, (long)0l, (long)0l, (long)0l)))));
assert(compare((new ArrayList<Long>(Arrays.asList((long)1l, (long)2l, (long)3l))), (new ArrayList<Long>(Arrays.asList((long)-1l, (long)-2l, (long)-3l)))).equals((new ArrayList<Long>(Arrays.asList((long)2l, (long)4l, (long)6l)))));
assert(compare((new ArrayList<Long>(Arrays.asList((long)1l, (long)2l, (long)3l, (long)5l))), (new ArrayList<Long>(Arrays.asList((long)-1l, (long)2l, (long)3l, (long)4l)))).equals((new ArrayList<Long>(Arrays.asList((long)2l, (long)0l, (long)0l, (long)1l)))));
}
}
|
humaneval-HumanEval_160_do_algebra.json-L36 | js | //Given two arrays operator, and operand. The first array has basic algebra operations, and
// the second array is an array of integers. Use the two given arrays to build the algebric
// expression and return the evaluation of this expression.
// The basic algebra operations:
// Addition ( + )
// Subtraction ( - )
// Multiplication ( * )
// Floor division ( // )
// Exponentiation ( ** )
// Example:
// operator['+', '*', '-']
// array = [2, 3, 4, 5]
// result = 2 + 3 * 4 - 5
// => result = 9
// Note:
// The length of operator array is equal to the length of operand array minus one.
// Operand is an array of of non-negative integers.
// Operator array has at least one operator, and operand array has at least two operands.
function do_algebra(operator, operand){
let do_again;
let count = 0;
let temp;
let answer;
while(count < operator.length){
switch(operator[count]){
case '*':
operand[count] = operand[count] * operand[count + 1];
operand.splice(count + 1, 1);
operator.splice(count, 1);
count = 0;
do_again = true;
break;
case '//':
operand[count] = Math.floor(operand[count] / operand[count + 1]);
operand.splice(count + 1, 1); | count = 0;
do_again = true;
break;
case '**':
operand[count] = Math.pow(operand[count], operand[count + 1]);
operand.splice(count + 1, 1);
operator.splice(count, 1);
count = 0;
do_again = true;
break;
default:
count++;
do_again = false;
}
}
answer = operand[0];
operand.splice(0, 1);
while(operand.length > 0){
switch(operator[0]){
case '+':
answer += operand[0];
break;
case '-':
answer -= operand[0];
break;
}
operand.splice(0, 1);
operator.splice(0, 1);
}
return answer;
}
| operator.splice(count, 1); | const assert = require('node:assert');
function test() {
let candidate = do_algebra;
assert.deepEqual(candidate(["**", "*", "+"], [2, 3, 4, 5]),37);
assert.deepEqual(candidate(["+", "*", "-"], [2, 3, 4, 5]),9);
assert.deepEqual(candidate(["//", "*"], [7, 3, 4]),8);
}
test(); |
humaneval-HumanEval_18_how_many_times.json-L25 | java | import java.util.*;
import java.lang.reflect.*;
import org.javatuples.*;
import java.security.*;
import java.math.*;
import java.io.*;
import java.util.stream.*;
class Problem {
// Find how many times a given substring can be found in the original string. Count overlaping cases.
// >>> howManyTimes((""), ("a"))
// (0l)
// >>> howManyTimes(("aaa"), ("a"))
// (3l)
// >>> howManyTimes(("aaaa"), ("aa"))
// (3l)
public static long howManyTimes(String string, String substring) {
long count = 0;
int index = 0;
while (index != -1) {
index = string.indexOf(substring, index);
if (index != -1) {
index++;
count++;
} | return count;
}
} | } | }
public static void main(String[] args) {
assert(howManyTimes((""), ("x")) == (0l));
assert(howManyTimes(("xyxyxyx"), ("x")) == (4l));
assert(howManyTimes(("cacacacac"), ("cac")) == (4l));
assert(howManyTimes(("john doe"), ("john")) == (1l));
}
}
|
humaneval-HumanEval_75_is_multiply_prime.json-L19 | js | //Write a function that returns true if the given number is the multiplication of 3 prime numbers
// and false otherwise.
// Knowing that (a) is less then 100.
// Example:
// >>> is_multiply_prime(30)
// true
// 30 = 2 * 3 * 5
function is_multiply_prime(a){
a = Math.abs(a);
const prime = [2, 3, 5, 7, 11, 13, 17, 19, 23, 29, 31, 37, 41, 43, 47, 53, 59, 61, 67, 71, 73, 79, 83, 89, 97];
let i = 0;
let check = [];
while(a != 1){
if(a % prime[i] == 0){
a = a / prime[i];
check.push(prime[i]);
}else{
i++; | }
if(check.length == 3){
return true;
}else{
return false;
}
} | } | const assert = require('node:assert');
function test() {
let candidate = is_multiply_prime;
assert.deepEqual(candidate(5),false);
assert.deepEqual(candidate(30),true);
assert.deepEqual(candidate(8),true);
assert.deepEqual(candidate(10),false);
assert.deepEqual(candidate(125),true);
assert.deepEqual(candidate(105),true);
assert.deepEqual(candidate(126),false);
assert.deepEqual(candidate(729),false);
assert.deepEqual(candidate(891),false);
assert.deepEqual(candidate(1001),true);
}
test(); |
humaneval-HumanEval_156_int_to_mini_roman.json-L32 | py | def int_to_mini_roman(number: int) -> str:
"""
Given a positive integer, obtain its roman numeral equivalent as a string,
and return it in lowercase.
Restrictions: 1 <= num <= 1000
Examples:
>>> int_to_mini_roman(19)
'xix'
>>> int_to_mini_roman(152)
'clii'
>>> int_to_mini_roman(426)
'cdxxvi'
"""
roman_numerals = {
1000: 'm',
900: 'cm',
500: 'd',
400: 'cd',
100: 'c',
90: 'xc',
50: 'l',
40: 'xl',
10: 'x',
9: 'ix',
5: 'v',
4: 'iv',
1: 'i'
}
roman_numeral = ''
for key in sorted(roman_numerals.keys(), reverse=True): | number = number % key
return roman_numeral
| roman_numeral += roman_numerals[key] * (number // key) | def check(candidate):
assert candidate(19) == 'xix'
assert candidate(152) == 'clii'
assert candidate(251) == 'ccli'
assert candidate(426) == 'cdxxvi'
assert candidate(500) == 'd'
assert candidate(1) == 'i'
assert candidate(4) == 'iv'
assert candidate(43) == 'xliii'
assert candidate(90) == 'xc'
assert candidate(94) == 'xciv'
assert candidate(532) == 'dxxxii'
assert candidate(900) == 'cm'
assert candidate(994) == 'cmxciv'
assert candidate(1000) == 'm'
def test_check():
check(int_to_mini_roman)
test_check()
|
humaneval-HumanEval_108_count_nums.json-L31 | java | import java.util.*;
import java.lang.reflect.*;
import org.javatuples.*;
import java.security.*;
import java.math.*;
import java.io.*;
import java.util.stream.*;
class Problem {
// Write a function count_nums which takes an array array list of integers and returns
// the number of elements which has a sum of digits > 0.
// If a number is negative, then its first signed digit will be negative:
// e.g. -123 has signed digits -1, 2, and 3.
// >>> countNums((new ArrayList<Long>(Arrays.asList())))
// (0l)
// >>> countNums((new ArrayList<Long>(Arrays.asList((long)-1l, (long)11l, (long)-11l))))
// (1l)
// >>> countNums((new ArrayList<Long>(Arrays.asList((long)1l, (long)1l, (long)2l))))
// (3l)
public static long countNums(ArrayList<Long> arr) {
long result = 0l;
for (long i : arr) {
String str = String.valueOf(i);
int sum = 0;
if (str.startsWith("-")) {
sum = sum - (int) Character.getNumericValue(str.charAt(1));
for (int j = 2; j < str.length(); j++) {
sum = sum + (int) Character.getNumericValue(str.charAt(j));
}
} else {
for (int j = 0; j < str.length(); j++) { | }
}
if (sum > 0) {
result++;
}
}
return result;
}
} | sum = sum + (int) Character.getNumericValue(str.charAt(j)); | }
public static void main(String[] args) {
assert(countNums((new ArrayList<Long>(Arrays.asList()))) == (0l));
assert(countNums((new ArrayList<Long>(Arrays.asList((long)-1l, (long)-2l, (long)0l)))) == (0l));
assert(countNums((new ArrayList<Long>(Arrays.asList((long)1l, (long)1l, (long)2l, (long)-2l, (long)3l, (long)4l, (long)5l)))) == (6l));
assert(countNums((new ArrayList<Long>(Arrays.asList((long)1l, (long)6l, (long)9l, (long)-6l, (long)0l, (long)1l, (long)5l)))) == (5l));
assert(countNums((new ArrayList<Long>(Arrays.asList((long)1l, (long)100l, (long)98l, (long)-7l, (long)1l, (long)-1l)))) == (4l));
assert(countNums((new ArrayList<Long>(Arrays.asList((long)12l, (long)23l, (long)34l, (long)-45l, (long)-56l, (long)0l)))) == (5l));
assert(countNums((new ArrayList<Long>(Arrays.asList((long)0l, (long)1l)))) == (1l));
assert(countNums((new ArrayList<Long>(Arrays.asList((long)1l)))) == (1l));
}
}
|
humaneval-HumanEval_143_words_in_sentence.json-L26 | js | //You are given a string representing a sentence,
// the sentence contains some words separated by a space,
// and you have to return a string that contains the words from the original sentence,
// whose lengths are prime numbers,
// the order of the words in the new string should be the same as the original one.
// Example 1:
// >>> words_in_sentence("This is a test")
// "is"
// Example 2:
// >>> words_in_sentence("lets go for swimming")
// "go for"
// Constraints:
// * 1 <= len(sentence) <= 100
// * sentence contains only letters
function words_in_sentence(sentence){
return sentence.split(' ').filter(word => {
var number = word.length;
var isPrime = true;
if(number === 1 || number === 0){
return false;
}
for(var i = 2; i < number; i++){
if(number % i === 0){
isPrime = false;
break; | }
return isPrime;
}).join(' ');
} | } | const assert = require('node:assert');
function test() {
let candidate = words_in_sentence;
assert.deepEqual(candidate("This is a test"),"is");
assert.deepEqual(candidate("lets go for swimming"),"go for");
assert.deepEqual(candidate("there is no place available here"),"there is no place");
assert.deepEqual(candidate("Hi I am Hussein"),"Hi am Hussein");
assert.deepEqual(candidate("go for it"),"go for it");
assert.deepEqual(candidate("here"),"");
assert.deepEqual(candidate("here is"),"is");
}
test(); |
humaneval-HumanEval_150_x_or_y.json-L10 | js | //A simple program which should return the value of x if n is
// a prime number and should return the value of y otherwise.
// Examples:
// >>> x_or_y(7, 34, 12)
// 34
// >>> x_or_y(15, 8, 5)
// 5
function x_or_y(n, x, y){
if(n<2){ | }
for(var i=2; i<n; i++){
if(n%i==0){
return y;
}
}
return x;
} | return y; | const assert = require('node:assert');
function test() {
let candidate = x_or_y;
assert.deepEqual(candidate(7, 34, 12),34);
assert.deepEqual(candidate(15, 8, 5),5);
assert.deepEqual(candidate(3, 33, 5212),33);
assert.deepEqual(candidate(1259, 3, 52),3);
assert.deepEqual(candidate(7919, -1, 12),-1);
assert.deepEqual(candidate(3609, 1245, 583),583);
assert.deepEqual(candidate(91, 56, 129),129);
assert.deepEqual(candidate(6, 34, 1234),1234);
assert.deepEqual(candidate(1, 2, 0),0);
assert.deepEqual(candidate(2, 2, 0),2);
}
test(); |
humaneval-HumanEval_156_int_to_mini_roman.json-L58 | java | import java.util.*;
import java.lang.reflect.*;
import org.javatuples.*;
import java.security.*;
import java.math.*;
import java.io.*;
import java.util.stream.*;
class Problem {
// Given a positive integer, obtain its roman numeral equivalent as a string,
// and return it in lowercase.
// Restrictions: 1 <= num <= 1000
// Examples:
// >>> intToMiniRoman((19l))
// ("xix")
// >>> intToMiniRoman((152l))
// ("clii")
// >>> intToMiniRoman((426l))
// ("cdxxvi")
public static String intToMiniRoman(long number) {
int num = (int) number;
String res = "";
if (num == 0)
return "";
while (num >= 1000) {
res += "m";
num -= 1000;
}
if (num >= 900) {
res += "cm";
num -= 900;
}
if (num >= 500) {
res += "d";
num -= 500;
}
if (num >= 400) {
res += "cd";
num -= 400;
}
while (num >= 100) {
res += "c";
num -= 100;
}
if (num >= 90) {
res += "xc";
num -= 90;
}
if (num >= 50) {
res += "l";
num -= 50;
}
if (num >= 40) {
res += "xl";
num -= 40;
}
while (num >= 10) {
res += "x"; | }
if (num >= 9) {
res += "ix";
num -= 9;
}
if (num >= 5) {
res += "v";
num -= 5;
}
if (num >= 4) {
res += "iv";
num -= 4;
}
while (num >= 1) {
res += "i";
num -= 1;
}
return res;
}
} | num -= 10; | }
public static void main(String[] args) {
assert(intToMiniRoman((19l)).equals(("xix")));
assert(intToMiniRoman((152l)).equals(("clii")));
assert(intToMiniRoman((251l)).equals(("ccli")));
assert(intToMiniRoman((426l)).equals(("cdxxvi")));
assert(intToMiniRoman((500l)).equals(("d")));
assert(intToMiniRoman((1l)).equals(("i")));
assert(intToMiniRoman((4l)).equals(("iv")));
assert(intToMiniRoman((43l)).equals(("xliii")));
assert(intToMiniRoman((90l)).equals(("xc")));
assert(intToMiniRoman((94l)).equals(("xciv")));
assert(intToMiniRoman((532l)).equals(("dxxxii")));
assert(intToMiniRoman((900l)).equals(("cm")));
assert(intToMiniRoman((994l)).equals(("cmxciv")));
assert(intToMiniRoman((1000l)).equals(("m")));
}
}
|
humaneval-HumanEval_69_search.json-L26 | java | import java.util.*;
import java.lang.reflect.*;
import org.javatuples.*;
import java.security.*;
import java.math.*;
import java.io.*;
import java.util.stream.*;
class Problem {
// You are given a non-empty array list of positive integers. Return the greatest integer that is greater than
// zero, and has a frequency greater than or equal to the value of the integer itself.
// The frequency of an integer is the number of times it appears in the array list.
// If no such a value exist, return -1.
// Examples:
// >>> search((new ArrayList<Long>(Arrays.asList((long)4l, (long)1l, (long)2l, (long)2l, (long)3l, (long)1l))))
// (2l)
// >>> search((new ArrayList<Long>(Arrays.asList((long)1l, (long)2l, (long)2l, (long)3l, (long)3l, (long)3l, (long)4l, (long)4l, (long)4l))))
// (3l)
// >>> search((new ArrayList<Long>(Arrays.asList((long)5l, (long)5l, (long)4l, (long)4l, (long)4l))))
// (-1l)
public static long search(ArrayList<Long> lst) {
HashMap<Long, Long> map = new HashMap<Long, Long>();
Long max = (long)-1;
for (int i = 0; i < lst.size(); i++) {
long val = lst.get(i);
if (map.containsKey(val)) { | } else {
map.put(val, (long)1);
}
if (map.get(val) >= val && val > max) {
max = val;
}
}
return max;
}
} | map.put(val, map.get(val) + 1); | }
public static void main(String[] args) {
assert(search((new ArrayList<Long>(Arrays.asList((long)5l, (long)5l, (long)5l, (long)5l, (long)1l)))) == (1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)4l, (long)1l, (long)4l, (long)1l, (long)4l, (long)4l)))) == (4l));
assert(search((new ArrayList<Long>(Arrays.asList((long)3l, (long)3l)))) == (-1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)8l, (long)8l, (long)8l, (long)8l, (long)8l, (long)8l, (long)8l, (long)8l)))) == (8l));
assert(search((new ArrayList<Long>(Arrays.asList((long)2l, (long)3l, (long)3l, (long)2l, (long)2l)))) == (2l));
assert(search((new ArrayList<Long>(Arrays.asList((long)2l, (long)7l, (long)8l, (long)8l, (long)4l, (long)8l, (long)7l, (long)3l, (long)9l, (long)6l, (long)5l, (long)10l, (long)4l, (long)3l, (long)6l, (long)7l, (long)1l, (long)7l, (long)4l, (long)10l, (long)8l, (long)1l)))) == (1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)3l, (long)2l, (long)8l, (long)2l)))) == (2l));
assert(search((new ArrayList<Long>(Arrays.asList((long)6l, (long)7l, (long)1l, (long)8l, (long)8l, (long)10l, (long)5l, (long)8l, (long)5l, (long)3l, (long)10l)))) == (1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)8l, (long)8l, (long)3l, (long)6l, (long)5l, (long)6l, (long)4l)))) == (-1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)6l, (long)9l, (long)6l, (long)7l, (long)1l, (long)4l, (long)7l, (long)1l, (long)8l, (long)8l, (long)9l, (long)8l, (long)10l, (long)10l, (long)8l, (long)4l, (long)10l, (long)4l, (long)10l, (long)1l, (long)2l, (long)9l, (long)5l, (long)7l, (long)9l)))) == (1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)1l, (long)9l, (long)10l, (long)1l, (long)3l)))) == (1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)6l, (long)9l, (long)7l, (long)5l, (long)8l, (long)7l, (long)5l, (long)3l, (long)7l, (long)5l, (long)10l, (long)10l, (long)3l, (long)6l, (long)10l, (long)2l, (long)8l, (long)6l, (long)5l, (long)4l, (long)9l, (long)5l, (long)3l, (long)10l)))) == (5l));
assert(search((new ArrayList<Long>(Arrays.asList((long)1l)))) == (1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)8l, (long)8l, (long)10l, (long)6l, (long)4l, (long)3l, (long)5l, (long)8l, (long)2l, (long)4l, (long)2l, (long)8l, (long)4l, (long)6l, (long)10l, (long)4l, (long)2l, (long)1l, (long)10l, (long)2l, (long)1l, (long)1l, (long)5l)))) == (4l));
assert(search((new ArrayList<Long>(Arrays.asList((long)2l, (long)10l, (long)4l, (long)8l, (long)2l, (long)10l, (long)5l, (long)1l, (long)2l, (long)9l, (long)5l, (long)5l, (long)6l, (long)3l, (long)8l, (long)6l, (long)4l, (long)10l)))) == (2l));
assert(search((new ArrayList<Long>(Arrays.asList((long)1l, (long)6l, (long)10l, (long)1l, (long)6l, (long)9l, (long)10l, (long)8l, (long)6l, (long)8l, (long)7l, (long)3l)))) == (1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)9l, (long)2l, (long)4l, (long)1l, (long)5l, (long)1l, (long)5l, (long)2l, (long)5l, (long)7l, (long)7l, (long)7l, (long)3l, (long)10l, (long)1l, (long)5l, (long)4l, (long)2l, (long)8l, (long)4l, (long)1l, (long)9l, (long)10l, (long)7l, (long)10l, (long)2l, (long)8l, (long)10l, (long)9l, (long)4l)))) == (4l));
assert(search((new ArrayList<Long>(Arrays.asList((long)2l, (long)6l, (long)4l, (long)2l, (long)8l, (long)7l, (long)5l, (long)6l, (long)4l, (long)10l, (long)4l, (long)6l, (long)3l, (long)7l, (long)8l, (long)8l, (long)3l, (long)1l, (long)4l, (long)2l, (long)2l, (long)10l, (long)7l)))) == (4l));
assert(search((new ArrayList<Long>(Arrays.asList((long)9l, (long)8l, (long)6l, (long)10l, (long)2l, (long)6l, (long)10l, (long)2l, (long)7l, (long)8l, (long)10l, (long)3l, (long)8l, (long)2l, (long)6l, (long)2l, (long)3l, (long)1l)))) == (2l));
assert(search((new ArrayList<Long>(Arrays.asList((long)5l, (long)5l, (long)3l, (long)9l, (long)5l, (long)6l, (long)3l, (long)2l, (long)8l, (long)5l, (long)6l, (long)10l, (long)10l, (long)6l, (long)8l, (long)4l, (long)10l, (long)7l, (long)7l, (long)10l, (long)8l)))) == (-1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)10l)))) == (-1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)9l, (long)7l, (long)7l, (long)2l, (long)4l, (long)7l, (long)2l, (long)10l, (long)9l, (long)7l, (long)5l, (long)7l, (long)2l)))) == (2l));
assert(search((new ArrayList<Long>(Arrays.asList((long)5l, (long)4l, (long)10l, (long)2l, (long)1l, (long)1l, (long)10l, (long)3l, (long)6l, (long)1l, (long)8l)))) == (1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)7l, (long)9l, (long)9l, (long)9l, (long)3l, (long)4l, (long)1l, (long)5l, (long)9l, (long)1l, (long)2l, (long)1l, (long)1l, (long)10l, (long)7l, (long)5l, (long)6l, (long)7l, (long)6l, (long)7l, (long)7l, (long)6l)))) == (1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)3l, (long)10l, (long)10l, (long)9l, (long)2l)))) == (-1l));
}
}
|
humaneval-HumanEval_6_parse_nested_parens.json-L21 | py | from typing import List
def parse_nested_parens(paren_string: str) -> List[int]:
""" Input to this function is a string represented multiple groups for nested parentheses separated by spaces.
For each of the group, output the deepest level of nesting of parentheses.
E.g. (()()) has maximum two levels of nesting while ((())) has three.
>>> parse_nested_parens('(()()) ((())) () ((())()())')
[2, 3, 1, 3]
"""
result = []
for parens in paren_string.split(' '):
max_depth = 0
current_depth = 0
for paren in parens:
if paren == '(':
current_depth += 1
max_depth = max(max_depth, current_depth)
elif paren == ')':
current_depth -= 1 | return result
| result.append(max_depth) | def check(candidate):
assert candidate('(()()) ((())) () ((())()())') == [2, 3, 1, 3]
assert candidate('() (()) ((())) (((())))') == [1, 2, 3, 4]
assert candidate('(()(())((())))') == [4]
def test_check():
check(parse_nested_parens)
test_check()
|
humaneval-HumanEval_139_special_factorial.json-L16 | js | //The Brazilian factorial is defined as:
// brazilian_factorial(n) = n! * (n-1)! * (n-2)! * ... * 1!
// where n > 0
// For example:
// >>> special_factorial(4)
// 288
// The function will receive an integer as input and should return the special
// factorial of this integer.
function special_factorial(n){
if (n > 0) {
let fact = 1;
for (let i = 1; i <= n; i++) {
fact *= i;
}
return fact * special_factorial(n - 1); | return 1;
}
}
| } else { | const assert = require('node:assert');
function test() {
let candidate = special_factorial;
assert.deepEqual(candidate(4),288);
assert.deepEqual(candidate(5),34560);
assert.deepEqual(candidate(7),125411328000);
assert.deepEqual(candidate(1),1);
}
test(); |
humaneval-HumanEval_125_split_words.json-L16 | js | //Given a string of words, return an array of words split on whitespace, if no whitespaces exists in the text you
// should split on commas ',' if no commas exists you should return the number of lower-case letters with odd order in the
// alphabet, ord('a') = 0, ord('b') = 1, ... ord('z') = 25
// Examples
// >>> split_words("Hello world!")
// ["Hello", "world!"]
// >>> split_words("Hello,world!")
// ["Hello", "world!"]
// >>> split_words("abcdef")
// 3
function split_words(txt){
if(txt.includes(' ')){
return txt.split(' ');
}
else if(txt.includes(',')){ | }
else{
let count = 0;
for(let i = 0; i < txt.length; i++){
if(i % 2 != 0){
if(txt[i] == txt[i].toLowerCase()){
count++;
}
}
}
return count;
}
} | return txt.split(','); | const assert = require('node:assert');
function test() {
let candidate = split_words;
assert.deepEqual(candidate("Hello world!"),["Hello", "world!"]);
assert.deepEqual(candidate("Hello,world!"),["Hello", "world!"]);
assert.deepEqual(candidate("Hello world,!"),["Hello", "world,!"]);
assert.deepEqual(candidate("Hello,Hello,world !"),["Hello,Hello,world", "!"]);
assert.deepEqual(candidate("abcdef"),3);
assert.deepEqual(candidate("aaabb"),2);
assert.deepEqual(candidate("aaaBb"),1);
assert.deepEqual(candidate(""),0);
}
test(); |
humaneval-HumanEval_1_separate_paren_groups.json-L24 | js | //Input to this function is a string containing multiple groups of nested parentheses. Your goal is to
// separate those group into separate strings and return the array of those.
// Separate groups are balanced (each open brace is properly closed) and not nested within each other
// Ignore any spaces in the input string.
// >>> separate_paren_groups("( ) (( )) (( )( ))")
// ["()", "(())", "(()())"]
function separate_paren_groups(paren_string){
var count = 0;
var group = '';
var groups = [];
for (var i = 0; i < paren_string.length; i++){
if (paren_string[i] === '('){
count++;
group += paren_string[i];
} else if (paren_string[i] === ')'){
count--;
group += paren_string[i];
}
if (count === 0 && group){
groups.push(group);
group = '';
}
} | }
| return groups; | const assert = require('node:assert');
function test() {
let candidate = separate_paren_groups;
assert.deepEqual(candidate("(()()) ((())) () ((())()())"),["(()())", "((()))", "()", "((())()())"]);
assert.deepEqual(candidate("() (()) ((())) (((())))"),["()", "(())", "((()))", "(((())))"]);
assert.deepEqual(candidate("(()(())((())))"),["(()(())((())))"]);
assert.deepEqual(candidate("( ) (( )) (( )( ))"),["()", "(())", "(()())"]);
}
test(); |
humaneval-HumanEval_100_make_a_pile.json-L22 | java | import java.util.*;
import java.lang.reflect.*;
import org.javatuples.*;
import java.security.*;
import java.math.*;
import java.io.*;
import java.util.stream.*;
class Problem {
// Given a positive integer n, you have to make a pile of n levels of stones.
// The first level has n stones.
// The number of stones in the next level is:
// - the next odd number if n is odd.
// - the next even number if n is even.
// Return the number of stones in each level in an array array list, where element at index
// i represents the number of stones in the level (i+1).
// Examples:
// >>> makeAPile((3l))
// (new ArrayList<Long>(Arrays.asList((long)3l, (long)5l, (long)7l)))
public static ArrayList<Long> makeAPile(long n) {
ArrayList<Long> levels = new ArrayList<Long>();
for (long i = 0; i < n; i++) { | }
return levels;
}
} | levels.add(n + 2 * i); | }
public static void main(String[] args) {
assert(makeAPile((3l)).equals((new ArrayList<Long>(Arrays.asList((long)3l, (long)5l, (long)7l)))));
assert(makeAPile((4l)).equals((new ArrayList<Long>(Arrays.asList((long)4l, (long)6l, (long)8l, (long)10l)))));
assert(makeAPile((5l)).equals((new ArrayList<Long>(Arrays.asList((long)5l, (long)7l, (long)9l, (long)11l, (long)13l)))));
assert(makeAPile((6l)).equals((new ArrayList<Long>(Arrays.asList((long)6l, (long)8l, (long)10l, (long)12l, (long)14l, (long)16l)))));
assert(makeAPile((8l)).equals((new ArrayList<Long>(Arrays.asList((long)8l, (long)10l, (long)12l, (long)14l, (long)16l, (long)18l, (long)20l, (long)22l)))));
}
}
|
humaneval-HumanEval_72_will_it_fly.json-L24 | js | //Write a function that returns true if the object q will fly, and false otherwise.
// The object q will fly if it's balanced (it is a palindromic array) and the sum of its elements is less than or equal the maximum possible weight w.
// Example:
// >>> will_it_fly([1, 2], 5)
// false
// # 1+2 is less than the maximum possible weight, but it's unbalanced.
// >>> will_it_fly([3, 2, 3], 1)
// false
// # it's balanced, but 3+2+3 is more than the maximum possible weight.
// >>> will_it_fly([3, 2, 3], 9)
// true
// # 3+2+3 is less than the maximum possible weight, and it's balanced.
// >>> will_it_fly([3], 5)
// true
// # 3 is less than the maximum possible weight, and it's balanced.
function will_it_fly(q, w){
let sum = 0;
let balanced = true;
for(let i = 0; i < q.length; i++){
sum += q[i];
}
for(let i = 0; i < q.length; i++){
if(q[i] !== q[q.length - 1 - i]){ | break;
}
}
return balanced && sum <= w;
} | balanced = false; | const assert = require('node:assert');
function test() {
let candidate = will_it_fly;
assert.deepEqual(candidate([3, 2, 3], 9),true);
assert.deepEqual(candidate([1, 2], 5),false);
assert.deepEqual(candidate([3], 5),true);
assert.deepEqual(candidate([3, 2, 3], 1),false);
assert.deepEqual(candidate([1, 2, 3], 6),false);
assert.deepEqual(candidate([5], 5),true);
}
test(); |
humaneval-HumanEval_129_minPath.json-L47 | py | from typing import List
def minPath(grid: List[List[int]], k: int) -> List[int]:
"""
Given a grid with N rows and N columns (N >= 2) and a positive integer k,
each cell of the grid contains a value. Every integer in the range [1, N * N]
inclusive appears exactly once on the cells of the grid.
You have to find the minimum path of length k in the grid. You can start
from any cell, and in each step you can move to any of the neighbor cells,
in other words, you can go to cells which share an edge with you current
cell.
Please note that a path of length k means visiting exactly k cells (not
necessarily distinct).
You CANNOT go off the grid.
A path A (of length k) is considered less than a path B (of length k) if
after making the ordered lists of the values on the cells that A and B go
through (let's call them lst_A and lst_B), lst_A is lexicographically less
than lst_B, in other words, there exist an integer index i (1 <= i <= k)
such that lst_A[i] < lst_B[i] and for any j (1 <= j < i) we have
lst_A[j] = lst_B[j].
It is guaranteed that the answer is unique.
Return an ordered list of the values on the cells that the minimum path go through.
Examples:
>>> minPath([[1, 2, 3], [4, 5, 6], [7, 8, 9]], 3)
[1, 2, 1]
>>> minPath([[5, 9, 3], [4, 1, 6], [7, 8, 2]], 1)
[1]
"""
min_val = float('inf')
for i in range(len(grid)):
for j in range(len(grid[0])):
if grid[i][j] < min_val:
min_val = grid[i][j]
row = i
col = j
path = [min_val]
while len(path) < k:
min_val = float('inf')
for i, j in (row - 1, col), (row + 1, col), (row, col - 1), (row, col + 1):
if 0 <= i < len(grid) and 0 <= j < len(grid[0]) and grid[i][j] < min_val:
min_val = grid[i][j]
row = i
col = j | return path | path.append(min_val) | def check(candidate):
assert candidate([[1, 2, 3], [4, 5, 6], [7, 8, 9]], 3) == [1, 2, 1]
assert candidate([[5, 9, 3], [4, 1, 6], [7, 8, 2]], 1) == [1]
assert candidate([[1, 2, 3, 4], [5, 6, 7, 8], [9, 10, 11, 12], [13, 14, 15, 16]], 4) == [1, 2, 1, 2]
assert candidate([[6, 4, 13, 10], [5, 7, 12, 1], [3, 16, 11, 15], [8, 14, 9, 2]], 7) == [1, 10, 1, 10, 1, 10, 1]
assert candidate([[8, 14, 9, 2], [6, 4, 13, 15], [5, 7, 1, 12], [3, 10, 11, 16]], 5) == [1, 7, 1, 7, 1]
assert candidate([[11, 8, 7, 2], [5, 16, 14, 4], [9, 3, 15, 6], [12, 13, 10, 1]], 9) == [1, 6, 1, 6, 1, 6, 1, 6, 1]
assert candidate([[12, 13, 10, 1], [9, 3, 15, 6], [5, 16, 14, 4], [11, 8, 7, 2]], 12) == [1, 6, 1, 6, 1, 6, 1, 6, 1, 6, 1, 6]
assert candidate([[2, 7, 4], [3, 1, 5], [6, 8, 9]], 8) == [1, 3, 1, 3, 1, 3, 1, 3]
assert candidate([[6, 1, 5], [3, 8, 9], [2, 7, 4]], 8) == [1, 5, 1, 5, 1, 5, 1, 5]
assert candidate([[1, 2], [3, 4]], 10) == [1, 2, 1, 2, 1, 2, 1, 2, 1, 2]
assert candidate([[1, 3], [3, 2]], 10) == [1, 3, 1, 3, 1, 3, 1, 3, 1, 3]
def test_check():
check(minPath)
test_check()
|
humaneval-HumanEval_59_largest_prime_factor.json-L17 | java | import java.util.*;
import java.lang.reflect.*;
import org.javatuples.*;
import java.security.*;
import java.math.*;
import java.io.*;
import java.util.stream.*;
class Problem {
// Return the largest prime factor of n. Assume n > 1 and is not a prime.
// >>> largestPrimeFactor((13195l))
// (29l)
// >>> largestPrimeFactor((2048l))
// (2l)
public static long largestPrimeFactor(long n) {
List<Long> primes = new ArrayList<>();
long x = n; | if (x % i == 0) {
primes.add(i);
x /= i;
i--;
}
}
if (x > 1) {
primes.add(x);
}
return primes.get(primes.size() - 1);
}
} | for (long i = 2; i * i <= x; i++) { | }
public static void main(String[] args) {
assert(largestPrimeFactor((15l)) == (5l));
assert(largestPrimeFactor((27l)) == (3l));
assert(largestPrimeFactor((63l)) == (7l));
assert(largestPrimeFactor((330l)) == (11l));
assert(largestPrimeFactor((13195l)) == (29l));
}
}
|
humaneval-HumanEval_96_count_up_to.json-L35 | java | import java.util.*;
import java.lang.reflect.*;
import org.javatuples.*;
import java.security.*;
import java.math.*;
import java.io.*;
import java.util.stream.*;
class Problem {
// Implement a function that takes an non-negative integer and returns an array array list of the first n
// integers that are prime numbers and less than n.
// for example:
// >>> countUpTo((5l))
// (new ArrayList<Long>(Arrays.asList((long)2l, (long)3l)))
// >>> countUpTo((11l))
// (new ArrayList<Long>(Arrays.asList((long)2l, (long)3l, (long)5l, (long)7l)))
// >>> countUpTo((0l))
// (new ArrayList<Long>(Arrays.asList()))
// >>> countUpTo((20l))
// (new ArrayList<Long>(Arrays.asList((long)2l, (long)3l, (long)5l, (long)7l, (long)11l, (long)13l, (long)17l, (long)19l)))
// >>> countUpTo((1l))
// (new ArrayList<Long>(Arrays.asList()))
// >>> countUpTo((18l))
// (new ArrayList<Long>(Arrays.asList((long)2l, (long)3l, (long)5l, (long)7l, (long)11l, (long)13l, (long)17l)))
public static ArrayList<Long> countUpTo(long n) {
ArrayList<Long> arrayList = new ArrayList<Long>();
for (long i = 2l; i < n; i++) {
boolean isPrime = true;
for (long j = 2l; j < i; j++) {
if (i % j == 0) {
isPrime = false;
break;
}
}
if (isPrime) { | }
}
return arrayList;
}
} | arrayList.add(i); | }
public static void main(String[] args) {
assert(countUpTo((5l)).equals((new ArrayList<Long>(Arrays.asList((long)2l, (long)3l)))));
assert(countUpTo((6l)).equals((new ArrayList<Long>(Arrays.asList((long)2l, (long)3l, (long)5l)))));
assert(countUpTo((7l)).equals((new ArrayList<Long>(Arrays.asList((long)2l, (long)3l, (long)5l)))));
assert(countUpTo((10l)).equals((new ArrayList<Long>(Arrays.asList((long)2l, (long)3l, (long)5l, (long)7l)))));
assert(countUpTo((0l)).equals((new ArrayList<Long>(Arrays.asList()))));
assert(countUpTo((22l)).equals((new ArrayList<Long>(Arrays.asList((long)2l, (long)3l, (long)5l, (long)7l, (long)11l, (long)13l, (long)17l, (long)19l)))));
assert(countUpTo((1l)).equals((new ArrayList<Long>(Arrays.asList()))));
assert(countUpTo((18l)).equals((new ArrayList<Long>(Arrays.asList((long)2l, (long)3l, (long)5l, (long)7l, (long)11l, (long)13l, (long)17l)))));
assert(countUpTo((47l)).equals((new ArrayList<Long>(Arrays.asList((long)2l, (long)3l, (long)5l, (long)7l, (long)11l, (long)13l, (long)17l, (long)19l, (long)23l, (long)29l, (long)31l, (long)37l, (long)41l, (long)43l)))));
assert(countUpTo((101l)).equals((new ArrayList<Long>(Arrays.asList((long)2l, (long)3l, (long)5l, (long)7l, (long)11l, (long)13l, (long)17l, (long)19l, (long)23l, (long)29l, (long)31l, (long)37l, (long)41l, (long)43l, (long)47l, (long)53l, (long)59l, (long)61l, (long)67l, (long)71l, (long)73l, (long)79l, (long)83l, (long)89l, (long)97l)))));
}
}
|
humaneval-HumanEval_43_pairs_sum_to_zero.json-L25 | js | //pairs_sum_to_zero takes an array of integers as an input.
// it returns true if there are two distinct elements in the array that
// sum to zero, and false otherwise.
// >>> pairs_sum_to_zero([1, 3, 5, 0])
// false
// >>> pairs_sum_to_zero([1, 3, -2, 1])
// false
// >>> pairs_sum_to_zero([1, 2, 3, 7])
// false
// >>> pairs_sum_to_zero([2, 4, -5, 3, 5, 7])
// true
// >>> pairs_sum_to_zero([1])
// false
function pairs_sum_to_zero(l){
var i = 0
while (i < l.length){
var j = i+1
while (j < l.length){
if ((l[i] + l[j]) === 0){
return true
}
j = j + 1
}
i = i + 1 | return false
}
| } | const assert = require('node:assert');
function test() {
let candidate = pairs_sum_to_zero;
assert.deepEqual(candidate([1, 3, 5, 0]),false);
assert.deepEqual(candidate([1, 3, -2, 1]),false);
assert.deepEqual(candidate([1, 2, 3, 7]),false);
assert.deepEqual(candidate([2, 4, -5, 3, 5, 7]),true);
assert.deepEqual(candidate([1]),false);
assert.deepEqual(candidate([-3, 9, -1, 3, 2, 30]),true);
assert.deepEqual(candidate([-3, 9, -1, 3, 2, 31]),true);
assert.deepEqual(candidate([-3, 9, -1, 4, 2, 30]),false);
assert.deepEqual(candidate([-3, 9, -1, 4, 2, 31]),false);
}
test(); |
humaneval-HumanEval_69_search.json-L25 | java | import java.util.*;
import java.lang.reflect.*;
import org.javatuples.*;
import java.security.*;
import java.math.*;
import java.io.*;
import java.util.stream.*;
class Problem {
// You are given a non-empty array list of positive integers. Return the greatest integer that is greater than
// zero, and has a frequency greater than or equal to the value of the integer itself.
// The frequency of an integer is the number of times it appears in the array list.
// If no such a value exist, return -1.
// Examples:
// >>> search((new ArrayList<Long>(Arrays.asList((long)4l, (long)1l, (long)2l, (long)2l, (long)3l, (long)1l))))
// (2l)
// >>> search((new ArrayList<Long>(Arrays.asList((long)1l, (long)2l, (long)2l, (long)3l, (long)3l, (long)3l, (long)4l, (long)4l, (long)4l))))
// (3l)
// >>> search((new ArrayList<Long>(Arrays.asList((long)5l, (long)5l, (long)4l, (long)4l, (long)4l))))
// (-1l)
public static long search(ArrayList<Long> lst) {
HashMap<Long, Long> map = new HashMap<Long, Long>();
Long max = (long)-1;
for (int i = 0; i < lst.size(); i++) {
long val = lst.get(i); | map.put(val, map.get(val) + 1);
} else {
map.put(val, (long)1);
}
if (map.get(val) >= val && val > max) {
max = val;
}
}
return max;
}
} | if (map.containsKey(val)) { | }
public static void main(String[] args) {
assert(search((new ArrayList<Long>(Arrays.asList((long)5l, (long)5l, (long)5l, (long)5l, (long)1l)))) == (1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)4l, (long)1l, (long)4l, (long)1l, (long)4l, (long)4l)))) == (4l));
assert(search((new ArrayList<Long>(Arrays.asList((long)3l, (long)3l)))) == (-1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)8l, (long)8l, (long)8l, (long)8l, (long)8l, (long)8l, (long)8l, (long)8l)))) == (8l));
assert(search((new ArrayList<Long>(Arrays.asList((long)2l, (long)3l, (long)3l, (long)2l, (long)2l)))) == (2l));
assert(search((new ArrayList<Long>(Arrays.asList((long)2l, (long)7l, (long)8l, (long)8l, (long)4l, (long)8l, (long)7l, (long)3l, (long)9l, (long)6l, (long)5l, (long)10l, (long)4l, (long)3l, (long)6l, (long)7l, (long)1l, (long)7l, (long)4l, (long)10l, (long)8l, (long)1l)))) == (1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)3l, (long)2l, (long)8l, (long)2l)))) == (2l));
assert(search((new ArrayList<Long>(Arrays.asList((long)6l, (long)7l, (long)1l, (long)8l, (long)8l, (long)10l, (long)5l, (long)8l, (long)5l, (long)3l, (long)10l)))) == (1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)8l, (long)8l, (long)3l, (long)6l, (long)5l, (long)6l, (long)4l)))) == (-1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)6l, (long)9l, (long)6l, (long)7l, (long)1l, (long)4l, (long)7l, (long)1l, (long)8l, (long)8l, (long)9l, (long)8l, (long)10l, (long)10l, (long)8l, (long)4l, (long)10l, (long)4l, (long)10l, (long)1l, (long)2l, (long)9l, (long)5l, (long)7l, (long)9l)))) == (1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)1l, (long)9l, (long)10l, (long)1l, (long)3l)))) == (1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)6l, (long)9l, (long)7l, (long)5l, (long)8l, (long)7l, (long)5l, (long)3l, (long)7l, (long)5l, (long)10l, (long)10l, (long)3l, (long)6l, (long)10l, (long)2l, (long)8l, (long)6l, (long)5l, (long)4l, (long)9l, (long)5l, (long)3l, (long)10l)))) == (5l));
assert(search((new ArrayList<Long>(Arrays.asList((long)1l)))) == (1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)8l, (long)8l, (long)10l, (long)6l, (long)4l, (long)3l, (long)5l, (long)8l, (long)2l, (long)4l, (long)2l, (long)8l, (long)4l, (long)6l, (long)10l, (long)4l, (long)2l, (long)1l, (long)10l, (long)2l, (long)1l, (long)1l, (long)5l)))) == (4l));
assert(search((new ArrayList<Long>(Arrays.asList((long)2l, (long)10l, (long)4l, (long)8l, (long)2l, (long)10l, (long)5l, (long)1l, (long)2l, (long)9l, (long)5l, (long)5l, (long)6l, (long)3l, (long)8l, (long)6l, (long)4l, (long)10l)))) == (2l));
assert(search((new ArrayList<Long>(Arrays.asList((long)1l, (long)6l, (long)10l, (long)1l, (long)6l, (long)9l, (long)10l, (long)8l, (long)6l, (long)8l, (long)7l, (long)3l)))) == (1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)9l, (long)2l, (long)4l, (long)1l, (long)5l, (long)1l, (long)5l, (long)2l, (long)5l, (long)7l, (long)7l, (long)7l, (long)3l, (long)10l, (long)1l, (long)5l, (long)4l, (long)2l, (long)8l, (long)4l, (long)1l, (long)9l, (long)10l, (long)7l, (long)10l, (long)2l, (long)8l, (long)10l, (long)9l, (long)4l)))) == (4l));
assert(search((new ArrayList<Long>(Arrays.asList((long)2l, (long)6l, (long)4l, (long)2l, (long)8l, (long)7l, (long)5l, (long)6l, (long)4l, (long)10l, (long)4l, (long)6l, (long)3l, (long)7l, (long)8l, (long)8l, (long)3l, (long)1l, (long)4l, (long)2l, (long)2l, (long)10l, (long)7l)))) == (4l));
assert(search((new ArrayList<Long>(Arrays.asList((long)9l, (long)8l, (long)6l, (long)10l, (long)2l, (long)6l, (long)10l, (long)2l, (long)7l, (long)8l, (long)10l, (long)3l, (long)8l, (long)2l, (long)6l, (long)2l, (long)3l, (long)1l)))) == (2l));
assert(search((new ArrayList<Long>(Arrays.asList((long)5l, (long)5l, (long)3l, (long)9l, (long)5l, (long)6l, (long)3l, (long)2l, (long)8l, (long)5l, (long)6l, (long)10l, (long)10l, (long)6l, (long)8l, (long)4l, (long)10l, (long)7l, (long)7l, (long)10l, (long)8l)))) == (-1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)10l)))) == (-1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)9l, (long)7l, (long)7l, (long)2l, (long)4l, (long)7l, (long)2l, (long)10l, (long)9l, (long)7l, (long)5l, (long)7l, (long)2l)))) == (2l));
assert(search((new ArrayList<Long>(Arrays.asList((long)5l, (long)4l, (long)10l, (long)2l, (long)1l, (long)1l, (long)10l, (long)3l, (long)6l, (long)1l, (long)8l)))) == (1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)7l, (long)9l, (long)9l, (long)9l, (long)3l, (long)4l, (long)1l, (long)5l, (long)9l, (long)1l, (long)2l, (long)1l, (long)1l, (long)10l, (long)7l, (long)5l, (long)6l, (long)7l, (long)6l, (long)7l, (long)7l, (long)6l)))) == (1l));
assert(search((new ArrayList<Long>(Arrays.asList((long)3l, (long)10l, (long)10l, (long)9l, (long)2l)))) == (-1l));
}
}
|
humaneval-HumanEval_108_count_nums.json-L35 | java | import java.util.*;
import java.lang.reflect.*;
import org.javatuples.*;
import java.security.*;
import java.math.*;
import java.io.*;
import java.util.stream.*;
class Problem {
// Write a function count_nums which takes an array array list of integers and returns
// the number of elements which has a sum of digits > 0.
// If a number is negative, then its first signed digit will be negative:
// e.g. -123 has signed digits -1, 2, and 3.
// >>> countNums((new ArrayList<Long>(Arrays.asList())))
// (0l)
// >>> countNums((new ArrayList<Long>(Arrays.asList((long)-1l, (long)11l, (long)-11l))))
// (1l)
// >>> countNums((new ArrayList<Long>(Arrays.asList((long)1l, (long)1l, (long)2l))))
// (3l)
public static long countNums(ArrayList<Long> arr) {
long result = 0l;
for (long i : arr) {
String str = String.valueOf(i);
int sum = 0;
if (str.startsWith("-")) {
sum = sum - (int) Character.getNumericValue(str.charAt(1));
for (int j = 2; j < str.length(); j++) {
sum = sum + (int) Character.getNumericValue(str.charAt(j));
}
} else {
for (int j = 0; j < str.length(); j++) {
sum = sum + (int) Character.getNumericValue(str.charAt(j));
}
}
if (sum > 0) { | }
}
return result;
}
} | result++; | }
public static void main(String[] args) {
assert(countNums((new ArrayList<Long>(Arrays.asList()))) == (0l));
assert(countNums((new ArrayList<Long>(Arrays.asList((long)-1l, (long)-2l, (long)0l)))) == (0l));
assert(countNums((new ArrayList<Long>(Arrays.asList((long)1l, (long)1l, (long)2l, (long)-2l, (long)3l, (long)4l, (long)5l)))) == (6l));
assert(countNums((new ArrayList<Long>(Arrays.asList((long)1l, (long)6l, (long)9l, (long)-6l, (long)0l, (long)1l, (long)5l)))) == (5l));
assert(countNums((new ArrayList<Long>(Arrays.asList((long)1l, (long)100l, (long)98l, (long)-7l, (long)1l, (long)-1l)))) == (4l));
assert(countNums((new ArrayList<Long>(Arrays.asList((long)12l, (long)23l, (long)34l, (long)-45l, (long)-56l, (long)0l)))) == (5l));
assert(countNums((new ArrayList<Long>(Arrays.asList((long)0l, (long)1l)))) == (1l));
assert(countNums((new ArrayList<Long>(Arrays.asList((long)1l)))) == (1l));
}
}
|
humaneval-HumanEval_12_longest.json-L20 | py | from typing import List, Optional
def longest(strings: List[str]) -> Optional[str]:
""" Out of list of strings, return the longest one. Return the first one in case of multiple
strings of the same length. Return None in case the input list is empty.
>>> longest([])
None
>>> longest(['a', 'b', 'c'])
'a'
>>> longest(['a', 'bb', 'ccc'])
'ccc'
"""
if not strings:
return None
else:
long = strings[0]
for s in strings:
if len(s) > len(long):
long = s | return long | def check(candidate):
assert candidate([]) == None
assert candidate(['x', 'y', 'z']) == 'x'
assert candidate(['x', 'yyy', 'zzzz', 'www', 'kkkk', 'abc']) == 'zzzz'
def test_check():
check(longest)
test_check()
|
|
humaneval-HumanEval_156_int_to_mini_roman.json-L35 | java | import java.util.*;
import java.lang.reflect.*;
import org.javatuples.*;
import java.security.*;
import java.math.*;
import java.io.*;
import java.util.stream.*;
class Problem {
// Given a positive integer, obtain its roman numeral equivalent as a string,
// and return it in lowercase.
// Restrictions: 1 <= num <= 1000
// Examples:
// >>> intToMiniRoman((19l))
// ("xix")
// >>> intToMiniRoman((152l))
// ("clii")
// >>> intToMiniRoman((426l))
// ("cdxxvi")
public static String intToMiniRoman(long number) {
int num = (int) number;
String res = "";
if (num == 0)
return "";
while (num >= 1000) {
res += "m";
num -= 1000;
}
if (num >= 900) {
res += "cm";
num -= 900;
}
if (num >= 500) {
res += "d";
num -= 500; | if (num >= 400) {
res += "cd";
num -= 400;
}
while (num >= 100) {
res += "c";
num -= 100;
}
if (num >= 90) {
res += "xc";
num -= 90;
}
if (num >= 50) {
res += "l";
num -= 50;
}
if (num >= 40) {
res += "xl";
num -= 40;
}
while (num >= 10) {
res += "x";
num -= 10;
}
if (num >= 9) {
res += "ix";
num -= 9;
}
if (num >= 5) {
res += "v";
num -= 5;
}
if (num >= 4) {
res += "iv";
num -= 4;
}
while (num >= 1) {
res += "i";
num -= 1;
}
return res;
}
} | } | }
public static void main(String[] args) {
assert(intToMiniRoman((19l)).equals(("xix")));
assert(intToMiniRoman((152l)).equals(("clii")));
assert(intToMiniRoman((251l)).equals(("ccli")));
assert(intToMiniRoman((426l)).equals(("cdxxvi")));
assert(intToMiniRoman((500l)).equals(("d")));
assert(intToMiniRoman((1l)).equals(("i")));
assert(intToMiniRoman((4l)).equals(("iv")));
assert(intToMiniRoman((43l)).equals(("xliii")));
assert(intToMiniRoman((90l)).equals(("xc")));
assert(intToMiniRoman((94l)).equals(("xciv")));
assert(intToMiniRoman((532l)).equals(("dxxxii")));
assert(intToMiniRoman((900l)).equals(("cm")));
assert(intToMiniRoman((994l)).equals(("cmxciv")));
assert(intToMiniRoman((1000l)).equals(("m")));
}
}
|
humaneval-HumanEval_47_median.json-L11 | py | from typing import List
def median(l: List[int]) -> float:
"""Return median of elements in the list l.
>>> median([3, 1, 2, 4, 5])
3
>>> median([-10, 4, 6, 1000, 10, 20])
15.0
"""
sorted_l = sorted(l) | return (sorted_l[len(l) // 2] + sorted_l[len(l) // 2 - 1]) / 2 if len(l) % 2 == 0 else sorted_l[len(l) // 2] | def check(candidate):
assert candidate([3, 1, 2, 4, 5]) == 3
assert candidate([-10, 4, 6, 1000, 10, 20]) == 8.0
assert candidate([5]) == 5
assert candidate([6, 5]) == 5.5
assert candidate([8, 1, 3, 9, 9, 2, 7]) == 7
def test_check():
check(median)
test_check()
|
|
humaneval-HumanEval_143_words_in_sentence.json-L33 | py | def words_in_sentence(sentence: str) -> str:
"""
You are given a string representing a sentence,
the sentence contains some words separated by a space,
and you have to return a string that contains the words from the original sentence,
whose lengths are prime numbers,
the order of the words in the new string should be the same as the original one.
Example 1:
>>> words_in_sentence('This is a test')
'is'
Example 2:
>>> words_in_sentence('lets go for swimming')
'go for'
Constraints:
* 1 <= len(sentence) <= 100
* sentence contains only letters
"""
def is_prime(n: int) -> bool:
if n <= 1:
return False
for i in range(2, n):
if n % i == 0:
return False
return True
words = sentence.split()
prime_words = []
for word in words:
if is_prime(len(word)): | return ' '.join(prime_words) | prime_words.append(word) | def check(candidate):
assert candidate('This is a test') == 'is'
assert candidate('lets go for swimming') == 'go for'
assert candidate('there is no place available here') == 'there is no place'
assert candidate('Hi I am Hussein') == 'Hi am Hussein'
assert candidate('go for it') == 'go for it'
assert candidate('here') == ''
assert candidate('here is') == 'is'
def test_check():
check(words_in_sentence)
test_check()
|
humaneval-HumanEval_137_compare_one.json-L75 | py | from typing import Union
def compare_one(a: Union[int, float, str], b: Union[int, float, str]) -> Union[int, float, str, None]:
"""
Create a function that takes integers, floats, or strings representing
real numbers, and returns the larger variable in its given variable type.
Return None if the values are equal.
Note: If a real number is represented as a string, the floating point might be . or ,
>>> compare_one(1, 2.5)
2.5
>>> compare_one(1, '2,3')
'2,3'
>>> compare_one('5,1', '6')
'6'
>>> compare_one('1', 1)
None
"""
if isinstance(a, int) and isinstance(b, int):
if a > b:
return a
elif a < b:
return b
else:
return None
elif isinstance(a, float) and isinstance(b, float):
if a > b:
return a
elif a < b:
return b
else:
return None
elif isinstance(a, str) and isinstance(b, str):
a_tmp = a.replace(',', '.')
b_tmp = b.replace(',', '.')
if float(a_tmp) > float(b_tmp):
return a
elif float(a_tmp) < float(b_tmp):
return b
else:
return None
elif isinstance(a, int) and isinstance(b, float):
if a > b:
return a
elif a < b:
return b
else:
return None
elif isinstance(a, float) and isinstance(b, int):
if a > b:
return a
elif a < b:
return b
else:
return None
elif isinstance(a, str) and isinstance(b, int):
a_tmp = a.replace(',', '.')
if float(a_tmp) > b:
return a
elif float(a_tmp) < b:
return b
else:
return None
elif isinstance(a, int) and isinstance(b, str):
b_tmp = b.replace(',', '.')
if a > float(b_tmp):
return a
elif a < float(b_tmp):
return b
else:
return None
elif isinstance(a, str) and isinstance(b, float):
a_tmp = a.replace(',', '.')
if float(a_tmp) > b: | elif float(a_tmp) < b:
return b | return a | def check(candidate):
assert candidate(1, 2) == 2
assert candidate(1, 2.5) == 2.5
assert candidate(2, 3) == 3
assert candidate(5, 6) == 6
assert candidate(1, '2,3') == '2,3'
assert candidate('5,1', '6') == '6'
assert candidate('1', '2') == '2'
assert candidate('1', 1) == None
def test_check():
check(compare_one)
test_check()
|
humaneval-HumanEval_98_count_upper.json-L13 | js | //Given a string s, count the number of uppercase vowels in even indices.
// For example:
// >>> count_upper("aBCdEf")
// 1
// >>> count_upper("abcdefg")
// 0
// >>> count_upper("dBBE")
// 0
function count_upper(s){
var index;
var result = 0;
var vowel = ['A', 'E', 'I', 'O', 'U']; | if (vowel.indexOf(s[index]) > -1){
result += 1;
}
}
return result;
} | for (index = 0; index < s.length; index += 2){ | const assert = require('node:assert');
function test() {
let candidate = count_upper;
assert.deepEqual(candidate("aBCdEf"),1);
assert.deepEqual(candidate("abcdefg"),0);
assert.deepEqual(candidate("dBBE"),0);
assert.deepEqual(candidate("B"),0);
assert.deepEqual(candidate("U"),1);
assert.deepEqual(candidate(""),0);
assert.deepEqual(candidate("EEEE"),2);
}
test(); |
humaneval-HumanEval_128_prod_signs.json-L20 | py | from typing import List, Optional
def prod_signs(arr: List[int]) -> Optional[int]:
"""
You are given an array arr of integers and you need to return
sum of magnitudes of integers multiplied by product of all signs
of each number in the array, represented by 1, -1 or 0.
Note: return None for empty arr.
Example:
>>> prod_signs([1, 2, 2, -4])
9
>>> prod_signs([0, 1])
0
>>> prod_signs([])
None
"""
def product(lst: List[int]) -> int:
out = 1 | out *= item
return out
if len(arr) == 0:
return None
else:
sign_arr = []
for num in arr:
if num > 0:
sign_arr.append(1)
elif num < 0:
sign_arr.append(-1)
else:
sign_arr.append(0)
return sum(map(abs, arr)) * product(sign_arr) | for item in lst: | def check(candidate):
assert candidate([1, 2, 2, -4]) == -9
assert candidate([0, 1]) == 0
assert candidate([1, 1, 1, 2, 3, -1, 1]) == -10
assert candidate([]) == None
assert candidate([2, 4, 1, 2, -1, -1, 9]) == 20
assert candidate([-1, 1, -1, 1]) == 4
assert candidate([-1, 1, 1, 1]) == -4
assert candidate([-1, 1, 1, 0]) == 0
def test_check():
check(prod_signs)
test_check()
|
humaneval-HumanEval_88_sort_array.json-L22 | js | //Given an array of non-negative integers, return a cojs of the given array after sorting,
// you will sort the given array in ascending order if the sum( first index value, last index value) is odd,
// or sort it in descending order if the sum( first index value, last index value) is even.
// Note:
// * don't change the given array.
// Examples:
// >>> sort_array([])
// []
// >>> sort_array([5])
// [5]
// >>> sort_array([2, 4, 3, 0, 1, 5])
// [0, 1, 2, 3, 4, 5]
// >>> sort_array([2, 4, 3, 0, 1, 5, 6])
// [6, 5, 4, 3, 2, 1, 0]
function sort_array(array){
let sum = array[0] + array[array.length - 1];
let newArr = [];
if(sum % 2 === 0){
newArr = array.sort(function(a, b){return b - a;});
}else{
newArr = array.sort(function(a, b){return a - b;}); | return newArr;
} | } | const assert = require('node:assert');
function test() {
let candidate = sort_array;
assert.deepEqual(candidate([]),[]);
assert.deepEqual(candidate([5]),[5]);
assert.deepEqual(candidate([2, 4, 3, 0, 1, 5]),[0, 1, 2, 3, 4, 5]);
assert.deepEqual(candidate([2, 4, 3, 0, 1, 5, 6]),[6, 5, 4, 3, 2, 1, 0]);
assert.deepEqual(candidate([2, 1]),[1, 2]);
assert.deepEqual(candidate([15, 42, 87, 32, 11, 0]),[0, 11, 15, 32, 42, 87]);
assert.deepEqual(candidate([21, 14, 23, 11]),[23, 21, 14, 11]);
}
test(); |
humaneval-HumanEval_9_rolling_max.json-L8 | js | //From a given array of integers, generate an array of rolling maximum element found until given moment
// in the sequence.
// >>> rolling_max([1, 2, 3, 2, 3, 4, 2])
// [1, 2, 3, 3, 3, 4, 4]
function rolling_max(numbers){
let max = [];
let tempMax = 0; | if(tempMax < numbers[i]){
tempMax = numbers[i];
}
max.push(tempMax);
}
return max;
}
| for(let i = 0; i < numbers.length; i++){ | const assert = require('node:assert');
function test() {
let candidate = rolling_max;
assert.deepEqual(candidate([]),[]);
assert.deepEqual(candidate([1, 2, 3, 4]),[1, 2, 3, 4]);
assert.deepEqual(candidate([4, 3, 2, 1]),[4, 4, 4, 4]);
assert.deepEqual(candidate([3, 2, 3, 100, 3]),[3, 3, 3, 100, 100]);
}
test(); |
humaneval-HumanEval_20_find_closest_elements.json-L13 | py | from typing import List, Tuple
def find_closest_elements(numbers: List[float]) -> Tuple[float, float]:
""" From a supplied list of numbers (of length at least two) select and return two that are the closest to each
other and return them in order (smaller number, larger number).
>>> find_closest_elements([1.0, 2.0, 3.0, 4.0, 5.0, 2.2])
(2.0, 2.2)
>>> find_closest_elements([1.0, 2.0, 3.0, 4.0, 5.0, 2.0])
(2.0, 2.0)
"""
temp, temp2 = abs(numbers[0] - numbers[1]), abs(numbers[0] - numbers[1])
temp_index, temp2_index = 0, 1 | temp, temp2 = temp2, temp
temp_index, temp2_index = temp2_index, temp_index
for i in range(len(numbers)):
for j in range(i+1, len(numbers)):
if abs(numbers[i] - numbers[j]) < temp:
temp = abs(numbers[i] - numbers[j])
temp_index = i
temp2_index = j
elif abs(numbers[i] - numbers[j]) == temp:
if numbers[i] > numbers[j]:
temp = abs(numbers[i] - numbers[j])
temp_index = i
temp2_index = j
if numbers[temp_index] > numbers[temp2_index]:
temp, temp2 = numbers[temp2_index], numbers[temp_index]
else:
temp, temp2 = numbers[temp_index], numbers[temp2_index]
return temp, temp2
print(find_closest_elements([1.0, 2.0, 3.0, 4.0, 5.0, 2.2])) | if numbers[0] > numbers[1]: | def check(candidate):
assert candidate([1.0, 2.0, 3.9, 4.0, 5.0, 2.2]) == (3.9, 4.0)
assert candidate([1.0, 2.0, 5.9, 4.0, 5.0]) == (5.0, 5.9)
assert candidate([1.0, 2.0, 3.0, 4.0, 5.0, 2.2]) == (2.0, 2.2)
assert candidate([1.0, 2.0, 3.0, 4.0, 5.0, 2.0]) == (2.0, 2.0)
assert candidate([1.1, 2.2, 3.1, 4.1, 5.1]) == (2.2, 3.1)
def test_check():
check(find_closest_elements)
test_check()
|
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