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Generators with testlib.h

Revision en2, by adamant, 2019-08-26 17:48:50

What are generators?

Generators are helper programs that output test. Most programming task usually has a large input (for example, an array of up to 2 * 105 elements, a tree of up to 105 vertices), so it's not possible to add all the tests manually. In these cases, generators come to the rescue.

If you are writing a generator in C++, it is recommended to use the testlib.h library.

Types of generators

There are two types of generators:

  1. Single-test generator: output exactly one test in a single run. Usually, to generate several tests, one must run the generator several times with different command line parameters. Such generators output the test to the standard output stream (to the screen).
  2. Multiple-test generator: output many tests in a single run. Such generators output tests to files (one file for each test).

An example single-test generator with testlib.h

The following generator output a pair of integers with each element from 1 to n — where n is a command line parameter passed to the generator.

#include "testlib.h"
#include <iostream>

using namespace std;

int main(int argc, char* argv[])
    registerGen(argc, argv, 1);
    int n = atoi(argv[1]);
    cout <<, n) << " ";
    cout <<, n) << endl;

Why testlib.h?

On the surface, it seems that testlib.h is not necessary to write a generator. This is not true. Almost all generators need to generate random values, and it is tempted to use rand(). However, this is a bad practice. A basic principle of writing generators is that: a generator must output the same test when compiled by any compiler on any platform if it is run in the same way (using the same command line parameters). When using rand() or C++11 classes like mt19937/uniform_int_distribution, your program will output different tests when compiled with different compilers.

The random value generator in testlib.h ensures that the same value is generated regardless of the (test) generator and platform. Besides, testlib.h has various conveniences for generating tests, for example,"[a-z]{1,10}") will return a random word of length 1 to 10 from letters a to z.

Translator's note: There are more issues with using rand() aside from the above one. Refer to this blog for a detailed explanation about these issues.

Available method

To initialize a testlib generator, the first line of your generator must be of the form registerGen(argc, argv, 1); (where 1 is the version of the random number generator used). After that, it will be possible to use the rnd object, which will be initialized with a hash from all the command line arguments. Thus, the output of g 100 and g.exe "100" will be the same, while g 100 0 will be different.

rnd is of type random_t. That is, you can create your own generator, but this is not necessary in most of the cases.

rnd has many useful member functions. Here are some examples:

Call Return value An equiprobable random integer from 0 to 3 (inclusive), 100) An equiprobable random integer from 4 to 100 (inclusive) An equiprobable random real number in the half-interval [0;10)"one|two|three") An equiprobable random word out of 'one', 'two' and 'three'"[1-9][0-9]{99}") An equiprobable random 100-digit number as a string
rnd.wnext(4,t) wnext is a method of obtaining an uneven distribution (with a biased expectation), the parameter t denotes the number of calls to the maximum operation for similar next calls. For example rnd.wnext(3, 1) is equivalent to max(,, and rnd.wnext(4, 2) is equivalent to max(, max(, If t < 0, then -t will find the minimum. If t = 0, then wnext is equivalent to next.
rnd.any(container) A random element of the container container (with random access via an iterator), for example, it works for std::vector and std::string

Also, please do not use std::random_shuffle, use the shuffle from testlib.h instead. It also takes two iterators, but works using rnd.

Translator's note: If my understanding is correct, rnd.wnext is defined as follows:

Example: generating an undirected tree

Below is the code of an undirected tree generator that takes two parameters — the number of vertices and the 'elongation' of the tree. For example:

  • For n = 10, t = 1000, a path graph (degree of all vertices are at most 2) is likely to be generated
  • For n = 10, t =  - 1000, a star graph (there's only one non-leaf vertex in the tree) is likely to be generated.
registerGen(argc, argv, 1);

int n = atoi(argv[1]);
int t = atoi(argv[2]);

vector<int> p(n);

/* setup parents for vertices 1..n-1 */
for(int i = 0; i < n; ++i)
    if (i > 0)
        p[i] = rnd.wnext(i, t);

printf("%d\n", n);

/* shuffle vertices 1..n-1 */
vector<int> perm(n);
for(int i = 0; i < n; ++i)
    perm[i] = i;
shuffle(perm.begin() + 1, perm.end());

/* put edges considering shuffled vertices */
vector<pair<int,int> > edges;
for (int i = 1; i < n; i++)
    if (
        edges.push_back(make_pair(perm[i], perm[p[i]]));
        edges.push_back(make_pair(perm[p[i]], perm[i]));

/* shuffle edges */
shuffle(edges.begin(), edges.end());

for (int i = 0; i + 1 < n; i++)
    printf("%d %d\n", edges[i].first + 1, edges[i].second + 1);

How to write a multiple-test generator?

A multiple-test generator in one execution can output more than one test. Tests by such a generator are output to files. In the generator on testlib.h it is enough to write startTest(test_index) before the test output. This will re-open (freopen) the standard output stream to a file named test_index.

Please note that if you are working with the Polygon system, in this case, you need to write something like multigen a b c > {4-10} in the script (if it is assumed that starting the multiple-test generator will return tests 4, 5, 6, 7, 8, 9, and 10).

Other notes about generators

  • Strictly follow the format of the test — spaces and line breaks should be placed correctly. The test should end with a line feed. For example, if the test consists of a single number, then output it as cout << (1, n) << endl; — with a line feed at the end.
  • If the test size is large, it is prefered to use printf instead of cout — this will improve the performance of the generator.
  • It is better to use cout to output long long, but if you want printf, then use the I64 constant (for example, printf(I64, x);).
  • Please be awared about various cases of C++ undefined behavior. For example, in the first example generator above, if the two cout commands are combined into one, the order of the function calls is not defined.

Translator's note: about the third point, using lld constant with printf to output long long used to be problematic in the past, but is no longer an issue now.

Further examples

Further examples of generators can be found in the release notes or directly at the GitHub repository.

Tags testlib, polygon, generator, generators


  Rev. Lang. By When Δ Comment
en4 English MikeMirzayanov 2022-05-19 13:20:41 72
en3 English dalex 2019-08-26 18:43:06 1 everybody can edit this post :) [small english fix]
en2 English adamant 2019-08-26 17:48:50 16422 translation
en1 English MikeMirzayanov 2015-06-10 03:08:08 6755 Initial revision for English translation
ru23 Russian elena 2015-06-08 11:57:40 61 мелкие правки (опечатки вида
ru22 Russian PavelKunyavskiy 2015-06-08 11:32:18 241 Undefined behavior fix
ru21 Russian adamant 2015-06-08 02:37:18 0 Возвращено к ru19
ru20 Russian adamant 2015-06-08 02:15:53 0 Так и задумано, что я могу без каких-либо препятствий редактировать любой текст в секции?
ru19 Russian MikeMirzayanov 2015-06-08 01:29:30 0 (опубликовано)
ru18 Russian MikeMirzayanov 2015-06-03 13:34:59 128
ru17 Russian MikeMirzayanov 2015-06-03 13:33:27 227
ru16 Russian MikeMirzayanov 2015-06-03 11:17:55 544
ru15 Russian MikeMirzayanov 2015-06-03 02:53:46 148
ru14 Russian MikeMirzayanov 2015-06-03 02:51:20 257
ru13 Russian MikeMirzayanov 2015-06-03 02:48:32 2 Мелкая правка: ') << endl;' &mdash; с' -> ') << endl;` &mdash; с'
ru12 Russian MikeMirzayanov 2015-06-03 02:48:17 3
ru11 Russian MikeMirzayanov 2015-06-03 02:48:03 324
ru10 Russian MikeMirzayanov 2015-06-03 02:46:04 9 Мелкая правка: 'а\n\nНиже код генер' -> 'а\n\nНиже основной код генер'
ru9 Russian MikeMirzayanov 2015-06-03 02:45:38 84
ru8 Russian MikeMirzayanov 2015-06-03 02:45:11 1046
ru7 Russian MikeMirzayanov 2015-06-03 02:40:57 156
ru6 Russian MikeMirzayanov 2015-06-03 02:38:56 157
ru5 Russian MikeMirzayanov 2015-06-03 02:35:55 438
ru4 Russian MikeMirzayanov 2015-06-03 02:25:26 1 Мелкая правка: '.next("one|two|three' -> '.next("one\|two|three'
ru3 Russian MikeMirzayanov 2015-06-03 02:25:11 1 Мелкая правка: '.next("one|two|three' -> '.next("one\|two|three'
ru2 Russian MikeMirzayanov 2015-06-03 02:24:56 631
ru1 Russian MikeMirzayanov 2015-06-03 02:16:23 2499 Первая редакция