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catch2/tests/SelfTest/UsageTests/Generators.tests.cpp
Martin Hořeňovský e1e6872c4c
Standardize header names and file locations 
This is both a really big and a really small commit. It is small in
that it only contains renaming, moving and modification of include
directives caused by this.

It is really big in the obvious way of touching something like 200
files.

The new rules for naming files is simple: headers use the `.hpp`
extension. The rules for physical file layout is still kinda in
progress, but the basics are also simple:
 * Significant parts of functionality get their own subfolder
   * Benchmarking is in `catch2/benchmark`
   * Matchers are in `catch2/matchers`
   * Generators are in `catch2/generators`
   * Reporters are in `catch2/reporters`
   * Baseline testing facilities are in `catch2/`
 * Various top level folders also contain `internal` subfolder,
   with files that users probably do not want to include directly,
   at least not until they have to write something like their own
   reporter.
    * The exact files in these subfolders is likely to change later
      on

Note that while some includes were cleaned up in this commit, it
is only the low hanging fruit and further cleanup using automatic
tooling will happen later.

Also note that various include guards, copyright notices and file
headers will also be standardized later, rather than in this commit.
2020-04-24 18:58:44 +02:00

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#include <catch2/catch_test_macros.hpp>
#include <catch2/generators/catch_generator_exception.hpp>
#include <catch2/generators/catch_generators_adapters.hpp>
#include <catch2/generators/catch_generators_random.hpp>
#include <catch2/generators/catch_generators_range.hpp>
#include <cstring>
// Generators and sections can be nested freely
TEST_CASE("Generators -- simple", "[generators]") {
auto i = GENERATE(1, 2, 3);
SECTION("one") {
auto j = GENERATE(values({ -3, -2, -1 }));
REQUIRE(j < i);
}
SECTION("two") {
// You can also explicitly set type for generators via Catch::Generators::as
auto str = GENERATE(as<std::string>{}, "a", "bb", "ccc");
REQUIRE(4u * i > str.size());
}
}
// You can create a cartesian-product of generators by creating multiple ones
TEST_CASE("3x3x3 ints", "[generators]") {
auto x = GENERATE(1, 2, 3);
auto y = GENERATE(4, 5, 6);
auto z = GENERATE(7, 8, 9);
// These assertions will be run 27 times (3x3x3)
CHECK(x < y);
CHECK(y < z);
REQUIRE(x < z);
}
// You can also create data tuples
TEST_CASE("tables", "[generators]") {
// Note that this will not compile with libstdc++ older than libstdc++6
// See https://stackoverflow.com/questions/12436586/tuple-vector-and-initializer-list
// for possible workarounds
// auto data = GENERATE(table<char const*, int>({
// {"first", 5},
// {"second", 6},
// {"third", 5},
// {"etc...", 6}
// }));
// Workaround for the libstdc++ bug mentioned above
using tuple_type = std::tuple<char const*, int>;
auto data = GENERATE(table<char const*, int>({
tuple_type{"first", 5},
tuple_type{"second", 6},
tuple_type{"third", 5},
tuple_type{"etc...", 6}
}));
REQUIRE(strlen(std::get<0>(data)) == static_cast<size_t>(std::get<1>(data)));
}
#ifdef __cpp_structured_bindings
// Structured bindings make the table utility much nicer to use
TEST_CASE( "strlen2", "[approvals][generators]" ) {
auto [test_input, expected] = GENERATE( table<std::string, size_t>({
{"one", 3},
{"two", 3},
{"three", 5},
{"four", 4}
}));
REQUIRE( test_input.size() == expected );
}
#endif
// An alternate way of doing data tables without structured bindings
struct Data { std::string str; size_t len; };
TEST_CASE( "strlen3", "[generators]" ) {
auto data = GENERATE( values<Data>({
{"one", 3},
{"two", 3},
{"three", 5},
{"four", 4}
}));
REQUIRE( data.str.size() == data.len );
}
#ifdef __cpp_structured_bindings
// Based on example from https://docs.cucumber.io/gherkin/reference/#scenario-outline
// (thanks to https://github.com/catchorg/Catch2/issues/850#issuecomment-399504851)
// Note that GIVEN, WHEN, and THEN now forward onto DYNAMIC_SECTION instead of SECTION.
// DYNAMIC_SECTION takes its name as a stringstream-style expression, so can be formatted using
// variables in scope - such as the generated variables here. This reads quite nicely in the
// test name output (the full scenario description).
static auto eatCucumbers( int start, int eat ) -> int { return start-eat; }
SCENARIO("Eating cucumbers", "[generators][approvals]") {
auto [start, eat, left] = GENERATE( table<int,int,int> ({
{ 12, 5, 7 },
{ 20, 5, 15 }
}));
GIVEN( "there are " << start << " cucumbers" )
WHEN( "I eat " << eat << " cucumbers" )
THEN( "I should have " << left << " cucumbers" ) {
REQUIRE( eatCucumbers( start, eat ) == left );
}
}
#endif
// There are also some generic generator manipulators
TEST_CASE("Generators -- adapters", "[generators][generic]") {
// TODO: This won't work yet, introduce GENERATE_VAR?
//auto numbers = Catch::Generators::values({ 1, 2, 3, 4, 5, 6 });
SECTION("Filtering by predicate") {
SECTION("Basic usage") {
// This filters out all odd (false) numbers, giving [2, 4, 6]
auto i = GENERATE(filter([] (int val) { return val % 2 == 0; }, values({ 1, 2, 3, 4, 5, 6 })));
REQUIRE(i % 2 == 0);
}
SECTION("Throws if there are no matching values") {
using namespace Catch::Generators;
REQUIRE_THROWS_AS(filter([] (int) {return false; }, value(1)), Catch::GeneratorException);
}
}
SECTION("Shortening a range") {
// This takes the first 3 elements from the values, giving back [1, 2, 3]
auto i = GENERATE(take(3, values({ 1, 2, 3, 4, 5, 6 })));
REQUIRE(i < 4);
}
SECTION("Transforming elements") {
SECTION("Same type") {
// This doubles values [1, 2, 3] into [2, 4, 6]
auto i = GENERATE(map([] (int val) { return val * 2; }, values({ 1, 2, 3 })));
REQUIRE(i % 2 == 0);
}
SECTION("Different type") {
// This takes a generator that returns ints and maps them into strings
auto i = GENERATE(map<std::string>([] (int val) { return std::to_string(val); }, values({ 1, 2, 3 })));
REQUIRE(i.size() == 1);
}
SECTION("Different deduced type") {
// This takes a generator that returns ints and maps them into strings
auto i = GENERATE(map([] (int val) { return std::to_string(val); }, values({ 1, 2, 3 })));
REQUIRE(i.size() == 1);
}
}
SECTION("Repeating a generator") {
// This will return values [1, 2, 3, 1, 2, 3]
auto j = GENERATE(repeat(2, values({ 1, 2, 3 })));
REQUIRE(j > 0);
}
SECTION("Chunking a generator into sized pieces") {
SECTION("Number of elements in source is divisible by chunk size") {
auto chunk2 = GENERATE(chunk(2, values({ 1, 1, 2, 2, 3, 3 })));
REQUIRE(chunk2.size() == 2);
REQUIRE(chunk2.front() == chunk2.back());
}
SECTION("Number of elements in source is not divisible by chunk size") {
auto chunk2 = GENERATE(chunk(2, values({ 1, 1, 2, 2, 3 })));
REQUIRE(chunk2.size() == 2);
REQUIRE(chunk2.front() == chunk2.back());
REQUIRE(chunk2.front() < 3);
}
SECTION("Chunk size of zero") {
auto chunk2 = GENERATE(take(3, chunk(0, value(1))));
REQUIRE(chunk2.size() == 0);
}
SECTION("Throws on too small generators") {
using namespace Catch::Generators;
REQUIRE_THROWS_AS(chunk(2, value(1)), Catch::GeneratorException);
}
}
}
// Note that because of the non-reproducibility of distributions,
// anything involving the random generators cannot be part of approvals
TEST_CASE("Random generator", "[generators][approvals]") {
SECTION("Infer int from integral arguments") {
auto val = GENERATE(take(4, random(0, 1)));
STATIC_REQUIRE(std::is_same<decltype(val), int>::value);
REQUIRE(0 <= val);
REQUIRE(val <= 1);
}
SECTION("Infer double from double arguments") {
auto val = GENERATE(take(4, random(0., 1.)));
STATIC_REQUIRE(std::is_same<decltype(val), double>::value);
REQUIRE(0. <= val);
REQUIRE(val < 1);
}
}
TEST_CASE("Nested generators and captured variables", "[generators]") {
// Workaround for old libstdc++
using record = std::tuple<int, int>;
// Set up 3 ranges to generate numbers from
auto extent = GENERATE(table<int, int>({
record{3, 7},
record{-5, -3},
record{90, 100}
}));
auto from = std::get<0>(extent);
auto to = std::get<1>(extent);
auto values = GENERATE_COPY(range(from, to));
REQUIRE(values > -6);
}
namespace {
size_t call_count = 0;
size_t test_count = 0;
std::vector<int> make_data() {
return { 1, 3, 5, 7, 9, 11 };
}
std::vector<int> make_data_counted() {
++call_count;
return make_data();
}
}
#if defined(__clang__)
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wexit-time-destructors"
#endif
TEST_CASE("Copy and then generate a range", "[generators]") {
SECTION("from var and iterators") {
static auto data = make_data();
// It is important to notice that a generator is only initialized
// **once** per run. What this means is that modifying data will not
// modify the underlying generator.
auto elem = GENERATE_REF(from_range(data.begin(), data.end()));
REQUIRE(elem % 2 == 1);
}
SECTION("From a temporary container") {
auto elem = GENERATE(from_range(make_data_counted()));
++test_count;
REQUIRE(elem % 2 == 1);
}
SECTION("Final validation") {
REQUIRE(call_count == 1);
REQUIRE(make_data().size() == test_count);
}
}
#if defined(__clang__)
#pragma clang diagnostic pop
#endif
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