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This commit is contained in:
Matvey Cherevko
2019-05-14 13:23:59 +07:00
parent 2788903911
commit 5875ff0580
16 changed files with 93 additions and 14422 deletions
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46
untests/CMakeLists.txt Normal file
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# 3.11 version is required for `FetchContent`
cmake_minimum_required(VERSION 3.11 FATAL_ERROR)
project(promise.hpp.untests)
set(CATCH_BUILD_TESTING OFF CACHE BOOL "" FORCE)
include(FetchContent)
FetchContent_Declare(
catch2
GIT_REPOSITORY https://github.com/catchorg/catch2)
FetchContent_GetProperties(catch2)
if(NOT catch2_POPULATED)
FetchContent_Populate(catch2)
add_subdirectory(${catch2_SOURCE_DIR} ${catch2_BINARY_DIR})
endif()
option(BUILD_WITH_COVERAGE "Build with coverage" OFF)
if(BUILD_WITH_COVERAGE AND (CMAKE_CXX_COMPILER_ID MATCHES "GNU|Clang"))
set(COVERAGE_FLAGS "--coverage")
set(CMAKE_C_FLAGS_DEBUG "${CMAKE_C_FLAGS_DEBUG} ${COVERAGE_FLAGS}")
set(CMAKE_CXX_FLAGS_DEBUG "${CMAKE_CXX_FLAGS_DEBUG} ${COVERAGE_FLAGS}")
set(CMAKE_LINKER_FLAGS_DEBUG "${CMAKE_LINKER_FLAGS_DEBUG} ${COVERAGE_FLAGS}")
endif()
file(GLOB UNTESTS_SOURCES "*.cpp" "*.hpp")
add_executable(${PROJECT_NAME} ${UNTESTS_SOURCES})
target_link_libraries(${PROJECT_NAME}
Catch2
promise.hpp)
find_package(Threads REQUIRED)
target_link_libraries(${PROJECT_NAME}
Threads::Threads)
target_compile_options(${PROJECT_NAME}
PRIVATE
$<$<CXX_COMPILER_ID:MSVC>:
/W4 /bigobj>
PRIVATE
$<$<OR:$<CXX_COMPILER_ID:GNU>,$<CXX_COMPILER_ID:Clang>,$<CXX_COMPILER_ID:AppleClang>>:
-Wall -Wextra -Wpedantic>)
add_test(${PROJECT_NAME} ${PROJECT_NAME})

9
untests/catch_main.cpp Normal file
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/*******************************************************************************
* This file is part of the "https://github.com/blackmatov/promise.hpp"
* For conditions of distribution and use, see copyright notice in LICENSE.md
* Copyright (C) 2018-2019, by Matvey Cherevko (blackmatov@gmail.com)
******************************************************************************/
#define CATCH_CONFIG_MAIN
#define CATCH_CONFIG_FAST_COMPILE
#include <catch2/catch.hpp>

510
untests/invoke_tests.cpp Normal file
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/*******************************************************************************
* This file is part of the "https://github.com/blackmatov/invoke.hpp"
* For conditions of distribution and use, see copyright notice in LICENSE.md
* Copyright (C) 2018-2019, by Matvey Cherevko (blackmatov@gmail.com)
******************************************************************************/
#define CATCH_CONFIG_FAST_COMPILE
#include <catch2/catch.hpp>
#include <promise.hpp/invoke.hpp>
namespace inv = invoke_hpp;
namespace
{
void simple_static_function() {
}
int simple_static_function_r() {
return 42;
}
int simple_static_function_r_with_arg(int v) {
return v;
}
const int& simple_static_function_r_with_ref_arg(const int& v) {
return v;
}
class obj_t {
public:
int value = 42;
const int value_c = 42;
void member() {
}
int member_r() {
return 42;
}
int member_r_with_arg(int v) {
return v;
}
const int& member_r_with_ref_arg(const int& v) {
return v;
}
};
class obj2_t {
};
}
TEST_CASE("invoke"){
SECTION("invoke_functions"){
inv::invoke(simple_static_function);
REQUIRE(inv::invoke(simple_static_function_r) == 42);
REQUIRE(inv::invoke(simple_static_function_r_with_arg, 42) == 42);
{
int v = 42;
REQUIRE(&inv::invoke(simple_static_function_r_with_ref_arg, v) == &v);
}
}
SECTION("invoke_members"){
obj_t o;
inv::invoke(&obj_t::member, o);
inv::invoke(&obj_t::member, &o);
inv::invoke(&obj_t::member, std::ref(o));
REQUIRE(inv::invoke(&obj_t::member_r, o) == 42);
REQUIRE(inv::invoke(&obj_t::member_r, &o) == 42);
REQUIRE(inv::invoke(&obj_t::member_r, std::ref(o)) == 42);
REQUIRE(inv::invoke(&obj_t::member_r_with_arg, o, 42) == 42);
REQUIRE(inv::invoke(&obj_t::member_r_with_arg, &o, 42) == 42);
REQUIRE(inv::invoke(&obj_t::member_r_with_arg, std::ref(o), 42) == 42);
{
int v = 42;
REQUIRE(&inv::invoke(&obj_t::member_r_with_ref_arg, o, std::ref(v)) == &v);
REQUIRE(&inv::invoke(&obj_t::member_r_with_ref_arg, &o, std::ref(v)) == &v);
REQUIRE(&inv::invoke(&obj_t::member_r_with_ref_arg, std::ref(o), std::ref(v)) == &v);
}
}
SECTION("invoke_member_objects"){
obj_t o;
REQUIRE(inv::invoke(&obj_t::value, o) == 42);
REQUIRE(inv::invoke(&obj_t::value, &o) == 42);
REQUIRE(inv::invoke(&obj_t::value, std::ref(o)) == 42);
REQUIRE(inv::invoke(&obj_t::value_c, o) == 42);
REQUIRE(inv::invoke(&obj_t::value_c, &o) == 42);
REQUIRE(inv::invoke(&obj_t::value_c, std::ref(o)) == 42);
}
}
TEST_CASE("invoke_result"){
SECTION("invoke_result_functions"){
static_assert(
std::is_same<
void,
inv::invoke_result_t<decltype(simple_static_function)>>::value,
"unit test fail");
static_assert(
std::is_same<
int,
inv::invoke_result_t<decltype(simple_static_function_r)>>::value,
"unit test fail");
static_assert(
std::is_same<
int,
inv::invoke_result_t<decltype(simple_static_function_r_with_arg), int>>::value,
"unit test fail");
static_assert(
std::is_same<
const int&,
inv::invoke_result_t<decltype(simple_static_function_r_with_ref_arg), const int&>>::value,
"unit test fail");
}
SECTION("invoke_result_members"){
static_assert(
std::is_same<void,
inv::invoke_result_t<decltype(&obj_t::member), obj_t>>::value,
"unit test fail");
static_assert(
std::is_same<void,
inv::invoke_result_t<decltype(&obj_t::member), obj_t*>>::value,
"unit test fail");
static_assert(
std::is_same<void,
inv::invoke_result_t<decltype(&obj_t::member), std::reference_wrapper<obj_t>>>::value,
"unit test fail");
static_assert(
std::is_same<int,
inv::invoke_result_t<decltype(&obj_t::member_r), obj_t>>::value,
"unit test fail");
static_assert(
std::is_same<int,
inv::invoke_result_t<decltype(&obj_t::member_r), obj_t*>>::value,
"unit test fail");
static_assert(
std::is_same<int,
inv::invoke_result_t<decltype(&obj_t::member_r), std::reference_wrapper<obj_t>>>::value,
"unit test fail");
static_assert(
std::is_same<int,
inv::invoke_result_t<decltype(&obj_t::member_r_with_arg), obj_t, int>>::value,
"unit test fail");
static_assert(
std::is_same<int,
inv::invoke_result_t<decltype(&obj_t::member_r_with_arg), obj_t*, int>>::value,
"unit test fail");
static_assert(
std::is_same<int,
inv::invoke_result_t<decltype(&obj_t::member_r_with_arg), std::reference_wrapper<obj_t>, int>>::value,
"unit test fail");
static_assert(
std::is_same<const int&,
inv::invoke_result_t<decltype(&obj_t::member_r_with_ref_arg), obj_t, const int&>>::value,
"unit test fail");
static_assert(
std::is_same<const int&,
inv::invoke_result_t<decltype(&obj_t::member_r_with_ref_arg), obj_t*, const int&>>::value,
"unit test fail");
static_assert(
std::is_same<const int&,
inv::invoke_result_t<decltype(&obj_t::member_r_with_ref_arg), std::reference_wrapper<obj_t>, const int&>>::value,
"unit test fail");
}
}
TEST_CASE("is_invocable"){
SECTION("is_invocable_functions"){
static_assert(
inv::is_invocable<decltype(simple_static_function)>::value,
"unit test fail");
static_assert(
inv::is_invocable<decltype(simple_static_function_r)>::value,
"unit test fail");
static_assert(
inv::is_invocable<decltype(simple_static_function_r_with_arg), int>::value,
"unit test fail");
}
SECTION("is_not_invocable_functions"){
static_assert(
!inv::is_invocable<decltype(simple_static_function), int>::value,
"unit test fail");
static_assert(
!inv::is_invocable<decltype(simple_static_function_r), obj_t>::value,
"unit test fail");
static_assert(
!inv::is_invocable<decltype(simple_static_function_r_with_arg)>::value,
"unit test fail");
}
SECTION("is_invocable_members"){
static_assert(
inv::is_invocable<decltype(&obj_t::member), obj_t>::value,
"unit test fail");
static_assert(
inv::is_invocable<decltype(&obj_t::member), obj_t*>::value,
"unit test fail");
static_assert(
inv::is_invocable<decltype(&obj_t::member), std::reference_wrapper<obj_t>>::value,
"unit test fail");
static_assert(
inv::is_invocable<decltype(&obj_t::member_r), obj_t>::value,
"unit test fail");
static_assert(
inv::is_invocable<decltype(&obj_t::member_r), obj_t*>::value,
"unit test fail");
static_assert(
inv::is_invocable<decltype(&obj_t::member_r), std::reference_wrapper<obj_t>>::value,
"unit test fail");
static_assert(
inv::is_invocable<decltype(&obj_t::member_r_with_arg), obj_t, int>::value,
"unit test fail");
static_assert(
inv::is_invocable<decltype(&obj_t::member_r_with_arg), obj_t*, int>::value,
"unit test fail");
static_assert(
inv::is_invocable<decltype(&obj_t::member_r_with_arg), std::reference_wrapper<obj_t>, int>::value,
"unit test fail");
}
SECTION("is_not_invocable_members"){
static_assert(
!inv::is_invocable<decltype(&obj_t::member)>::value,
"unit test fail");
static_assert(
!inv::is_invocable<decltype(&obj_t::member), int>::value,
"unit test fail");
static_assert(
!inv::is_invocable<decltype(&obj_t::member), std::reference_wrapper<obj_t>*>::value,
"unit test fail");
static_assert(
!inv::is_invocable<decltype(&obj_t::member_r), obj_t**>::value,
"unit test fail");
static_assert(
!inv::is_invocable<decltype(&obj_t::member_r), obj2_t*>::value,
"unit test fail");
static_assert(
!inv::is_invocable<decltype(&obj_t::member_r), std::reference_wrapper<obj2_t>>::value,
"unit test fail");
static_assert(
!inv::is_invocable<decltype(&obj_t::member_r_with_arg), obj_t, char*>::value,
"unit test fail");
static_assert(
!inv::is_invocable<decltype(&obj_t::member_r_with_arg), obj_t*>::value,
"unit test fail");
static_assert(
!inv::is_invocable<decltype(&obj_t::member_r_with_arg), std::reference_wrapper<obj2_t>, int>::value,
"unit test fail");
}
SECTION("is_invocable_objects"){
static_assert(
inv::is_invocable<decltype(&obj_t::value), obj_t>::value,
"unit test fail");
static_assert(
inv::is_invocable<decltype(&obj_t::value), obj_t*>::value,
"unit test fail");
static_assert(
inv::is_invocable<decltype(&obj_t::value), std::reference_wrapper<obj_t>>::value,
"unit test fail");
static_assert(
inv::is_invocable<decltype(&obj_t::value_c), obj_t>::value,
"unit test fail");
static_assert(
inv::is_invocable<decltype(&obj_t::value_c), obj_t*>::value,
"unit test fail");
static_assert(
inv::is_invocable<decltype(&obj_t::value_c), std::reference_wrapper<obj_t>>::value,
"unit test fail");
}
SECTION("is_not_invocable_objects"){
static_assert(
!inv::is_invocable<decltype(&obj_t::value)>::value,
"unit test fail");
static_assert(
!inv::is_invocable<decltype(&obj_t::value), obj2_t*>::value,
"unit test fail");
static_assert(
!inv::is_invocable<decltype(&obj_t::value), obj_t, int>::value,
"unit test fail");
static_assert(
!inv::is_invocable<decltype(&obj_t::value_c), obj_t**>::value,
"unit test fail");
static_assert(
!inv::is_invocable<decltype(&obj_t::value_c), obj_t*, obj_t*>::value,
"unit test fail");
static_assert(
!inv::is_invocable<decltype(&obj_t::value_c), std::reference_wrapper<obj_t**>>::value,
"unit test fail");
}
}
TEST_CASE("is_invocable_r"){
SECTION("is_invocable_r_functions"){
static_assert(
inv::is_invocable_r<void, decltype(simple_static_function)>::value,
"unit test fail");
static_assert(
inv::is_invocable_r<int, decltype(simple_static_function_r)>::value,
"unit test fail");
static_assert(
inv::is_invocable_r<void, decltype(simple_static_function_r)>::value,
"unit test fail");
static_assert(
inv::is_invocable_r<const int&, decltype(simple_static_function_r_with_arg), const int&>::value,
"unit test fail");
}
SECTION("is_not_invocable_r_functions"){
static_assert(
!inv::is_invocable_r<void, decltype(simple_static_function), int>::value,
"unit test fail");
static_assert(
!inv::is_invocable_r<int, decltype(simple_static_function_r), obj_t>::value,
"unit test fail");
static_assert(
!inv::is_invocable_r<const int&, decltype(simple_static_function_r_with_arg), const obj2_t&>::value,
"unit test fail");
static_assert(
!inv::is_invocable_r<int, decltype(simple_static_function)>::value,
"unit test fail");
static_assert(
!inv::is_invocable_r<int*, decltype(simple_static_function_r)>::value,
"unit test fail");
static_assert(
!inv::is_invocable_r<obj_t, decltype(simple_static_function_r_with_arg), const int&>::value,
"unit test fail");
}
SECTION("is_invocable_r_members"){
static_assert(
inv::is_invocable_r<void, decltype(&obj_t::member), obj_t>::value,
"unit test fail");
static_assert(
inv::is_invocable_r<void, decltype(&obj_t::member), obj_t*>::value,
"unit test fail");
static_assert(
inv::is_invocable_r<void, decltype(&obj_t::member), std::reference_wrapper<obj_t>>::value,
"unit test fail");
static_assert(
inv::is_invocable_r<int, decltype(&obj_t::member_r), obj_t>::value,
"unit test fail");
static_assert(
inv::is_invocable_r<int, decltype(&obj_t::member_r), obj_t*>::value,
"unit test fail");
static_assert(
inv::is_invocable_r<int, decltype(&obj_t::member_r), std::reference_wrapper<obj_t>>::value,
"unit test fail");
static_assert(
inv::is_invocable_r<void, decltype(&obj_t::member_r), std::reference_wrapper<obj_t>>::value,
"unit test fail");
static_assert(
inv::is_invocable_r<int, decltype(&obj_t::member_r_with_arg), obj_t, int>::value,
"unit test fail");
static_assert(
inv::is_invocable_r<int, decltype(&obj_t::member_r_with_arg), obj_t*, int>::value,
"unit test fail");
static_assert(
inv::is_invocable_r<int, decltype(&obj_t::member_r_with_arg), std::reference_wrapper<obj_t>, int>::value,
"unit test fail");
static_assert(
inv::is_invocable_r<void, decltype(&obj_t::member_r_with_arg), std::reference_wrapper<obj_t>, int>::value,
"unit test fail");
}
SECTION("is_not_invocable_r_members"){
static_assert(
!inv::is_invocable_r<int, decltype(&obj_t::member), obj_t>::value,
"unit test fail");
static_assert(
!inv::is_invocable_r<int*, decltype(&obj_t::member), obj_t*>::value,
"unit test fail");
static_assert(
!inv::is_invocable_r<obj_t, decltype(&obj_t::member), std::reference_wrapper<obj_t>>::value,
"unit test fail");
static_assert(
!inv::is_invocable_r<obj_t, decltype(&obj_t::member_r), obj_t>::value,
"unit test fail");
static_assert(
!inv::is_invocable_r<int*, decltype(&obj_t::member_r), obj_t*>::value,
"unit test fail");
static_assert(
!inv::is_invocable_r<int, decltype(&obj_t::member_r), std::reference_wrapper<obj2_t>>::value,
"unit test fail");
static_assert(
!inv::is_invocable_r<obj_t, decltype(&obj_t::member_r_with_arg), obj_t, int>::value,
"unit test fail");
static_assert(
!inv::is_invocable_r<int*, decltype(&obj_t::member_r_with_arg), obj_t*, int>::value,
"unit test fail");
static_assert(
!inv::is_invocable_r<int, decltype(&obj_t::member_r_with_arg), std::reference_wrapper<obj_t>, obj2_t>::value,
"unit test fail");
}
SECTION("is_invocable_r_objects"){
static_assert(
inv::is_invocable_r<int, decltype(&obj_t::value), obj_t>::value,
"unit test fail");
static_assert(
inv::is_invocable_r<int, decltype(&obj_t::value), obj_t*>::value,
"unit test fail");
static_assert(
inv::is_invocable_r<int, decltype(&obj_t::value), std::reference_wrapper<obj_t>>::value,
"unit test fail");
static_assert(
inv::is_invocable_r<void, decltype(&obj_t::value), std::reference_wrapper<obj_t>>::value,
"unit test fail");
static_assert(
inv::is_invocable_r<int, decltype(&obj_t::value_c), obj_t>::value,
"unit test fail");
static_assert(
inv::is_invocable_r<int, decltype(&obj_t::value_c), obj_t*>::value,
"unit test fail");
static_assert(
inv::is_invocable_r<int, decltype(&obj_t::value_c), std::reference_wrapper<obj_t>>::value,
"unit test fail");
static_assert(
inv::is_invocable_r<void, decltype(&obj_t::value_c), std::reference_wrapper<obj_t>>::value,
"unit test fail");
}
SECTION("is_not_invocable_r_objects"){
static_assert(
!inv::is_invocable_r<obj_t, decltype(&obj_t::value), obj_t>::value,
"unit test fail");
static_assert(
!inv::is_invocable_r<int*, decltype(&obj_t::value), obj_t*>::value,
"unit test fail");
static_assert(
!inv::is_invocable_r<int, decltype(&obj_t::value), std::reference_wrapper<obj_t>, obj2_t>::value,
"unit test fail");
static_assert(
!inv::is_invocable_r<void, decltype(&obj_t::value), std::reference_wrapper<obj_t>, obj2_t>::value,
"unit test fail");
static_assert(
!inv::is_invocable_r<obj_t, decltype(&obj_t::value_c), obj_t>::value,
"unit test fail");
static_assert(
!inv::is_invocable_r<int*, decltype(&obj_t::value_c), obj_t*>::value,
"unit test fail");
static_assert(
!inv::is_invocable_r<obj2_t, decltype(&obj_t::value_c), std::reference_wrapper<obj_t>>::value,
"unit test fail");
static_assert(
!inv::is_invocable_r<void, decltype(&obj_t::value_c), std::reference_wrapper<obj_t**>>::value,
"unit test fail");
}
}
TEST_CASE("apply"){
SECTION("apply_functions"){
inv::apply(simple_static_function, std::make_tuple());
REQUIRE(inv::apply(simple_static_function_r, std::make_tuple()) == 42);
REQUIRE(inv::apply(simple_static_function_r_with_arg, std::make_tuple(42)) == 42);
{
int v = 42;
REQUIRE(&inv::apply(simple_static_function_r_with_ref_arg, std::make_tuple(std::ref(v))) == &v);
}
}
SECTION("apply_members"){
obj_t o;
inv::apply(&obj_t::member, std::make_tuple(o));
inv::apply(&obj_t::member, std::make_tuple(&o));
inv::apply(&obj_t::member, std::make_tuple(std::ref(o)));
REQUIRE(inv::apply(&obj_t::member_r, std::make_tuple(o)) == 42);
REQUIRE(inv::apply(&obj_t::member_r, std::make_tuple(&o)) == 42);
REQUIRE(inv::apply(&obj_t::member_r, std::make_tuple(std::ref(o))) == 42);
REQUIRE(inv::apply(&obj_t::member_r_with_arg, std::make_tuple(o, 42)) == 42);
REQUIRE(inv::apply(&obj_t::member_r_with_arg, std::make_tuple(&o, 42)) == 42);
REQUIRE(inv::apply(&obj_t::member_r_with_arg, std::make_tuple(std::ref(o), 42)) == 42);
{
int v = 42;
REQUIRE(&inv::apply(&obj_t::member_r_with_ref_arg, std::make_tuple(o, std::ref(v))) == &v);
REQUIRE(&inv::apply(&obj_t::member_r_with_ref_arg, std::make_tuple(&o, std::ref(v))) == &v);
REQUIRE(&inv::apply(&obj_t::member_r_with_ref_arg, std::make_tuple(std::ref(o), std::ref(v))) == &v);
}
}
SECTION("apply_member_objects"){
obj_t o;
REQUIRE(inv::apply(&obj_t::value, std::make_tuple(o)) == 42);
REQUIRE(inv::apply(&obj_t::value, std::make_tuple(&o)) == 42);
REQUIRE(inv::apply(&obj_t::value, std::make_tuple(std::ref(o))) == 42);
REQUIRE(inv::apply(&obj_t::value_c, std::make_tuple(o)) == 42);
REQUIRE(inv::apply(&obj_t::value_c, std::make_tuple(&o)) == 42);
REQUIRE(inv::apply(&obj_t::value_c, std::make_tuple(std::ref(o))) == 42);
}
}

329
untests/jobber_tests.cpp Normal file
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/*******************************************************************************
* This file is part of the "https://github.com/blackmatov/promise.hpp"
* For conditions of distribution and use, see copyright notice in LICENSE.md
* Copyright (C) 2018-2019, by Matvey Cherevko (blackmatov@gmail.com)
******************************************************************************/
#define CATCH_CONFIG_FAST_COMPILE
#include <catch2/catch.hpp>
#include <thread>
#include <numeric>
#include <cstring>
#include <promise.hpp/jobber.hpp>
namespace jb = jobber_hpp;
TEST_CASE("jobber") {
{
jb::jobber j(1);
auto pv0 = j.async([](){
throw std::exception();
});
REQUIRE_THROWS_AS(pv0.get(), std::exception);
}
{
auto pv0 = jb::promise<int>();
{
jb::jobber j{0};
pv0 = j.async([](){
return 42;
});
}
REQUIRE_THROWS_AS(pv0.get(), jb::jobber_cancelled_exception);
}
{
int v5 = 5;
jb::jobber j(1);
auto pv0 = j.async([](int v){
REQUIRE(v == 5);
throw std::exception();
}, v5);
REQUIRE_THROWS_AS(pv0.get(), std::exception);
auto pv1 = j.async([](int& v){
REQUIRE(v == 5);
return v != 5
? 0
: throw std::exception();
}, std::ref(v5));
REQUIRE_THROWS_AS(pv1.get(), std::exception);
auto pv3 = j.async([](int& v){
v = 4;
return v;
}, std::ref(v5));
REQUIRE(pv3.get() == v5);
REQUIRE(v5 == 4);
}
{
const float pi = 3.14159265358979323846264338327950288f;
jb::jobber j(1);
auto p0 = j.async([](float angle){
return std::sin(angle);
}, pi);
auto p1 = j.async([](float angle){
return std::cos(angle);
}, pi * 2);
REQUIRE(p0.get() == Approx(0.f).margin(0.01f));
REQUIRE(p1.get() == Approx(1.f).margin(0.01f));
}
{
jb::jobber j(1);
j.pause();
jb::jobber_priority max_priority = jb::jobber_priority::highest;
j.async([](){
std::this_thread::sleep_for(std::chrono::milliseconds(2));
});
for ( std::size_t i = 0; i < 10; ++i ) {
jb::jobber_priority p = static_cast<jb::jobber_priority>(
i % static_cast<std::size_t>(jb::jobber_priority::highest));
j.async(p, [&max_priority](jb::jobber_priority priority) {
REQUIRE(priority <= max_priority);
max_priority = priority;
}, p);
}
j.resume();
j.wait_all();
}
{
jb::jobber j(1);
std::atomic<int> counter = ATOMIC_VAR_INIT(0);
j.pause();
for ( std::size_t i = 0; i < 10; ++i ) {
j.async([&counter](){
++counter;
std::this_thread::sleep_for(std::chrono::milliseconds(5));
});
}
j.resume();
REQUIRE(counter < 10);
j.wait_all();
REQUIRE(counter == 10);
}
{
jb::jobber j(1);
std::atomic<int> counter = ATOMIC_VAR_INIT(0);
j.pause();
for ( std::size_t i = 0; i < 10; ++i ) {
j.async([&counter](){
++counter;
std::this_thread::sleep_for(std::chrono::milliseconds(5));
});
}
REQUIRE(counter < 10);
j.active_wait_all();
REQUIRE(counter == 10);
}
{
jb::jobber j(1);
std::atomic<int> counter = ATOMIC_VAR_INIT(0);
j.pause();
for ( std::size_t i = 0; i < 3; ++i ) {
j.async([&counter](){
++counter;
});
}
REQUIRE(counter == 0);
{
auto r = j.active_wait_one();
REQUIRE(r.first == jb::jobber_wait_status::no_timeout);
REQUIRE(r.second == 1);
}
REQUIRE(counter == 1);
{
auto r = j.active_wait_one();
REQUIRE(r.first == jb::jobber_wait_status::no_timeout);
REQUIRE(r.second == 1);
}
REQUIRE(counter == 2);
{
auto r = j.active_wait_one();
REQUIRE(r.first == jb::jobber_wait_status::no_timeout);
REQUIRE(r.second == 1);
}
REQUIRE(counter == 3);
{
auto r = j.active_wait_one();
REQUIRE(r.first == jb::jobber_wait_status::no_timeout);
REQUIRE(r.second == 0);
}
REQUIRE(counter == 3);
j.resume();
REQUIRE(j.wait_all() == jb::jobber_wait_status::no_timeout);
REQUIRE(j.active_wait_one().first == jb::jobber_wait_status::no_timeout);
REQUIRE(counter == 3);
}
{
jb::jobber j(1);
const auto time_now = [](){
return std::chrono::high_resolution_clock::now();
};
REQUIRE(jb::jobber_wait_status::no_timeout == j.wait_all_for(std::chrono::milliseconds(-1)));
REQUIRE(jb::jobber_wait_status::no_timeout == j.wait_all_until(time_now() + std::chrono::milliseconds(-1)));
REQUIRE(jb::jobber_wait_status::no_timeout == j.active_wait_all_for(std::chrono::milliseconds(-1)).first);
REQUIRE(jb::jobber_wait_status::no_timeout == j.active_wait_all_until(time_now() + std::chrono::milliseconds(-1)).first);
j.pause();
j.async([]{});
REQUIRE(jb::jobber_wait_status::timeout == j.wait_all_for(std::chrono::milliseconds(-1)));
REQUIRE(jb::jobber_wait_status::timeout == j.wait_all_until(time_now() + std::chrono::milliseconds(-1)));
REQUIRE(jb::jobber_wait_status::timeout == j.active_wait_all_for(std::chrono::milliseconds(-1)).first);
REQUIRE(jb::jobber_wait_status::timeout == j.active_wait_all_until(time_now() + std::chrono::milliseconds(-1)).first);
}
{
jb::jobber j(1);
std::atomic<int> counter = ATOMIC_VAR_INIT(0);
j.pause();
for ( std::size_t i = 0; i < 10; ++i ) {
j.async([&counter](){
++counter;
});
}
const auto time_now = [](){
return std::chrono::high_resolution_clock::now();
};
j.wait_all_for(std::chrono::milliseconds(10));
j.wait_all_until(time_now() + std::chrono::milliseconds(10));
REQUIRE(counter == 0);
j.active_wait_all_for(std::chrono::milliseconds(10));
j.active_wait_all_until(time_now() + std::chrono::milliseconds(10));
REQUIRE(counter > 0);
}
{
jb::jobber j(1);
std::atomic<int> counter = ATOMIC_VAR_INIT(0);
j.pause();
for ( std::size_t i = 0; i < 50; ++i ) {
j.async([&counter](){
++counter;
std::this_thread::sleep_for(std::chrono::milliseconds(5));
});
}
const auto time_now = [](){
return std::chrono::high_resolution_clock::now();
};
const auto b = time_now();
j.resume();
j.wait_all_for(std::chrono::milliseconds(100));
REQUIRE(time_now() - b > std::chrono::milliseconds(50));
REQUIRE(counter > 2);
REQUIRE(counter < 50);
j.wait_all_until(time_now() + std::chrono::seconds(3));
REQUIRE(counter == 50);
}
{
jb::jobber j(1);
std::atomic<int> counter = ATOMIC_VAR_INIT(0);
j.pause();
for ( std::size_t i = 0; i < 50; ++i ) {
j.async([&counter](){
++counter;
std::this_thread::sleep_for(std::chrono::milliseconds(5));
});
}
const auto time_now = [](){
return std::chrono::high_resolution_clock::now();
};
const auto b = time_now();
j.wait_all_for(std::chrono::milliseconds(15));
REQUIRE(time_now() - b > std::chrono::milliseconds(10));
REQUIRE(counter == 0);
j.wait_all_until(time_now() + std::chrono::milliseconds(15));
REQUIRE(time_now() - b > std::chrono::milliseconds(20));
REQUIRE(counter == 0);
j.active_wait_all_for(std::chrono::milliseconds(100));
REQUIRE(time_now() - b > std::chrono::milliseconds(70));
REQUIRE(counter > 2);
REQUIRE(counter < 50);
j.active_wait_all_until(time_now() + std::chrono::seconds(3));
REQUIRE(counter == 50);
}
{
jb::jobber j(1);
std::atomic<int> counter = ATOMIC_VAR_INIT(0);
j.pause();
for ( std::size_t i = 0; i < 30; ++i ) {
j.async([&counter](){
++counter;
std::this_thread::sleep_for(std::chrono::milliseconds(5));
});
}
j.resume();
REQUIRE(jb::jobber_wait_status::timeout == j.wait_all_for(std::chrono::milliseconds(50)));
REQUIRE(counter > 0);
REQUIRE(jb::jobber_wait_status::no_timeout == j.wait_all_for(std::chrono::seconds(5)));
REQUIRE(counter == 30);
}
{
jb::jobber j(1);
std::atomic<int> counter = ATOMIC_VAR_INIT(0);
j.pause();
for ( std::size_t i = 0; i < 30; ++i ) {
j.async([&counter](){
++counter;
std::this_thread::sleep_for(std::chrono::milliseconds(5));
});
}
{
auto r = j.active_wait_all_for(std::chrono::milliseconds(50));
REQUIRE(jb::jobber_wait_status::timeout == r.first);
REQUIRE(r.second > 0);
}
REQUIRE(counter > 0);
{
auto r = j.active_wait_all_for(std::chrono::seconds(3));
REQUIRE(jb::jobber_wait_status::no_timeout == r.first);
REQUIRE(r.second > 0);
REQUIRE(r.second < 30);
}
REQUIRE(counter == 30);
}
{
jb::jobber j(2);
jb::jobber g(2);
std::vector<jb::promise<float>> jp(50);
for ( auto& jpi : jp ) {
jpi = j.async([&g](){
std::vector<jb::promise<float>> gp(50);
for ( std::size_t i = 0; i < gp.size(); ++i ) {
gp[i] = g.async([](float angle){
return std::sin(angle);
}, static_cast<float>(i));
}
return std::accumulate(gp.begin(), gp.end(), 0.f,
[](float r, jb::promise<float>& f){
return r + f.get();
});
});
}
float r0 = std::accumulate(jp.begin(), jp.end(), 0.f,
[](float r, jb::promise<float>& f){
return r + f.get();
});
float r1 = 0.f;
for ( std::size_t i = 0; i < 50; ++i ) {
r1 += std::sin(static_cast<float>(i));
}
REQUIRE(r0 == Approx(r1 * 50.f).margin(0.01f));
}
}

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untests/promise_tests.cpp Normal file
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/*******************************************************************************
* This file is part of the "https://github.com/blackmatov/promise.hpp"
* For conditions of distribution and use, see copyright notice in LICENSE.md
* Copyright (C) 2018-2019, by Matvey Cherevko (blackmatov@gmail.com)
******************************************************************************/
#define CATCH_CONFIG_FAST_COMPILE
#include <catch2/catch.hpp>
#include <thread>
#include <numeric>
#include <cstring>
#include <promise.hpp/scheduler.hpp>
namespace sd = scheduler_hpp;
TEST_CASE("scheduler") {
{
sd::scheduler s;
auto pv0 = s.schedule([](){
throw std::exception();
});
s.process_all_tasks();
REQUIRE_THROWS_AS(pv0.get(), std::exception);
}
{
auto pv0 = sd::promise<int>();
{
sd::scheduler s;
pv0 = s.schedule([](){
return 42;
});
}
REQUIRE_THROWS_AS(pv0.get(), sd::scheduler_cancelled_exception);
}
{
sd::scheduler s;
int counter = 0;
s.schedule([&counter](){ ++counter; });
REQUIRE(counter == 0);
REQUIRE(s.process_all_tasks() == std::make_pair(
sd::scheduler_processing_status::done,
std::size_t(1u)));
REQUIRE(counter == 1);
s.schedule([&counter](){ ++counter; });
s.schedule([&counter](){ ++counter; });
REQUIRE(counter == 1);
REQUIRE(s.process_all_tasks() == std::make_pair(
sd::scheduler_processing_status::done,
std::size_t(2u)));
REQUIRE(counter == 3);
REQUIRE(s.process_all_tasks() == std::make_pair(
sd::scheduler_processing_status::done,
std::size_t(0u)));
}
{
sd::scheduler s;
int counter = 0;
s.schedule([&counter](){ ++counter; });
s.schedule([&counter](){ ++counter; });
s.schedule([&counter](){ ++counter; });
REQUIRE(counter == 0);
REQUIRE(s.process_one_task() == std::make_pair(
sd::scheduler_processing_status::done,
std::size_t(1u)));
REQUIRE(counter == 1);
REQUIRE(s.process_one_task() == std::make_pair(
sd::scheduler_processing_status::done,
std::size_t(1u)));
REQUIRE(counter == 2);
REQUIRE(s.process_one_task() == std::make_pair(
sd::scheduler_processing_status::done,
std::size_t(1u)));
REQUIRE(counter == 3);
REQUIRE(s.process_one_task() == std::make_pair(
sd::scheduler_processing_status::done,
std::size_t(0u)));
REQUIRE(counter == 3);
}
{
sd::scheduler s;
int counter = 0;
for ( std::size_t i = 0; i < 50; ++i ) {
s.schedule([&counter](){
++counter;
std::this_thread::sleep_for(std::chrono::milliseconds(5));
});
}
REQUIRE(s.process_tasks_for(std::chrono::milliseconds(-1)) == std::make_pair(
sd::scheduler_processing_status::timeout,
std::size_t(0u)));
REQUIRE(s.process_tasks_for(std::chrono::milliseconds(0)) == std::make_pair(
sd::scheduler_processing_status::timeout,
std::size_t(0u)));
REQUIRE(counter == 0);
{
auto r = s.process_tasks_for(std::chrono::milliseconds(100));
REQUIRE(r.first == sd::scheduler_processing_status::timeout);
REQUIRE(r.second > 2);
REQUIRE(r.second < 50);
REQUIRE(counter > 2);
REQUIRE(counter < 50);
}
{
auto r = s.process_tasks_for(std::chrono::seconds(3));
REQUIRE(r.first == sd::scheduler_processing_status::done);
REQUIRE(r.second > 0);
REQUIRE(r.second < 50);
REQUIRE(counter == 50);
}
}
{
sd::scheduler s;
int counter = 0;
for ( std::size_t i = 0; i < 50; ++i ) {
s.schedule([&counter](){
++counter;
std::this_thread::sleep_for(std::chrono::milliseconds(5));
});
}
const auto time_now = [](){
return std::chrono::high_resolution_clock::now();
};
const auto b = time_now();
REQUIRE(s.process_tasks_until(time_now() - std::chrono::milliseconds(1)) == std::make_pair(
sd::scheduler_processing_status::timeout,
std::size_t(0u)));
REQUIRE(s.process_tasks_until(time_now()) == std::make_pair(
sd::scheduler_processing_status::timeout,
std::size_t(0u)));
REQUIRE(counter == 0);
{
auto r = s.process_tasks_until(time_now() + std::chrono::milliseconds(100));
REQUIRE(time_now() - b > std::chrono::milliseconds(50));
REQUIRE(r.first == sd::scheduler_processing_status::timeout);
REQUIRE(r.second > 2);
REQUIRE(r.second < 50);
REQUIRE(counter > 2);
REQUIRE(counter < 50);
}
{
auto r = s.process_tasks_until(time_now() + std::chrono::seconds(3));
REQUIRE(r.first == sd::scheduler_processing_status::done);
REQUIRE(r.second > 0);
REQUIRE(r.second < 50);
REQUIRE(counter == 50);
}
}
{
sd::scheduler s;
std::string accumulator;
s.schedule(sd::scheduler_priority::lowest, [](std::string& acc){
acc.append("o");
}, std::ref(accumulator));
s.schedule(sd::scheduler_priority::below_normal, [](std::string& acc){
acc.append("l");
}, std::ref(accumulator));
s.schedule(sd::scheduler_priority::highest, [](std::string& acc){
acc.append("h");
}, std::ref(accumulator));
s.schedule(sd::scheduler_priority::above_normal, [](std::string& acc){
acc.append("e");
}, std::ref(accumulator));
s.schedule(sd::scheduler_priority::normal, [](std::string& acc){
acc.append("l");
}, std::ref(accumulator));
REQUIRE(s.process_all_tasks() == std::make_pair(
sd::scheduler_processing_status::done,
std::size_t(5u)));
REQUIRE(accumulator == "hello");
}
}