BlackMATov/promise.hpp
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then function with both resolve and reject callbacks

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also fix problem with throw exceptions from fail
This commit is contained in:
Matvey Cherevko
2018-12-10 11:28:16 +07:00
parent 704715db17
commit c4f2a96023
3 changed files with 210 additions and 168 deletions
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9
CMakeLists.txt
View File

@@ -1,16 +1,17 @@
cmake_minimum_required(VERSION 3.5 FATAL_ERROR) cmake_minimum_required(VERSION 3.5 FATAL_ERROR)
project(promise) project(promise)
if(MSVC)
set(CMAKE_CXX_FLAGS "${CMAKE_CXX_FLAGS} /bigobj")
endif(MSVC)
file(GLOB test_sources "*.cpp" "*.hpp") file(GLOB test_sources "*.cpp" "*.hpp")
add_executable(${PROJECT_NAME} ${test_sources}) add_executable(${PROJECT_NAME} ${test_sources})
set_target_properties(${PROJECT_NAME} PROPERTIES set_target_properties(${PROJECT_NAME} PROPERTIES
CXX_STANDARD 14 CXX_STANDARD 14
CXX_STANDARD_REQUIRED YES CXX_STANDARD_REQUIRED YES
CXX_EXTENSIONS NO) CXX_EXTENSIONS NO)
if(MSVC)
target_compile_options(${PROJECT_NAME} PRIVATE /bigobj)
endif(MSVC)
enable_testing() enable_testing()
add_test(${PROJECT_NAME} ${PROJECT_NAME}) add_test(${PROJECT_NAME} ${PROJECT_NAME})

344
promise.hpp
View File

@@ -133,33 +133,6 @@ namespace promise_hpp
promise() promise()
: state_(std::make_shared<state>()) {} : state_(std::make_shared<state>()) {}
template < typename ResolveF
, typename ResolveFR = invoke_hpp::invoke_result_t<ResolveF,T> >
std::enable_if_t<
is_promise<ResolveFR>::value && !std::is_void<typename ResolveFR::value_type>::value,
promise<typename ResolveFR::value_type>>
then(ResolveF&& on_resolve) {
promise<typename ResolveFR::value_type> next;
then([
n = next,
f = std::forward<ResolveF>(on_resolve)
](const T& v) mutable {
auto np = invoke_hpp::invoke(
std::forward<decltype(f)>(f),
v);
np.then([n = n](const typename ResolveFR::value_type& nv) mutable {
n.resolve(nv);
}).fail([n = n](std::exception_ptr e) mutable {
n.reject(e);
});
}).fail([n = next](std::exception_ptr e) mutable {
n.reject(e);
});
return next;
}
template < typename ResolveF template < typename ResolveF
, typename ResolveFR = invoke_hpp::invoke_result_t<ResolveF,T> > , typename ResolveFR = invoke_hpp::invoke_result_t<ResolveF,T> >
std::enable_if_t< std::enable_if_t<
@@ -177,10 +150,37 @@ namespace promise_hpp
v); v);
np.then([n = n]() mutable { np.then([n = n]() mutable {
n.resolve(); n.resolve();
}).fail([n = n](std::exception_ptr e) mutable { }, [n = n](std::exception_ptr e) mutable {
n.reject(e); n.reject(e);
}); });
}).fail([n = next](std::exception_ptr e) mutable { }, [n = next](std::exception_ptr e) mutable {
n.reject(e);
});
return next;
}
template < typename ResolveF
, typename ResolveFR = invoke_hpp::invoke_result_t<ResolveF,T> >
std::enable_if_t<
is_promise<ResolveFR>::value && !std::is_void<typename ResolveFR::value_type>::value,
promise<typename ResolveFR::value_type>>
then(ResolveF&& on_resolve) {
promise<typename ResolveFR::value_type> next;
then([
n = next,
f = std::forward<ResolveF>(on_resolve)
](const T& v) mutable {
auto np = invoke_hpp::invoke(
std::forward<decltype(f)>(f),
v);
np.then([n = n](const typename ResolveFR::value_type& nv) mutable {
n.resolve(nv);
}, [n = n](std::exception_ptr e) mutable {
n.reject(e);
});
}, [n = next](std::exception_ptr e) mutable {
n.reject(e); n.reject(e);
}); });
@@ -211,42 +211,53 @@ namespace promise_hpp
}); });
} }
template < typename ResolveF
, typename RejectF
, typename ResolveFR = invoke_hpp::invoke_result_t<ResolveF,T> >
std::enable_if_t<
!is_promise<ResolveFR>::value,
promise<ResolveFR>>
then(ResolveF&& on_resolve, RejectF&& on_reject) {
promise<ResolveFR> next;
state_->attach(
next,
std::forward<ResolveF>(on_resolve),
std::forward<RejectF>(on_reject));
return next;
}
template < typename ResolveF template < typename ResolveF
, typename ResolveFR = invoke_hpp::invoke_result_t<ResolveF,T> > , typename ResolveFR = invoke_hpp::invoke_result_t<ResolveF,T> >
std::enable_if_t< std::enable_if_t<
!is_promise<ResolveFR>::value, !is_promise<ResolveFR>::value,
promise<ResolveFR>> promise<ResolveFR>>
then(ResolveF&& on_resolve) { then(ResolveF&& on_resolve) {
promise<ResolveFR> next; return then(
state_->attach(
next,
std::forward<ResolveF>(on_resolve), std::forward<ResolveF>(on_resolve),
[](std::exception_ptr){}); [](std::exception_ptr){});
return next;
} }
template < typename RejectF > template < typename RejectF >
promise<T> fail(RejectF&& on_reject) { promise<T> fail(RejectF&& on_reject) {
promise<T> next; return then(
state_->attach(
next,
[](const T& value) { return value; }, [](const T& value) { return value; },
std::forward<RejectF>(on_reject)); std::forward<RejectF>(on_reject));
return next;
} }
template < typename U > template < typename U >
bool resolve(U&& value) { bool resolve(U&& value) {
return state_->resolve(std::forward<U>(value)); return state_->resolve(
std::forward<U>(value));
} }
bool reject(std::exception_ptr e) { bool reject(std::exception_ptr e) noexcept {
return state_->reject(e); return state_->reject(e);
} }
template < typename E > template < typename E >
bool reject(E&& e) { bool reject(E&& e) {
return state_->reject(std::make_exception_ptr(std::forward<E>(e))); return state_->reject(
std::make_exception_ptr(std::forward<E>(e)));
} }
private: private:
class state; class state;
@@ -268,7 +279,7 @@ namespace promise_hpp
return true; return true;
} }
bool reject(std::exception_ptr e) { bool reject(std::exception_ptr e) noexcept {
std::lock_guard<std::mutex> guard(mutex_); std::lock_guard<std::mutex> guard(mutex_);
if ( status_ != status::pending ) { if ( status_ != status::pending ) {
return false; return false;
@@ -280,22 +291,8 @@ namespace promise_hpp
} }
template < typename U, typename ResolveF, typename RejectF > template < typename U, typename ResolveF, typename RejectF >
std::enable_if_t<!std::is_void<U>::value, void> std::enable_if_t<std::is_void<U>::value, void>
attach(promise<U>& next, ResolveF&& resolve, RejectF&& reject) { attach(promise<U>& next, ResolveF&& resolve, RejectF&& reject) {
auto resolve_h = [
n = next,
f = std::forward<ResolveF>(resolve)
](const T& v) mutable {
try {
auto r = invoke_hpp::invoke(
std::forward<decltype(f)>(f),
v);
n.resolve(std::move(r));
} catch (...) {
n.reject(std::current_exception());
}
};
auto reject_h = [ auto reject_h = [
n = next, n = next,
f = std::forward<RejectF>(reject) f = std::forward<RejectF>(reject)
@@ -310,29 +307,10 @@ namespace promise_hpp
} }
}; };
std::lock_guard<std::mutex> guard(mutex_);
if ( status_ == status::resolved ) {
invoke_hpp::invoke(
std::move(resolve_h),
storage_.value());
} else if ( status_ == status::rejected ) {
invoke_hpp::invoke(
std::move(reject_h),
exception_);
} else {
handlers_.emplace_back(
std::move(resolve_h),
std::move(reject_h));
}
}
template < typename U, typename ResolveF, typename RejectF >
std::enable_if_t<std::is_void<U>::value, void>
attach(promise<U>& next, ResolveF&& resolve, RejectF&& reject) {
auto resolve_h = [ auto resolve_h = [
n = next, n = next,
f = std::forward<ResolveF>(resolve) f = std::forward<ResolveF>(resolve),
j = reject_h
](const T& v) mutable { ](const T& v) mutable {
try { try {
invoke_hpp::invoke( invoke_hpp::invoke(
@@ -340,10 +318,19 @@ namespace promise_hpp
v); v);
n.resolve(); n.resolve();
} catch (...) { } catch (...) {
n.reject(std::current_exception()); invoke_hpp::invoke(
std::move(j),
std::current_exception());
} }
}; };
std::lock_guard<std::mutex> guard(mutex_);
add_handlers_(std::move(resolve_h), std::move(reject_h));
}
template < typename U, typename ResolveF, typename RejectF >
std::enable_if_t<!std::is_void<U>::value, void>
attach(promise<U>& next, ResolveF&& resolve, RejectF&& reject) {
auto reject_h = [ auto reject_h = [
n = next, n = next,
f = std::forward<RejectF>(reject) f = std::forward<RejectF>(reject)
@@ -358,23 +345,44 @@ namespace promise_hpp
} }
}; };
std::lock_guard<std::mutex> guard(mutex_); auto resolve_h = [
n = next,
f = std::forward<ResolveF>(resolve),
j = reject_h
](const T& v) mutable {
try {
auto r = invoke_hpp::invoke(
std::forward<decltype(f)>(f),
v);
n.resolve(std::move(r));
} catch (...) {
invoke_hpp::invoke(
std::move(j),
std::current_exception());
}
};
std::lock_guard<std::mutex> guard(mutex_);
add_handlers_(std::move(resolve_h), std::move(reject_h));
}
private:
template < typename ResolveF, typename RejectF >
void add_handlers_(ResolveF&& resolve, RejectF&& reject) {
if ( status_ == status::resolved ) { if ( status_ == status::resolved ) {
invoke_hpp::invoke( invoke_hpp::invoke(
std::move(resolve_h), std::forward<ResolveF>(resolve),
storage_.value()); storage_.value());
} else if ( status_ == status::rejected ) { } else if ( status_ == status::rejected ) {
invoke_hpp::invoke( invoke_hpp::invoke(
std::move(reject_h), std::forward<RejectF>(reject),
exception_); exception_);
} else { } else {
handlers_.emplace_back( handlers_.emplace_back(
std::move(resolve_h), std::forward<ResolveF>(resolve),
std::move(reject_h)); std::forward<RejectF>(reject));
} }
} }
private:
void invoke_resolve_handlers_() noexcept { void invoke_resolve_handlers_() noexcept {
const T& value = storage_.value(); const T& value = storage_.value();
for ( const auto& h : handlers_ ) { for ( const auto& h : handlers_ ) {
@@ -431,32 +439,6 @@ namespace promise_hpp
promise() promise()
: state_(std::make_shared<state>()) {} : state_(std::make_shared<state>()) {}
template < typename ResolveF
, typename ResolveFR = invoke_hpp::invoke_result_t<ResolveF> >
std::enable_if_t<
is_promise<ResolveFR>::value && !std::is_void<typename ResolveFR::value_type>::value,
promise<typename ResolveFR::value_type>>
then(ResolveF&& on_resolve) {
promise<typename ResolveFR::value_type> next;
then([
n = next,
f = std::forward<ResolveF>(on_resolve)
]() mutable {
auto np = invoke_hpp::invoke(
std::forward<decltype(f)>(f));
np.then([n = n](const typename ResolveFR::value_type& nv) mutable {
n.resolve(nv);
}).fail([n = n](std::exception_ptr e) mutable {
n.reject(e);
});
}).fail([n = next](std::exception_ptr e) mutable {
n.reject(e);
});
return next;
}
template < typename ResolveF template < typename ResolveF
, typename ResolveFR = invoke_hpp::invoke_result_t<ResolveF> > , typename ResolveFR = invoke_hpp::invoke_result_t<ResolveF> >
std::enable_if_t< std::enable_if_t<
@@ -473,10 +455,36 @@ namespace promise_hpp
std::forward<decltype(f)>(f)); std::forward<decltype(f)>(f));
np.then([n = n]() mutable { np.then([n = n]() mutable {
n.resolve(); n.resolve();
}).fail([n = n](std::exception_ptr e) mutable { }, [n = n](std::exception_ptr e) mutable {
n.reject(e); n.reject(e);
}); });
}).fail([n = next](std::exception_ptr e) mutable { }, [n = next](std::exception_ptr e) mutable {
n.reject(e);
});
return next;
}
template < typename ResolveF
, typename ResolveFR = invoke_hpp::invoke_result_t<ResolveF> >
std::enable_if_t<
is_promise<ResolveFR>::value && !std::is_void<typename ResolveFR::value_type>::value,
promise<typename ResolveFR::value_type>>
then(ResolveF&& on_resolve) {
promise<typename ResolveFR::value_type> next;
then([
n = next,
f = std::forward<ResolveF>(on_resolve)
]() mutable {
auto np = invoke_hpp::invoke(
std::forward<decltype(f)>(f));
np.then([n = n](const typename ResolveFR::value_type& nv) mutable {
n.resolve(nv);
}, [n = n](std::exception_ptr e) mutable {
n.reject(e);
});
}, [n = next](std::exception_ptr e) mutable {
n.reject(e); n.reject(e);
}); });
@@ -505,41 +513,51 @@ namespace promise_hpp
}); });
} }
template < typename ResolveF
, typename RejectF
, typename ResolveFR = invoke_hpp::invoke_result_t<ResolveF> >
std::enable_if_t<
!is_promise<ResolveFR>::value,
promise<ResolveFR>>
then(ResolveF&& on_resolve, RejectF&& on_reject) {
promise<ResolveFR> next;
state_->attach(
next,
std::forward<ResolveF>(on_resolve),
std::forward<RejectF>(on_reject));
return next;
}
template < typename ResolveF template < typename ResolveF
, typename ResolveFR = invoke_hpp::invoke_result_t<ResolveF> > , typename ResolveFR = invoke_hpp::invoke_result_t<ResolveF> >
std::enable_if_t< std::enable_if_t<
!is_promise<ResolveFR>::value, !is_promise<ResolveFR>::value,
promise<ResolveFR>> promise<ResolveFR>>
then(ResolveF&& on_resolve) { then(ResolveF&& on_resolve) {
promise<ResolveFR> next; return then(
state_->attach(
next,
std::forward<ResolveF>(on_resolve), std::forward<ResolveF>(on_resolve),
[](std::exception_ptr){}); [](std::exception_ptr){});
return next;
} }
template < typename RejectF > template < typename RejectF >
promise<void> fail(RejectF&& on_reject) { promise<void> fail(RejectF&& on_reject) {
promise<void> next; return then(
state_->attach(
next,
[]{}, []{},
std::forward<RejectF>(on_reject)); std::forward<RejectF>(on_reject));
return next;
} }
bool resolve() { bool resolve() {
return state_->resolve(); return state_->resolve();
} }
bool reject(std::exception_ptr e) { bool reject(std::exception_ptr e) noexcept {
return state_->reject(e); return state_->reject(e);
} }
template < typename E > template < typename E >
bool reject(E&& e) { bool reject(E&& e) {
return state_->reject(std::make_exception_ptr(std::forward<E>(e))); return state_->reject(
std::make_exception_ptr(std::forward<E>(e)));
} }
private: private:
class state; class state;
@@ -559,7 +577,7 @@ namespace promise_hpp
return true; return true;
} }
bool reject(std::exception_ptr e) { bool reject(std::exception_ptr e) noexcept {
std::lock_guard<std::mutex> guard(mutex_); std::lock_guard<std::mutex> guard(mutex_);
if ( status_ != status::pending ) { if ( status_ != status::pending ) {
return false; return false;
@@ -571,21 +589,8 @@ namespace promise_hpp
} }
template < typename U, typename ResolveF, typename RejectF > template < typename U, typename ResolveF, typename RejectF >
std::enable_if_t<!std::is_void<U>::value, void> std::enable_if_t<std::is_void<U>::value, void>
attach(promise<U>& next, ResolveF&& resolve, RejectF&& reject) { attach(promise<U>& next, ResolveF&& resolve, RejectF&& reject) {
auto resolve_h = [
n = next,
f = std::forward<ResolveF>(resolve)
]() mutable {
try {
auto r = invoke_hpp::invoke(
std::forward<decltype(f)>(f));
n.resolve(std::move(r));
} catch (...) {
n.reject(std::current_exception());
}
};
auto reject_h = [ auto reject_h = [
n = next, n = next,
f = std::forward<RejectF>(reject) f = std::forward<RejectF>(reject)
@@ -600,38 +605,29 @@ namespace promise_hpp
} }
}; };
std::lock_guard<std::mutex> guard(mutex_);
if ( status_ == status::resolved ) {
invoke_hpp::invoke(
std::move(resolve_h));
} else if ( status_ == status::rejected ) {
invoke_hpp::invoke(
std::move(reject_h),
exception_);
} else {
handlers_.emplace_back(
std::move(resolve_h),
std::move(reject_h));
}
}
template < typename U, typename ResolveF, typename RejectF >
std::enable_if_t<std::is_void<U>::value, void>
attach(promise<U>& next, ResolveF&& resolve, RejectF&& reject) {
auto resolve_h = [ auto resolve_h = [
n = next, n = next,
f = std::forward<ResolveF>(resolve) f = std::forward<ResolveF>(resolve),
j = reject_h
]() mutable { ]() mutable {
try { try {
invoke_hpp::invoke( invoke_hpp::invoke(
std::forward<decltype(f)>(f)); std::forward<decltype(f)>(f));
n.resolve(); n.resolve();
} catch (...) { } catch (...) {
n.reject(std::current_exception()); invoke_hpp::invoke(
std::move(j),
std::current_exception());
} }
}; };
std::lock_guard<std::mutex> guard(mutex_);
add_handlers_(std::move(resolve_h), std::move(reject_h));
}
template < typename U, typename ResolveF, typename RejectF >
std::enable_if_t<!std::is_void<U>::value, void>
attach(promise<U>& next, ResolveF&& resolve, RejectF&& reject) {
auto reject_h = [ auto reject_h = [
n = next, n = next,
f = std::forward<RejectF>(reject) f = std::forward<RejectF>(reject)
@@ -646,22 +642,42 @@ namespace promise_hpp
} }
}; };
std::lock_guard<std::mutex> guard(mutex_); auto resolve_h = [
n = next,
f = std::forward<ResolveF>(resolve),
j = reject_h
]() mutable {
try {
auto r = invoke_hpp::invoke(
std::forward<decltype(f)>(f));
n.resolve(std::move(r));
} catch (...) {
invoke_hpp::invoke(
std::move(j),
std::current_exception());
}
};
std::lock_guard<std::mutex> guard(mutex_);
add_handlers_(std::move(resolve_h), std::move(reject_h));
}
private:
template < typename ResolveF, typename RejectF >
void add_handlers_(ResolveF&& resolve, RejectF&& reject) {
if ( status_ == status::resolved ) { if ( status_ == status::resolved ) {
invoke_hpp::invoke( invoke_hpp::invoke(
std::move(resolve_h)); std::forward<ResolveF>(resolve));
} else if ( status_ == status::rejected ) { } else if ( status_ == status::rejected ) {
invoke_hpp::invoke( invoke_hpp::invoke(
std::move(reject_h), std::forward<RejectF>(reject),
exception_); exception_);
} else { } else {
handlers_.emplace_back( handlers_.emplace_back(
std::move(resolve_h), std::forward<ResolveF>(resolve),
std::move(reject_h)); std::forward<RejectF>(reject));
} }
} }
private:
void invoke_resolve_handlers_() noexcept { void invoke_resolve_handlers_() noexcept {
for ( const auto& h : handlers_ ) { for ( const auto& h : handlers_ ) {
h.resolve_(); h.resolve_();

25
tests.cpp
View File

@@ -18,6 +18,16 @@ namespace
return false; return false;
} }
} }
bool check_hello_fail2_exception(std::exception_ptr e) {
try {
std::rethrow_exception(e);
} catch (std::logic_error& ee) {
return 0 == std::strcmp(ee.what(), "hello fail2");
} catch (...) {
return false;
}
}
} }
TEST_CASE("is_promise") { TEST_CASE("is_promise") {
@@ -309,6 +319,21 @@ TEST_CASE("promise") {
REQUIRE(not_call_then_on_reject); REQUIRE(not_call_then_on_reject);
REQUIRE(call_fail_with_logic_error); REQUIRE(call_fail_with_logic_error);
} }
{
bool not_call_then_on_reject = true;
bool call_fail_with_logic_error = false;
auto p = pr::promise<int>();
p.resolve(42);
p.then([](int){
throw std::logic_error("hello fail");
}, [](std::exception_ptr){
throw std::logic_error("hello fail2");
}).fail([&call_fail_with_logic_error](std::exception_ptr e){
call_fail_with_logic_error = check_hello_fail2_exception(e);
});
REQUIRE(not_call_then_on_reject);
REQUIRE(call_fail_with_logic_error);
}
} }
SECTION("multi_then") { SECTION("multi_then") {
{ {