#include "rxcpp/rx.hpp"
#include "rxcpp/rx-test.hpp"
#include "catch.hpp"
SCENARIO("buffer count sample"){
printf("//! [buffer count sample]\n");
auto values = rxcpp::observable<>::range(1, 5).buffer(2);
values.
subscribe(
[](std::vector<int> v){
printf("OnNext:");
std::for_each(v.begin(), v.end(), [](int a){
printf(" %d", a);
});
printf("\n");
},
[](){printf("OnCompleted\n");});
printf("//! [buffer count sample]\n");
}
SCENARIO("buffer count+skip sample"){
printf("//! [buffer count+skip sample]\n");
auto values = rxcpp::observable<>::range(1, 7).buffer(2, 3);
values.
subscribe(
[](std::vector<int> v){
printf("OnNext:");
std::for_each(v.begin(), v.end(), [](int a){
printf(" %d", a);
});
printf("\n");
},
[](){printf("OnCompleted\n");});
printf("//! [buffer count+skip sample]\n");
}
#include "main.hpp"
SCENARIO("buffer period+skip+coordination sample"){
printf("//! [buffer period+skip+coordination sample]\n");
printf("[thread %s] Start task\n", get_pid().c_str());
auto period = std::chrono::milliseconds(4);
auto skip = std::chrono::milliseconds(6);
auto values = rxcpp::observable<>::interval(std::chrono::steady_clock::now() + std::chrono::milliseconds(1), std::chrono::milliseconds(2)).
map([](long v){
printf("[thread %s] Interval OnNext: %ld\n", get_pid().c_str(), v);
return v;
}).
take(7).
buffer_with_time(period, skip, rxcpp::observe_on_new_thread());
values.
as_blocking().
subscribe(
[](std::vector<long> v){
printf("[thread %s] OnNext:", get_pid().c_str());
std::for_each(v.begin(), v.end(), [](long a){
printf(" %ld", a);
});
printf("\n");
},
[](){printf("[thread %s] OnCompleted\n", get_pid().c_str());});
printf("[thread %s] Finish task\n", get_pid().c_str());
printf("//! [buffer period+skip+coordination sample]\n");
}
SCENARIO("buffer period+skip sample"){
printf("//! [buffer period+skip sample]\n");
auto period = std::chrono::milliseconds(4);
auto skip = std::chrono::milliseconds(6);
auto values = rxcpp::observable<>::interval(std::chrono::steady_clock::now() + std::chrono::milliseconds(1), std::chrono::milliseconds(2)).
take(7).
buffer_with_time(period, skip);
values.
subscribe(
[](std::vector<long> v){
printf("OnNext:");
std::for_each(v.begin(), v.end(), [](long a){
printf(" %ld", a);
});
printf("\n");
},
[](){printf("OnCompleted\n");});
printf("//! [buffer period+skip sample]\n");
}
SCENARIO("buffer period+skip overlapping sample"){
printf("//! [buffer period+skip overlapping sample]\n");
auto period = std::chrono::milliseconds(6);
auto skip = std::chrono::milliseconds(4);
auto values = rxcpp::observable<>::interval(std::chrono::steady_clock::now() + std::chrono::milliseconds(1), std::chrono::milliseconds(2)).
take(7).
buffer_with_time(period, skip);
values.
subscribe(
[](std::vector<long> v){
printf("OnNext:");
std::for_each(v.begin(), v.end(), [](long a){
printf(" %ld", a);
});
printf("\n");
},
[](){printf("OnCompleted\n");});
printf("//! [buffer period+skip overlapping sample]\n");
}
SCENARIO("buffer period+skip empty sample"){
printf("//! [buffer period+skip empty sample]\n");
auto period = std::chrono::milliseconds(2);
auto skip = std::chrono::milliseconds(4);
auto values = rxcpp::observable<>::timer(std::chrono::milliseconds(10)).
buffer_with_time(period, skip);
values.
subscribe(
[](std::vector<long> v){
printf("OnNext:");
std::for_each(v.begin(), v.end(), [](long a){
printf(" %ld", a);
});
printf("\n");
},
[](){printf("OnCompleted\n");});
printf("//! [buffer period+skip empty sample]\n");
}
SCENARIO("buffer period+coordination sample"){
printf("//! [buffer period+coordination sample]\n");
auto values = rxcpp::observable<>::interval(std::chrono::steady_clock::now() + std::chrono::milliseconds(1), std::chrono::milliseconds(2)).
take(7).
buffer_with_time(std::chrono::milliseconds(4), rxcpp::observe_on_new_thread());
values.
as_blocking().
subscribe(
[](std::vector<long> v){
printf("OnNext:");
std::for_each(v.begin(), v.end(), [](long a){
printf(" %ld", a);
});
printf("\n");
},
[](){printf("OnCompleted\n");});
printf("//! [buffer period+coordination sample]\n");
}
SCENARIO("buffer period sample"){
printf("//! [buffer period sample]\n");
auto values = rxcpp::observable<>::interval(std::chrono::steady_clock::now() + std::chrono::milliseconds(1), std::chrono::milliseconds(2)).
take(7).
buffer_with_time(std::chrono::milliseconds(4));
values.
subscribe(
[](std::vector<long> v){
printf("OnNext:");
std::for_each(v.begin(), v.end(), [](long a){
printf(" %ld", a);
});
printf("\n");
},
[](){printf("OnCompleted\n");});
printf("//! [buffer period sample]\n");
}
SCENARIO("buffer period+count+coordination sample"){
printf("//! [buffer period+count+coordination sample]\n");
auto int1 = rxcpp::observable<>::range(1L, 3L);
auto int2 = rxcpp::observable<>::timer(std::chrono::milliseconds(50));
auto values = int1.
concat(int2).
buffer_with_time_or_count(std::chrono::milliseconds(20), 2, rxcpp::observe_on_event_loop());
values.
as_blocking().
subscribe(
[](std::vector<long> v){
printf("OnNext:");
std::for_each(v.begin(), v.end(), [](long a){
printf(" %ld", a);
});
printf("\n");
},
[](){printf("OnCompleted\n");});
printf("//! [buffer period+count+coordination sample]\n");
}
SCENARIO("buffer period+count sample"){
printf("//! [buffer period+count sample]\n");
auto int1 = rxcpp::observable<>::range(1L, 3L);
auto int2 = rxcpp::observable<>::timer(std::chrono::milliseconds(50));
auto values = int1.
concat(int2).
buffer_with_time_or_count(std::chrono::milliseconds(20), 2);
values.
subscribe(
[](std::vector<long> v){
printf("OnNext:");
std::for_each(v.begin(), v.end(), [](long a){
printf(" %ld", a);
});
printf("\n");
},
[](){printf("OnCompleted\n");});
printf("//! [buffer period+count sample]\n");
}