275 lines
8.5 KiB
C++
275 lines
8.5 KiB
C++
#include "rxcpp/rx.hpp"
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#include "rxcpp/rx-test.hpp"
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#include "catch.hpp"
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SCENARIO("first sample"){
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printf("//! [first sample]\n");
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auto values = rxcpp::observable<>::range(1, 3).first();
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values.
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subscribe(
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[](int v){printf("OnNext: %d\n", v);},
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[](){printf("OnCompleted\n");});
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printf("//! [first sample]\n");
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}
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#if RXCPP_USE_EXCEPTIONS
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SCENARIO("first empty sample"){
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printf("//! [first empty sample]\n");
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auto values = rxcpp::observable<>::empty<int>().first();
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values.
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subscribe(
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[](int v){printf("OnNext: %d\n", v);},
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[](std::exception_ptr ep){
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try {std::rethrow_exception(ep);}
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catch (const rxcpp::empty_error& ex) {
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printf("OnError: %s\n", ex.what());
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}
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},
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[](){printf("OnCompleted\n");});
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printf("//! [first empty sample]\n");
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}
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#endif
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SCENARIO("last sample"){
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printf("//! [last sample]\n");
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auto values = rxcpp::observable<>::range(1, 3).last();
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values.
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subscribe(
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[](int v){printf("OnNext: %d\n", v);},
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[](){printf("OnCompleted\n");});
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printf("//! [last sample]\n");
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}
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#if RXCPP_USE_EXCEPTIONS
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SCENARIO("last empty sample"){
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printf("//! [last empty sample]\n");
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auto values = rxcpp::observable<>::empty<int>().last();
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values.
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subscribe(
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[](int v){printf("OnNext: %d\n", v);},
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[](std::exception_ptr ep){
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try {std::rethrow_exception(ep);}
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catch (const rxcpp::empty_error& ex) {
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printf("OnError: %s\n", ex.what());
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}
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},
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[](){printf("OnCompleted\n");});
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printf("//! [last empty sample]\n");
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}
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#endif
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SCENARIO("count sample"){
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printf("//! [count sample]\n");
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auto values = rxcpp::observable<>::range(1, 3).count();
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values.
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subscribe(
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[](int v){printf("OnNext: %d\n", v);},
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[](){printf("OnCompleted\n");});
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printf("//! [count sample]\n");
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}
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#if RXCPP_USE_EXCEPTIONS
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SCENARIO("count error sample"){
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printf("//! [count error sample]\n");
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auto values = rxcpp::observable<>::range(1, 3).
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concat(rxcpp::observable<>::error<int>(std::runtime_error("Error from source"))).
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count();
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values.
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subscribe(
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[](int v){printf("OnNext: %d\n", v);},
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[](std::exception_ptr ep){
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try {std::rethrow_exception(ep);}
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catch (const std::runtime_error& ex) {
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printf("OnError: %s\n", ex.what());
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}
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},
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[](){printf("OnCompleted\n");});
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printf("//! [count error sample]\n");
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}
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#endif
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SCENARIO("sum sample"){
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printf("//! [sum sample]\n");
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auto values = rxcpp::observable<>::range(1, 3).sum();
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values.
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subscribe(
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[](int v){printf("OnNext: %d\n", v);},
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[](){printf("OnCompleted\n");});
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printf("//! [sum sample]\n");
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}
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#if RXCPP_USE_EXCEPTIONS
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SCENARIO("sum empty sample"){
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printf("//! [sum empty sample]\n");
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auto values = rxcpp::observable<>::empty<int>().sum();
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values.
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subscribe(
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[](int v){printf("OnNext: %d\n", v);},
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[](std::exception_ptr ep){
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try {std::rethrow_exception(ep);}
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catch (const rxcpp::empty_error& ex) {
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printf("OnError: %s\n", ex.what());
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}
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},
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[](){printf("OnCompleted\n");});
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printf("//! [sum empty sample]\n");
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}
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#endif
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SCENARIO("sum error sample"){
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printf("//! [sum error sample]\n");
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auto values = rxcpp::observable<>::range(1, 3).
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concat(rxcpp::observable<>::error<int>(std::runtime_error("Error from source"))).
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sum();
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values.
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subscribe(
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[](int v){printf("OnNext: %d\n", v);},
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[](std::exception_ptr ep){
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try {std::rethrow_exception(ep);}
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catch (const std::runtime_error& ex) {
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printf("OnError: %s\n", ex.what());
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}
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},
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[](){printf("OnCompleted\n");});
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printf("//! [sum error sample]\n");
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}
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SCENARIO("average sample"){
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printf("//! [average sample]\n");
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auto values = rxcpp::observable<>::range(1, 4).average();
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values.
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subscribe(
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[](double v){printf("OnNext: %lf\n", v);},
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[](){printf("OnCompleted\n");});
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printf("//! [average sample]\n");
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}
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#if RXCPP_USE_EXCEPTIONS
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SCENARIO("average empty sample"){
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printf("//! [average empty sample]\n");
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auto values = rxcpp::observable<>::empty<int>().average();
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values.
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subscribe(
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[](double v){printf("OnNext: %lf\n", v);},
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[](std::exception_ptr ep){
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try {std::rethrow_exception(ep);}
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catch (const rxcpp::empty_error& ex) {
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printf("OnError: %s\n", ex.what());
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}
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},
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[](){printf("OnCompleted\n");});
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printf("//! [average empty sample]\n");
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}
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#endif
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SCENARIO("average error sample"){
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printf("//! [average error sample]\n");
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auto values = rxcpp::observable<>::range(1, 4).
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concat(rxcpp::observable<>::error<int>(std::runtime_error("Error from source"))).
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average();
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values.
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subscribe(
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[](double v){printf("OnNext: %lf\n", v);},
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[](std::exception_ptr ep){
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try {std::rethrow_exception(ep);}
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catch (const std::runtime_error& ex) {
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printf("OnError: %s\n", ex.what());
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}
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},
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[](){printf("OnCompleted\n");});
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printf("//! [average error sample]\n");
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}
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SCENARIO("max sample"){
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printf("//! [max sample]\n");
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auto values = rxcpp::observable<>::range(1, 4).max();
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values.
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subscribe(
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[](double v){printf("OnNext: %lf\n", v);},
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[](){printf("OnCompleted\n");});
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printf("//! [max sample]\n");
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}
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#if RXCPP_USE_EXCEPTIONS
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SCENARIO("max empty sample"){
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printf("//! [max empty sample]\n");
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auto values = rxcpp::observable<>::empty<int>().max();
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values.
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subscribe(
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[](double v){printf("OnNext: %lf\n", v);},
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[](std::exception_ptr ep){
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try {std::rethrow_exception(ep);}
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catch (const rxcpp::empty_error& ex) {
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printf("OnError: %s\n", ex.what());
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}
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},
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[](){printf("OnCompleted\n");});
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printf("//! [max empty sample]\n");
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}
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#endif
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SCENARIO("max error sample"){
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printf("//! [max error sample]\n");
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auto values = rxcpp::observable<>::range(1, 4).
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concat(rxcpp::observable<>::error<int>(std::runtime_error("Error from source"))).
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max();
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values.
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subscribe(
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[](double v){printf("OnNext: %lf\n", v);},
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[](std::exception_ptr ep){
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try {std::rethrow_exception(ep);}
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catch (const std::runtime_error& ex) {
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printf("OnError: %s\n", ex.what());
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}
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},
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[](){printf("OnCompleted\n");});
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printf("//! [max error sample]\n");
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}
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SCENARIO("min sample"){
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printf("//! [min sample]\n");
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auto values = rxcpp::observable<>::range(1, 4).min();
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values.
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subscribe(
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[](double v){printf("OnNext: %lf\n", v);},
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[](){printf("OnCompleted\n");});
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printf("//! [min sample]\n");
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}
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#if RXCPP_USE_EXCEPTIONS
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SCENARIO("min empty sample"){
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printf("//! [min empty sample]\n");
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auto values = rxcpp::observable<>::empty<int>().min();
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values.
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subscribe(
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[](double v){printf("OnNext: %lf\n", v);},
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[](std::exception_ptr ep){
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try {std::rethrow_exception(ep);}
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catch (const rxcpp::empty_error& ex) {
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printf("OnError: %s\n", ex.what());
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}
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},
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[](){printf("OnCompleted\n");});
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printf("//! [min empty sample]\n");
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}
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#endif
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SCENARIO("min error sample"){
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printf("//! [min error sample]\n");
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auto values = rxcpp::observable<>::range(1, 4).
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concat(rxcpp::observable<>::error<int>(std::runtime_error("Error from source"))).
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min();
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values.
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subscribe(
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[](double v){printf("OnNext: %lf\n", v);},
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[](std::exception_ptr ep){
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try {std::rethrow_exception(ep);}
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catch (const std::runtime_error& ex) {
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printf("OnError: %s\n", ex.what());
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}
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},
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[](){printf("OnCompleted\n");});
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printf("//! [min error sample]\n");
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}
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