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#include <string>
#include <functional>
#include "promise.hpp"
using callback_t = std::function<void()>;
using promise::promise_t;
using promise::any_cast;
struct A {
int operator()(int x) {
printf("operator A got %d\n", x);
return x + 1;
}
};
struct B {
promise_t operator()(int x) {
printf("operator B got %d\n", x);
return promise_t([x](promise_t pm) {pm.resolve(x + 1);});
}
};
int f(int x) {
printf("plain function f resolved with %d\n", x);
return x + 1;
}
promise_t g(int x) {
printf("plain function g resolved with %d\n", x);
return promise_t([](promise_t pm) {pm.resolve(1);});
}
int main() {
callback_t t1;
callback_t t2;
callback_t t3;
callback_t t4;
callback_t t5;
A a1, a2, a3;
B b1, b2, b3;
auto pm1 = promise_t([&t1](promise_t pm) {
puts("promise 1 constructed, but won't be resolved immediately");
t1 = [pm]() {pm.resolve(10);};
}).then([](int x) {
printf("got resolved x = %d, output x + 42\n", x);
return x + 42;
}).then([](int x) {
printf("got resolved x = %d, output x * 2\n", x);
return x * 2;
}).then([&t2](int x) {
auto pm2 = promise_t([x, &t2](promise_t pm2) {
printf("get resolved x = %d, "
"promise 2 constructed, not resolved, "
"will be resolved with a string instead\n", x);
t2 = [pm2]() {pm2.resolve(std::string("promise 2 resolved"));};
});
return pm2;
}).then([](std::string s) {
printf("got string from promise 2: \"%s\", "
"output 11\n", s.c_str());
return 11;
}).then([](int x) {
printf("got resolved x = %d, output 12\n", x);
return 12;
}).then(f).then(a1).fail(a2).then(b1).fail(b2).then(g).then(a3, b3)
.then([](int) {
puts("void return is ok");
}).then([]() {
puts("void parameter is ok");
return 1;
}).then([]() {
puts("void parameter will ignore the returned value");
});
auto pm3 = promise_t([&t4](promise_t pm) {
puts("promise 3 constructed");
t4 = [pm]() {pm.resolve(1);};
});
auto pm4 = promise_t([&t5](promise_t pm) {
puts("promise 4 constructed");
t5 = [pm]() {pm.resolve(1.5);};
});
auto pm5 = promise_t([&t3](promise_t pm) {
puts("promise 5 constructed");
t3 = [pm]() {pm.resolve(std::string("hello world"));};
});
auto pm6 = promise::all(std::vector<promise_t>{pm3, pm4, pm5})
.then([](const promise::values_t values) {
printf("promise 3, 4, 5 resolved with %d, %.2f, \"%s\"\n",
any_cast<int>(values[0]),
any_cast<double>(values[1]),
any_cast<std::string>(values[2]).c_str());
return 100;
});
auto pm7 = promise::all(std::vector<promise_t>{pm1, pm6})
.then([](const promise::values_t values) {
int x = any_cast<int>(values[1]);
printf("promise 1, 6 resolved %d\n", x);
return x + 1;
});
auto pm8 = promise_t([](promise_t) {
puts("promsie 8 will never be resolved");
});
auto pm9 = promise::race(std::vector<promise_t>{pm7, pm8})
.then([](promise::pm_any_t value) {
printf("promise 9 resolved with %d\n",
any_cast<int>(value));
})
.then([]() {
puts("rejecting with value -1");
return promise_t([](promise_t pm) {
pm.reject(-1);
});
})
.then([]() {
puts("this line should not appear in the output");
})
.then([](int) {
puts("this line should not appear in the outputs");
})
.fail([](int reason) {
printf("reason: %d\n", reason);
return reason + 1;
}).then([](){
puts("this line should not appear in the outputs");
},
[](int reason) {
printf("reason: %d\n", reason);
});
puts("calling t4: resolve promise 3");
t4();
puts("calling t5: resolve promise 4");
t5();
puts("calling t3: resolve promise 5");
t3();
puts("calling t1: resolve first half of promise 1");
t1();
puts("calling t2: resolve the second half of promise 1 (promise 2)");
t2();
}
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