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dancing_kirby.cpp
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dancing_kirby.cpp
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/******************************************************************************\
* This example illustrates how to do time-triggered loops in libcppa. *
\******************************************************************************/
#include <chrono>
#include <iostream>
#include <algorithm>
#include "cppa/cppa.hpp"
using std::cout;
using std::endl;
using std::pair;
using namespace cppa;
// ASCII art figures
constexpr const char* figures[] = {
"<(^.^<)",
"<(^.^)>",
"(>^.^)>"
};
struct animation_step { size_t figure_idx; size_t offset; };
// array of {figure, offset} pairs
constexpr animation_step animation_steps[] = {
{1, 7}, {0, 7}, {0, 6}, {0, 5}, {1, 5}, {2, 5}, {2, 6},
{2, 7}, {2, 8}, {2, 9}, {2, 10}, {1, 10}, {0, 10}, {0, 9},
{1, 9}, {2, 10}, {2, 11}, {2, 12}, {2, 13}, {1, 13}, {0, 13},
{0, 12}, {0, 11}, {0, 10}, {0, 9}, {0, 8}, {0, 7}, {1, 7}
};
template<typename T, size_t S>
constexpr size_t array_size(const T (&) [S]) {
return S;
}
constexpr size_t animation_width = 20;
// "draws" an animation step by printing "{offset_whitespaces}{figure}{padding}"
void draw_kirby(const animation_step& animation) {
cout.width(animation_width);
// override last figure
cout << '\r';
// print offset
std::fill_n(std::ostream_iterator<char>{cout}, animation.offset, ' ');
// print figure
cout << figures[animation.figure_idx];
// print padding
cout.fill(' ');
// make sure figure is printed
cout.flush();
}
// uses a message-based loop to iterate over all animation steps
void dancing_kirby() {
// let's get it started
send(self, atom("Step"), size_t{0});
become (
on(atom("Step"), array_size(animation_steps)) >> [] {
// we've printed all animation steps (done)
cout << endl;
self->quit();
},
on(atom("Step"), arg_match) >> [](size_t step) {
// print given step
draw_kirby(animation_steps[step]);
// animate next step in 150ms
delayed_send(self, std::chrono::milliseconds(150), atom("Step"), step + 1);
}
);
}
int main() {
spawn(dancing_kirby);
await_all_others_done();
shutdown();
return 0;
}