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Added event handling example.

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binary1248 2024-06-30 16:13:51 +02:00 committed by Chris Thrasher
parent 41c48a84bc
commit 85e5ce5d65
5 changed files with 347 additions and 1 deletions
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1
examples/CMakeLists.txt
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@ -19,6 +19,7 @@ if(SFML_BUILD_WINDOW)
endif() endif()
if(SFML_BUILD_GRAPHICS) if(SFML_BUILD_GRAPHICS)
add_subdirectory(event_handling)
add_subdirectory(opengl) add_subdirectory(opengl)
add_subdirectory(stencil) add_subdirectory(stencil)

7
examples/event_handling/CMakeLists.txt Normal file
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@ -0,0 +1,7 @@
# all source files
set(SRC EventHandling.cpp)
# define the event_handling target
sfml_add_example(event_handling GUI_APP
SOURCES ${SRC}
DEPENDS SFML::Graphics)

338
examples/event_handling/EventHandling.cpp Normal file
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@ -0,0 +1,338 @@
////////////////////////////////////////////////////////////
// Headers
////////////////////////////////////////////////////////////
#include <SFML/Graphics.hpp>
#include <vector>
namespace
{
std::string vec2ToString(const sf::Vector2i vec2)
{
return '(' + std::to_string(vec2.x) + ", " + std::to_string(vec2.y) + ')';
};
} // namespace
////////////////////////////////////////////////////////////
/// \brief Application class
///
////////////////////////////////////////////////////////////
class Application
{
public:
////////////////////////////////////////////////////////////
Application()
{
m_window.setVerticalSyncEnabled(true);
m_logText.setFillColor(sf::Color::White);
m_handlerText.setFillColor(sf::Color::White);
m_handlerText.setStyle(sf::Text::Bold);
m_handlerText.setPosition({380.f, 260.f});
m_instructions.setFillColor(sf::Color::White);
m_instructions.setStyle(sf::Text::Bold);
m_instructions.setPosition({380.f, 310.f});
}
// The visitor we pass to event->visit in the "Visitor" handler
// Make sure all defined operator()s return the same type.
// The operator()s can also have void return type if there is nothing to return.
struct Visitor
{
Visitor(Application& app) : application(app)
{
}
std::optional<std::string> operator()(const sf::Event::Closed&)
{
application.m_window.close();
return std::nullopt;
}
std::optional<std::string> operator()(const sf::Event::KeyPressed& keyPress)
{
// When the enter key is pressed, switch to the next handler type
if (keyPress.code == sf::Keyboard::Key::Enter)
{
application.m_handlerType = HandlerType::Overload;
application.m_handlerText.setString("Current Handler: Overload");
}
return "Key Pressed: " + sf::Keyboard::getDescription(keyPress.scancode);
}
std::optional<std::string> operator()(const sf::Event::MouseMoved& mouseMoved)
{
return "Mouse Moved: " + vec2ToString(mouseMoved.position);
}
std::optional<std::string> operator()(const sf::Event::MouseButtonPressed&)
{
return "Mouse Pressed";
}
std::optional<std::string> operator()(const sf::Event::TouchBegan& touchBegan)
{
return "Touch Began: " + vec2ToString(touchBegan.position);
}
// When defining a visitor, make sure all event types can be handled by it.
// If you don't intend on exhaustively specifying an operator() for each
// event type, you can provide a templated operator() that will be selected
// by overload resolution when no other event type matches.
template <typename T>
std::optional<std::string> operator()(const T&)
{
// All unhandled events will end up here
// application.m_log.emplace_back("Other Event");
return std::nullopt;
}
Application& application;
};
////////////////////////////////////////////////////////////
void run()
{
// This example is for demonstration purposes only
// All the following forms of event handling have equivalent behavior
// In your own code you should decide which form of event handling
// suits your needs best and use a single form of event handling
while (m_window.isOpen())
{
if (m_handlerType == HandlerType::Classic)
{
// The "classical form" of event handling
// Poll/Wait for events in a loop and handle them
// individually based on their concrete type
while (const std::optional event = m_window.pollEvent())
{
if (event->is<sf::Event::Closed>())
{
m_window.close();
break;
}
if (const auto* keyPress = event->getIf<sf::Event::KeyPressed>())
{
m_log.emplace_back("Key Pressed: " + sf::Keyboard::getDescription(keyPress->scancode));
// When the enter key is pressed, switch to the next handler type
if (keyPress->code == sf::Keyboard::Key::Enter)
{
m_handlerType = HandlerType::Visitor;
m_handlerText.setString("Current Handler: Visitor");
}
}
else if (const auto* mouseMoved = event->getIf<sf::Event::MouseMoved>())
{
m_log.emplace_back("Mouse Moved: " + vec2ToString(mouseMoved->position));
}
else if (event->is<sf::Event::MouseButtonPressed>())
{
m_log.emplace_back("Mouse Pressed");
}
else if (const auto* touchBegan = event->getIf<sf::Event::TouchBegan>())
{
m_log.emplace_back("Touch Began: " + vec2ToString(touchBegan->position));
}
else
{
// All unhandled events will end up here
// m_log.emplace_back("Other Event");
}
}
}
else if (m_handlerType == HandlerType::Visitor)
{
// Event Visitor
// A visitor able to visit all event types is passed to the event
// The visitor's defined operator()s can also return values
while (const std::optional event = m_window.pollEvent())
{
if (std::optional logMessage = event->visit(Visitor(*this)))
m_log.emplace_back(std::move(*logMessage));
}
}
else if (m_handlerType == HandlerType::Overload)
{
// Overloaded visitation
// A callable taking a concrete event type is provided per event type you want to handle
m_window.handleEvents([&](const sf::Event::Closed&) { m_window.close(); },
[&](const sf::Event::KeyPressed& keyPress)
{
m_log.emplace_back(
"Key Pressed: " + sf::Keyboard::getDescription(keyPress.scancode));
// When the enter key is pressed, switch to the next handler type
if (keyPress.code == sf::Keyboard::Key::Enter)
{
m_handlerType = HandlerType::Generic;
m_handlerText.setString("Current Handler: Generic");
}
},
[&](const sf::Event::MouseMoved& mouseMoved)
{ m_log.emplace_back("Mouse Moved: " + vec2ToString(mouseMoved.position)); },
[&](const sf::Event::MouseButtonPressed&) { m_log.emplace_back("Mouse Pressed"); },
[&](const sf::Event::TouchBegan& touchBegan)
{ m_log.emplace_back("Touch Began: " + vec2ToString(touchBegan.position)); });
// To handle unhandled events, just add the following lambda to the set of handlers
// [&](const auto&) { m_log.emplace_back("Other Event"); }
}
else if (m_handlerType == HandlerType::Generic)
{
// Generic visitation
// A generic callable is provided that can differentiate by deduced event type
m_window.handleEvents(
[&](auto&& event)
{
// Remove reference and cv-qualifiers
using T = std::decay_t<decltype(event)>;
if constexpr (std::is_same_v<T, sf::Event::Closed>)
{
m_window.close();
}
else if constexpr (std::is_same_v<T, sf::Event::KeyPressed>)
{
m_log.emplace_back("Key Pressed: " + sf::Keyboard::getDescription(event.scancode));
// When the enter key is pressed, switch to the next handler type
if (event.code == sf::Keyboard::Key::Enter)
{
m_handlerType = HandlerType::Forward;
m_handlerText.setString("Current Handler: Forward");
}
}
else if constexpr (std::is_same_v<T, sf::Event::MouseMoved>)
{
m_log.emplace_back("Mouse Moved: " + vec2ToString(event.position));
}
else if constexpr (std::is_same_v<T, sf::Event::MouseButtonPressed>)
{
m_log.emplace_back("Mouse Pressed");
}
else if constexpr (std::is_same_v<T, sf::Event::TouchBegan>)
{
m_log.emplace_back("Touch Began: " + vec2ToString(event.position));
}
else
{
// All unhandled events will end up here
// m_log.emplace_back("Other Event");
}
});
}
else if (m_handlerType == HandlerType::Forward)
{
// Forward to other callable
// In this case we forward it to our handle member functions
// we defined for the concrete event types we want to handle
// When choosing this method a default "catch-all" handler must
// be available for unhandled events to be forwarded to
// If you don't want to provide an empty "catch-all" handler
// you will have to make sure (e.g. via if constexpr) that this
// lambda doesn't attempt to call a member function that doesn't exist
m_window.handleEvents([this](const auto& event) { handle(event); });
}
// Limit the log to 24 entries
if (m_log.size() > 24u)
m_log.erase(m_log.begin(), m_log.begin() + static_cast<int>(m_log.size() - 24u));
// Draw the contents of the log to the window
m_window.clear();
for (std::size_t i = 0; i < m_log.size(); ++i)
{
m_logText.setPosition({50.f, static_cast<float>(i * 20) + 50.f});
m_logText.setString(m_log[i]);
m_window.draw(m_logText);
}
m_window.draw(m_handlerText);
m_window.draw(m_instructions);
m_window.display();
}
}
// The following handle methods are called by the forwarding event handler implementation
// A handle method is defined per event type you want to handle
// To handle any other events that are left, the templated handle method will be called
// Overload resolution will prefer the handle methods that fit the event type better
// before falling back to the templated method
void handle(const sf::Event::Closed&)
{
m_window.close();
}
void handle(const sf::Event::KeyPressed& keyPress)
{
m_log.emplace_back("Key Pressed: " + sf::Keyboard::getDescription(keyPress.scancode));
// When the enter key is pressed, switch to the next handler type
if (keyPress.code == sf::Keyboard::Key::Enter)
{
m_handlerType = HandlerType::Classic;
m_handlerText.setString("Current Handler: Classic");
}
}
void handle(const sf::Event::MouseMoved& mouseMoved)
{
m_log.emplace_back("Mouse Moved: " + vec2ToString(mouseMoved.position));
}
void handle(const sf::Event::MouseButtonPressed&)
{
m_log.emplace_back("Mouse Pressed");
}
void handle(const sf::Event::TouchBegan& touchBegan)
{
m_log.emplace_back("Touch Began: " + vec2ToString(touchBegan.position));
}
template <typename T>
void handle(const T&)
{
// All unhandled events will end up here
// m_log.emplace_back("Other Event");
}
private:
enum class HandlerType
{
Classic,
Visitor,
Overload,
Generic,
Forward
};
////////////////////////////////////////////////////////////
// Member data
////////////////////////////////////////////////////////////
sf::RenderWindow m_window{sf::VideoMode({800u, 600u}), "SFML Event Handling", sf::Style::Titlebar | sf::Style::Close};
const sf::Font m_font{sf::Font::openFromFile("resources/tuffy.ttf").value()};
sf::Text m_logText{m_font, "", 20};
sf::Text m_handlerText{m_font, "Current Handler: Classic", 24};
sf::Text m_instructions{m_font, "Press Enter to change handler type", 24};
std::vector<std::string> m_log;
HandlerType m_handlerType{HandlerType::Classic};
};
////////////////////////////////////////////////////////////
/// Entry point of application
///
/// \return Application exit code
///
////////////////////////////////////////////////////////////
int main()
{
Application application;
application.run();
}

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examples/event_handling/resources/tuffy.ttf Normal file
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2
examples/raw_input/RawInput.cpp
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@ -18,7 +18,7 @@ int main()
sf::RenderWindow window(sf::VideoMode({800u, 600u}), "SFML Raw Mouse Input", sf::Style::Titlebar | sf::Style::Close); sf::RenderWindow window(sf::VideoMode({800u, 600u}), "SFML Raw Mouse Input", sf::Style::Titlebar | sf::Style::Close);
window.setVerticalSyncEnabled(true); window.setVerticalSyncEnabled(true);
// Open the application font and pass it to the Effect class // Open the application font
const auto font = sf::Font::openFromFile("resources/tuffy.ttf").value(); const auto font = sf::Font::openFromFile("resources/tuffy.ttf").value();
// Create the mouse position text // Create the mouse position text