Add advanced deadzone configuration functions to the game controller class

2 years ago · 4ae99d7596
--- a/src/application.cpp
+++ b/src/application.cpp
@ -210,6 +210,9 @@ application::application():
 	keyboard->set_event_dispatcher(event_dispatcher);
 	mouse = new input::mouse();
 	mouse->set_event_dispatcher(event_dispatcher);
 	
 	// Connect game controllers
 	translate_sdl_events();

 	// Setup frame scheduler
 	frame_scheduler = new ::frame_scheduler();
--- a/src/game/states/forage.cpp
+++ b/src/game/states/forage.cpp
@ -271,22 +271,28 @@ void setup_controls(game::context* ctx)
 	const float dolly_speed = 20.0f;
 	const float truck_speed = dolly_speed;
 	const float pedestal_speed = 30.0f;
 	float mouse_look_sensitivity = 1.0f;	
 	float mouse_tilt_sensitivity = 1.0f;
 	float mouse_pan_sensitivity = 1.0f;
 	bool mouse_invert_tilt = false;
 	bool mouse_invert_pan = false;
 	float gamepad_look_sensitivity = 1.0f;
 	float gamepad_tilt_sensitivity = 1.0f;
 	float gamepad_pan_sensitivity = 1.0f;
 	bool gamepad_invert_tilt = false;
 	bool gamepad_invert_pan = false;
 	
 	if (ctx->config->contains("mouse_look_sensitivity"))
 		mouse_look_sensitivity = math::radians((*ctx->config)["mouse_look_sensitivity"].get<float>());
 	if (ctx->config->contains("mouse_tilt_sensitivity"))
 		mouse_tilt_sensitivity = math::radians((*ctx->config)["mouse_tilt_sensitivity"].get<float>());
 	if (ctx->config->contains("mouse_pan_sensitivity"))
 		mouse_pan_sensitivity = math::radians((*ctx->config)["mouse_pan_sensitivity"].get<float>());
 	if (ctx->config->contains("mouse_invert_tilt"))
 		mouse_invert_tilt = math::radians((*ctx->config)["mouse_invert_tilt"].get<bool>());
 	if (ctx->config->contains("mouse_invert_pan"))
 		mouse_invert_pan = math::radians((*ctx->config)["mouse_invert_pan"].get<bool>());
 	
 	if (ctx->config->contains("gamepad_look_sensitivity"))
 		gamepad_look_sensitivity = math::radians((*ctx->config)["gamepad_look_sensitivity"].get<float>());
 	if (ctx->config->contains("gamepad_tilt_sensitivity"))
 		gamepad_tilt_sensitivity = math::radians((*ctx->config)["gamepad_tilt_sensitivity"].get<float>());
 	if (ctx->config->contains("gamepad_pan_sensitivity"))
 		gamepad_pan_sensitivity = math::radians((*ctx->config)["gamepad_pan_sensitivity"].get<float>());
 	if (ctx->config->contains("gamepad_invert_tilt"))
 		gamepad_invert_tilt = math::radians((*ctx->config)["gamepad_invert_tilt"].get<bool>());
 	if (ctx->config->contains("gamepad_invert_pan"))
@ -296,10 +302,10 @@ void setup_controls(game::context* ctx)
 	const input::control* move_fast = ctx->controls["move_fast"];
 	const input::control* mouse_rotate = ctx->controls["mouse_rotate"];
 	
 	float mouse_tilt_factor = mouse_look_sensitivity * (mouse_invert_tilt ? -1.0f : 1.0f);
 	float mouse_pan_factor = mouse_look_sensitivity * (mouse_invert_pan ? -1.0f : 1.0f);
 	float gamepad_tilt_factor = gamepad_look_sensitivity * (gamepad_invert_tilt ? -1.0f : 1.0f);
 	float gamepad_pan_factor = gamepad_look_sensitivity * (gamepad_invert_pan ? -1.0f : 1.0f);
 	float mouse_tilt_factor = mouse_tilt_sensitivity * (mouse_invert_tilt ? -1.0f : 1.0f);
 	float mouse_pan_factor = mouse_pan_sensitivity * (mouse_invert_pan ? -1.0f : 1.0f);
 	float gamepad_tilt_factor = gamepad_tilt_sensitivity * (gamepad_invert_tilt ? -1.0f : 1.0f);
 	float gamepad_pan_factor = gamepad_pan_sensitivity * (gamepad_invert_pan ? -1.0f : 1.0f);
 	
 	ctx->controls["dolly_forward"]->set_active_callback
 	(
--- a/src/game/states/loading.cpp
+++ b/src/game/states/loading.cpp
@ -56,6 +56,8 @@ namespace loading {
 /// Creates or loads control configuration
 static void load_controls(game::context* ctx);

 static input::game_controller_response_curve parse_response_curve(const std::string& curve);

 /// Creates the universe and solar system.
 static void cosmogenesis(game::context* ctx);

@ -128,6 +130,11 @@ void load_controls(game::context* ctx)
 	// Allocate known controls
 	ctx->controls["toggle_fullscreen"] = new input::control();
 	ctx->controls["screenshot"] = new input::control();
 	ctx->controls["menu_up"] = new input::control();
 	ctx->controls["menu_down"] = new input::control();
 	ctx->controls["menu_left"] = new input::control();
 	ctx->controls["menu_right"] = new input::control();
 	ctx->controls["menu_select"] = new input::control();
 	ctx->controls["menu_back"] = new input::control();
 	ctx->controls["dolly_forward"] = new input::control();
 	ctx->controls["dolly_backward"] = new input::control();
@ -148,6 +155,13 @@ void load_controls(game::context* ctx)
 	ctx->controls["tilt_down_mouse"] = new input::control();
 	ctx->controls["use_tool"] = new input::control();
 	
 	// Set activation threshold for menu navigation controls to mitigate drifting game controller axes
 	const float menu_activation_threshold = 0.1f;
 	ctx->controls["menu_up"]->set_activation_threshold(menu_activation_threshold);
 	ctx->controls["menu_down"]->set_activation_threshold(menu_activation_threshold);
 	ctx->controls["menu_left"]->set_activation_threshold(menu_activation_threshold);
 	ctx->controls["menu_right"]->set_activation_threshold(menu_activation_threshold);
 	
 	// Get keyboard and mouse devices
 	input::keyboard* keyboard = ctx->app->get_keyboard();
 	input::mouse* mouse = ctx->app->get_mouse();
@ -365,10 +379,93 @@ void load_controls(game::context* ctx)
 		}
 	}
 	
 	// Set all control deadzones to 0.15
 	for (auto control: ctx->controls)
 	// Set gamepad deadzones
 	float gamepad_leftx_activation_min = 0.0f;
 	float gamepad_leftx_activation_max = 0.0f;
 	float gamepad_lefty_activation_min = 0.0f;
 	float gamepad_lefty_activation_max = 0.0f;
 	float gamepad_rightx_activation_min = 0.0f;
 	float gamepad_rightx_activation_max = 0.0f;
 	float gamepad_righty_activation_min = 0.0f;
 	float gamepad_righty_activation_max = 0.0f;
 	float gamepad_lefttrigger_activation_min = 0.0f;
 	float gamepad_lefttrigger_activation_max = 0.0f;
 	float gamepad_righttrigger_activation_min = 0.0f;
 	float gamepad_righttrigger_activation_max = 0.0f;
 	bool gamepad_left_deadzone_cross = true;
 	bool gamepad_right_deadzone_cross = true;
 	float gamepad_left_deadzone_roundness = 0.0f;
 	float gamepad_right_deadzone_roundness = 0.0f;
 	input::game_controller_response_curve gamepad_leftx_response_curve = input::game_controller_response_curve::linear;
 	input::game_controller_response_curve gamepad_lefty_response_curve = input::game_controller_response_curve::linear;
 	input::game_controller_response_curve gamepad_rightx_response_curve = input::game_controller_response_curve::linear;
 	input::game_controller_response_curve gamepad_righty_response_curve = input::game_controller_response_curve::linear;
 	input::game_controller_response_curve gamepad_lefttrigger_response_curve = input::game_controller_response_curve::linear;
 	input::game_controller_response_curve gamepad_righttrigger_response_curve = input::game_controller_response_curve::linear;
 	
 	if (ctx->config->contains("gamepad_leftx_activation_min"))
 		gamepad_leftx_activation_min = (*ctx->config)["gamepad_leftx_activation_min"].get<float>();
 	if (ctx->config->contains("gamepad_leftx_activation_max"))
 		gamepad_leftx_activation_max = (*ctx->config)["gamepad_leftx_activation_max"].get<float>();
 	if (ctx->config->contains("gamepad_lefty_activation_min"))
 		gamepad_lefty_activation_min = (*ctx->config)["gamepad_lefty_activation_min"].get<float>();
 	if (ctx->config->contains("gamepad_lefty_activation_max"))
 		gamepad_lefty_activation_max = (*ctx->config)["gamepad_lefty_activation_max"].get<float>();
 	if (ctx->config->contains("gamepad_rightx_activation_min"))
 		gamepad_rightx_activation_min = (*ctx->config)["gamepad_rightx_activation_min"].get<float>();
 	if (ctx->config->contains("gamepad_rightx_activation_max"))
 		gamepad_rightx_activation_max = (*ctx->config)["gamepad_rightx_activation_max"].get<float>();
 	if (ctx->config->contains("gamepad_righty_activation_min"))
 		gamepad_righty_activation_min = (*ctx->config)["gamepad_righty_activation_min"].get<float>();
 	if (ctx->config->contains("gamepad_righty_activation_max"))
 		gamepad_righty_activation_max = (*ctx->config)["gamepad_righty_activation_max"].get<float>();
 	if (ctx->config->contains("gamepad_lefttrigger_activation_min"))
 		gamepad_lefttrigger_activation_min = (*ctx->config)["gamepad_lefttrigger_activation_min"].get<float>();
 	if (ctx->config->contains("gamepad_lefttrigger_activation_max"))
 		gamepad_lefttrigger_activation_max = (*ctx->config)["gamepad_lefttrigger_activation_max"].get<float>();
 	if (ctx->config->contains("gamepad_righttrigger_activation_min"))
 		gamepad_righttrigger_activation_min = (*ctx->config)["gamepad_righttrigger_activation_min"].get<float>();
 	if (ctx->config->contains("gamepad_righttrigger_activation_max"))
 		gamepad_righttrigger_activation_max = (*ctx->config)["gamepad_righttrigger_activation_max"].get<float>();
 	if (ctx->config->contains("gamepad_left_deadzone_cross"))
 		gamepad_left_deadzone_cross = (*ctx->config)["gamepad_left_deadzone_cross"].get<bool>();
 	if (ctx->config->contains("gamepad_right_deadzone_cross"))
 		gamepad_right_deadzone_cross = (*ctx->config)["gamepad_right_deadzone_cross"].get<bool>();
 	if (ctx->config->contains("gamepad_left_deadzone_roundness"))
 		gamepad_left_deadzone_roundness = (*ctx->config)["gamepad_left_deadzone_roundness"].get<float>();
 	if (ctx->config->contains("gamepad_right_deadzone_roundness"))
 		gamepad_right_deadzone_roundness = (*ctx->config)["gamepad_right_deadzone_roundness"].get<float>();
 	if (ctx->config->contains("gamepad_leftx_response_curve"))
 		gamepad_leftx_response_curve = parse_response_curve((*ctx->config)["gamepad_leftx_response_curve"].get<std::string>());
 	if (ctx->config->contains("gamepad_leftx_response_curve"))
 		gamepad_leftx_response_curve = parse_response_curve((*ctx->config)["gamepad_leftx_response_curve"].get<std::string>());
 	if (ctx->config->contains("gamepad_rightx_response_curve"))
 		gamepad_rightx_response_curve = parse_response_curve((*ctx->config)["gamepad_rightx_response_curve"].get<std::string>());
 	if (ctx->config->contains("gamepad_leftx_response_curve"))
 		gamepad_leftx_response_curve = parse_response_curve((*ctx->config)["gamepad_leftx_response_curve"].get<std::string>());
 	if (ctx->config->contains("gamepad_lefttrigger_response_curve"))
 		gamepad_lefttrigger_response_curve = parse_response_curve((*ctx->config)["gamepad_lefttrigger_response_curve"].get<std::string>());
 	if (ctx->config->contains("gamepad_righttrigger_response_curve"))
 		gamepad_righttrigger_response_curve = parse_response_curve((*ctx->config)["gamepad_righttrigger_response_curve"].get<std::string>());
 	
 	for (input::game_controller* gamepad: ctx->app->get_game_controllers())
 	{
 		control.second->set_deadzone(0.15f);
 		gamepad->set_activation_threshold(input::game_controller_axis::left_x, gamepad_leftx_activation_min, gamepad_leftx_activation_max);
 		gamepad->set_activation_threshold(input::game_controller_axis::left_y, gamepad_lefty_activation_min, gamepad_lefty_activation_max);
 		gamepad->set_activation_threshold(input::game_controller_axis::right_x, gamepad_rightx_activation_min, gamepad_rightx_activation_max);
 		gamepad->set_activation_threshold(input::game_controller_axis::right_y, gamepad_righty_activation_min, gamepad_righty_activation_max);
 		gamepad->set_activation_threshold(input::game_controller_axis::left_trigger, gamepad_lefttrigger_activation_min, gamepad_lefttrigger_activation_max);
 		gamepad->set_activation_threshold(input::game_controller_axis::right_trigger, gamepad_righttrigger_activation_min, gamepad_righttrigger_activation_max);
 		gamepad->set_left_deadzone_cross(gamepad_left_deadzone_cross);
 		gamepad->set_right_deadzone_cross(gamepad_right_deadzone_cross);
 		gamepad->set_left_deadzone_roundness(gamepad_left_deadzone_roundness);
 		gamepad->set_right_deadzone_roundness(gamepad_right_deadzone_roundness);
 		gamepad->set_response_curve(input::game_controller_axis::left_x, gamepad_leftx_response_curve);
 		gamepad->set_response_curve(input::game_controller_axis::left_y, gamepad_lefty_response_curve);
 		gamepad->set_response_curve(input::game_controller_axis::right_x, gamepad_rightx_response_curve);
 		gamepad->set_response_curve(input::game_controller_axis::right_y, gamepad_righty_response_curve);
 		gamepad->set_response_curve(input::game_controller_axis::left_trigger, gamepad_lefttrigger_response_curve);
 		gamepad->set_response_curve(input::game_controller_axis::right_trigger, gamepad_righttrigger_response_curve);
 	}
 	
 	// Toggle fullscreen
@ -410,6 +507,15 @@ void load_controls(game::context* ctx)
 	);
 }

 static input::game_controller_response_curve parse_response_curve(const std::string& curve)
 {
 	if (curve == "square")
 		return input::game_controller_response_curve::square;
 	else if (curve == "cube")
 		return input::game_controller_response_curve::cube;
 	return input::game_controller_response_curve::linear;
 }

 void cosmogenesis(game::context* ctx)
 {
 	// Init time
--- a/src/input/control.cpp
+++ b/src/input/control.cpp
@ -22,7 +22,7 @@
 namespace input {

 control::control():
 	deadzone(0.0f),
 	activation_threshold(0.0f),
 	current_value(0.0f),
 	previous_value(0.0f),
 	reset(false),
@ -97,9 +97,9 @@ void control::set_temporary_value(float value)
 	reset = true;
 }

 void control::set_deadzone(float value)
 void control::set_activation_threshold(float threshold)
 {
 	deadzone = value;
 	activation_threshold = threshold;
 }

 void control::set_activated_callback(std::function<void()> callback)
--- a/src/input/control.hpp
+++ b/src/input/control.hpp
@ -54,11 +54,11 @@ public:
 	void set_temporary_value(float value);

 	/**
 	 * Sets the deadzone value. If the current value of the control is not greater than the deadzone value, the control will not be considered active.
 	 * Sets the activation threshold. If the current value of the control is not greater than the activation threshold, the control will not be considered active.
 	 *
 	 * @param value Deadzone value.
 	 * @param threshold Activation threshold.
 	 */
 	void set_deadzone(float value);
 	void set_activation_threshold(float threshold);

 	/// Sets the callback for when the control is activated.
 	void set_activated_callback(std::function<void()> callback);
@ -79,8 +79,8 @@ public:
 	 */
 	void set_callbacks_enabled(bool enabled);

 	/// Returns the deadzone value. The default value is 0.0.
 	float get_deadzone() const;
 	/// Returns the activation threshold. The default value is 0.0.
 	float get_activation_threshold() const;

 	/// Returns the current value of the control.
 	float get_current_value() const;
@ -95,7 +95,7 @@ public:
 	bool was_active() const;

 private:
 	float deadzone;
 	float activation_threshold;
 	float current_value;
 	float previous_value;
 	bool reset;
@ -111,9 +111,9 @@ inline void control::set_callbacks_enabled(bool enabled)
 	this->callbacks_enabled = enabled;
 }

 inline float control::get_deadzone() const
 inline float control::get_activation_threshold() const
 {
 	return deadzone;
 	return activation_threshold;
 }

 inline float control::get_current_value() const
@ -128,12 +128,12 @@ inline float control::get_previous_value() const

 inline bool control::is_active() const
 {
 	return current_value > deadzone;
 	return current_value > activation_threshold;
 }

 inline bool control::was_active() const
 {
 	return previous_value > deadzone;
 	return previous_value > activation_threshold;
 }

 } // namespace input
--- a/src/input/game-controller.cpp
+++ b/src/input/game-controller.cpp
@ -20,13 +20,58 @@
 #include "game-controller.hpp"
 #include "event/input-events.hpp"
 #include "event/event-dispatcher.hpp"
 #include "math/map.hpp"
 #include <algorithm>
 #include <cmath>

 namespace input {

 game_controller::game_controller():
 	connected(true)
 {}
 	connected(true),
 	left_deadzone_cross(true),
 	right_deadzone_cross(true),
 	left_deadzone_roundness(0.0f),
 	right_deadzone_roundness(0.0f)
 {
 	for (int i = 0; i < 6; ++i)
 	{
 		axis_values[i] = 0.0f;
 		axis_activation_min[i] = 0.0f;
 		axis_activation_max[i] = 1.0f;
 		axis_response_curves[i] = game_controller_response_curve::linear;
 	}
 }

 void game_controller::set_activation_threshold(game_controller_axis axis, float min, float max)
 {
 	axis_activation_min[static_cast<int>(axis)] = min;
 	axis_activation_max[static_cast<int>(axis)] = max;
 }

 void game_controller::set_response_curve(game_controller_axis axis, game_controller_response_curve curve)
 {
 	axis_response_curves[static_cast<int>(axis)] = curve;
 }

 void game_controller::set_left_deadzone_cross(bool cross)
 {
 	left_deadzone_cross = cross;
 }

 void game_controller::set_right_deadzone_cross(bool cross)
 {
 	right_deadzone_cross = cross;
 }

 void game_controller::set_left_deadzone_roundness(float roundness)
 {
 	left_deadzone_roundness = roundness;
 }

 void game_controller::set_right_deadzone_roundness(float roundness)
 {
 	right_deadzone_roundness = roundness;
 }

 void game_controller::press(game_controller_button button)
 {
@ -58,19 +103,154 @@ void game_controller::release(game_controller_button button)

 void game_controller::move(game_controller_axis axis, float value)
 {
 	// Update axis value
 	axis_values[static_cast<int>(axis)] = value;
 	
 	if (!device::event_dispatcher)
 	{
 		return;
 	}
 	
 	switch (axis)
 	{
 		case game_controller_axis::left_x:
 		case game_controller_axis::left_y:
 			if (left_deadzone_cross)
 				handle_axial_motion(axis);
 			else
 				handle_biaxial_motion(game_controller_axis::left_x, game_controller_axis::left_y);
 			break;
 			
 		case game_controller_axis::right_x:
 		case game_controller_axis::right_y:
 			if (right_deadzone_cross)
 				handle_axial_motion(axis);
 			else
 				handle_biaxial_motion(game_controller_axis::right_x, game_controller_axis::right_y);
 			break;
 		
 		default:
 			handle_axial_motion(axis);
 			break;
 	}
 }

 void game_controller::handle_axial_motion(game_controller_axis axis)
 {
 	// Get axis parameters
 	const int axis_index = static_cast<int>(axis);
 	const float activation_min = axis_activation_min[axis_index];
 	const float activation_max = axis_activation_max[axis_index];
 	const float axis_value = axis_values[axis_index];
 	const game_controller_response_curve response_curve = axis_response_curves[axis_index];
 	
 	// Build event
 	game_controller_axis_moved_event event;
 	event.controller = this;
 	event.axis = axis;
 	event.value = value;

 	
 	if (std::abs(axis_value) > activation_min)
 	{
 		// Remap response value according to activation thresholds and clamp to `[0, 1]`.
 		float response = math::map(std::abs(axis_value), activation_min, activation_max, 0.0f, 1.0f);
 		response = std::clamp(response, 0.0f, 1.0f);
 		
 		// Remap response value according to axis response curve
 		response = curve_response(axis, response);
 		
 		// Restore sign of axis motion
 		response = (axis_value < 0.0f) ? -response : response;
 		
 		event.value = response;
 	}
 	else
 	{
 		event.value = 0.0f;
 	}
 	
 	// Dispatch event
 	device::event_dispatcher->queue(event);
 }

 void game_controller::handle_biaxial_motion(game_controller_axis axis_x, game_controller_axis axis_y)
 {
 	// Get axis parameters
 	const int x_axis_index = static_cast<int>(axis_x);
 	const int y_axis_index = static_cast<int>(axis_y);
 	const float x_activation_min = axis_activation_min[x_axis_index];
 	const float x_activation_max = axis_activation_max[x_axis_index];
 	const float y_activation_min = axis_activation_min[y_axis_index];
 	const float y_activation_max = axis_activation_max[y_axis_index];
 	const float x_axis_value = axis_values[x_axis_index];
 	const float y_axis_value = axis_values[y_axis_index];
 	const game_controller_response_curve x_response_curve = axis_response_curves[x_axis_index];
 	const game_controller_response_curve y_response_curve = axis_response_curves[y_axis_index];
 	const float deadzone_roundness = (axis_x == game_controller_axis::left_x) ? left_deadzone_roundness : right_deadzone_roundness;
 	
 	const float radius = std::min<float>(x_activation_min, y_activation_min) * deadzone_roundness;
 	const float dx = std::max<float>(0.0f, std::abs(x_axis_value) - x_activation_min + radius);
 	const float dy = std::max<float>(0.0f, std::abs(y_axis_value) - y_activation_min + radius);
 	const float distance = std::sqrt(dx * dx + dy * dy) - radius;
 	
 	// Build event
 	game_controller_axis_moved_event event;
 	event.controller = this;
 	
 	if (distance > 0.0f)
 	{
 		const float nx = std::abs(x_axis_value) / distance;
 		const float ny = std::abs(y_axis_value) / distance;
 		const float ndx = (distance - x_activation_min) / (x_activation_max - x_activation_min);
 		const float ndy = (distance - y_activation_min) / (y_activation_max - y_activation_min);
 		
 		float response_x = std::clamp(nx * ndx, 0.0f, 1.0f);
 		float response_y = std::clamp(ny * ndy, 0.0f, 1.0f);
 		
 		response_x = curve_response(axis_x, response_x);
 		response_y = curve_response(axis_y, response_y);
 		
 		// Restore signs of axis motions
 		response_x = (x_axis_value < 0.0f) ? -response_x : response_x;
 		response_y = (y_axis_value < 0.0f) ? -response_y : response_y;
 		
 		event.value = response_x;
 		event.axis = axis_x;
 		device::event_dispatcher->queue(event);
 		event.value = response_y;
 		event.axis = axis_y;
 		device::event_dispatcher->queue(event);
 	}
 	else
 	{
 		event.value = 0.0f;
 		event.axis = axis_x;
 		device::event_dispatcher->queue(event);
 		event.axis = axis_y;
 		device::event_dispatcher->queue(event);
 	}
 }

 float game_controller::curve_response(game_controller_axis axis, float response) const
 {
 	const game_controller_response_curve response_curve = axis_response_curves[static_cast<int>(axis)];
 	
 	switch (response_curve)
 	{
 		case game_controller_response_curve::linear:
 			break;
 		
 		case game_controller_response_curve::square:
 			response = response * response;
 			break;
 		
 		case game_controller_response_curve::cube:
 			response = response * response * response;
 			break;
 	}
 	
 	return response;
 }

 void game_controller::connect(bool reconnected)
 {
 	connected = true;
--- a/src/input/game-controller.hpp
+++ b/src/input/game-controller.hpp
@ -24,6 +24,7 @@

 namespace input {

 /// Game controller buttons.
 enum class game_controller_button
 {
 	a,
@ -43,16 +44,41 @@ enum class game_controller_button
 	dpad_right
 };

 /// Game controller axes.
 enum class game_controller_axis
 {
 	/// Left stick x-axis.
 	left_x,
 	
 	/// Left stick y-axis.
 	left_y,
 	
 	/// Right stick x-axis.
 	right_x,
 	
 	/// Right stick y-axis.
 	right_y,
 	
 	/// Left trigger.
 	left_trigger,
 	
 	/// Right trigger.
 	right_trigger,
 };

 /// Game controller axis activation response curves.
 enum class game_controller_response_curve
 {
 	/// Linear response curve.
 	linear,
 	
 	/// Squared response curve.
 	square,
 	
 	/// Cubed response curve.
 	cube
 };

 /**
 * A virtual game controller which can generate game controller-related input events and pass them to an event dispatcher.
 *
@ -65,24 +91,69 @@ public:
 	 * Creates a game controller input device.
 	 */
 	game_controller();

 	
 	/// Destroys a game controller input device.
 	virtual ~game_controller() = default;
 	
 	/**
 	 * Sets the activation threshold for a game controller axis.
 	 *
 	 * @param axis Game controller axis.
 	 * @param min Axis minimum activation threshold.
 	 * @param max Axis maximum activation threshold.
 	 */
 	void set_activation_threshold(game_controller_axis axis, float min, float max);
 	
 	/**
 	 * Sets the activation response curve of an axis.
 	 *
 	 * @param axis Game controller axis.
 	 * @param curve Activation response curve.
 	 */
 	void set_response_curve(game_controller_axis axis, game_controller_response_curve curve);
 	
 	/**
 	 * Sets the type of deadzone shape for the axes on the left stick.
 	 *
 	 * @param cross If `true`, the x and y axes are independently activated, if `false`, activation of the x and y axes are dependent on their combined magnitude.
 	 */
 	void set_left_deadzone_cross(bool cross);
 	
 	/**
 	 * Sets the type of deadzone shape for the axes on the right stick.
 	 *
 	 * @param cross If `true`, the x and y axes are independently activated, if `false`, activation of the x and y axes are dependent on their combined magnitude.
 	 */
 	void set_right_deadzone_cross(bool cross);
 	
 	/**
 	 * Sets the roundness of the deadzone for the axes on the left stick.
 	 *
 	 * @param roundness Roundness of the deadzone shape for non-cross deadzones. A value of `0.0` results in a square deadzone, while a value of `1.0` results in a circular deadzone. Values between `0.0` and `1.0` result in a rounded rectangle deadzone.
 	 */
 	void set_left_deadzone_roundness(float roundness);
 	
 	/**
 	 * Sets the roundness of the deadzone for the axes on the right stick.
 	 *
 	 * @param roundness Roundness of the deadzone shape for non-cross deadzones. A value of `0.0` results in a square deadzone, while a value of `1.0` results in a circular deadzone. Values between `0.0` and `1.0` result in a rounded rectangle deadzone.
 	 */
 	void set_right_deadzone_roundness(float roundness);
 	
 	/**
 	 * Simulates a game controller button press.
 	 *
 	 * @param button Index of the pressed button.
 	 */
 	void press(game_controller_button button);

 	
 	/**
 	 * Simulates a game controller button release.
 	 *
 	 * @param button Index of the released button.
 	 */
 	void release(game_controller_button button);

 	
 	/**
 	 * Simulates a game controller axis movement.
 	 *
@ -106,7 +177,20 @@ public:
 	bool is_connected() const;
 	
 private:
 	void handle_axial_motion(game_controller_axis axis);
 	void handle_biaxial_motion(game_controller_axis axis_x, game_controller_axis axis_y);
 	float curve_response(game_controller_axis axis, float response) const;
 	
 	bool connected;
 	float axis_values[6];
 	float axis_activation_min[6];
 	float axis_activation_max[6];
 	game_controller_response_curve axis_response_curves[6];
 	
 	bool left_deadzone_cross;
 	bool right_deadzone_cross;
 	float left_deadzone_roundness;
 	float right_deadzone_roundness;
 };

 inline bool game_controller::is_connected() const
--- a/src/math/map.hpp
+++ b/src/math/map.hpp
@ -0,0 +1,43 @@
 /*
 * Copyright (C) 2021  Christopher J. Howard
 *
 * This file is part of Antkeeper source code.
 *
 * Antkeeper source code is free software: you can redistribute it and/or modify
 * it under the terms of the GNU General Public License as published by
 * the Free Software Foundation, either version 3 of the License, or
 * (at your option) any later version.
 *
 * Antkeeper source code is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with Antkeeper source code.  If not, see <http://www.gnu.org/licenses/>.
 */

 #ifndef ANTKEEPER_MATH_MAP_HPP
 #define ANTKEEPER_MATH_MAP_HPP

 namespace math {

 /**
 * Remaps a number from one range to another.
 *
 * @param value Value to remap.
 * @param from_min Start of the first range.
 * @param from_max End of the first range.
 * @param to_min Start of the second range.
 * @param to_max End of the second range.
 * @return Unclamped remapped value.
 */
 template <class T>
 T map(T value, T from_min, T from_max, T to_min, T to_max)
 {
 	return to_min + (to_max - to_min) * ((value - from_min) / (from_max - from_min));
 }

 } // namespace math

 #endif // ANTKEEPER_MATH_MAP_HPP
--- a/src/math/math.hpp
+++ b/src/math/math.hpp
@ -46,5 +46,6 @@ namespace math {}
 #include "math/quadrature.hpp"
 #include "math/interpolation.hpp"
 #include "math/random.hpp"
 #include "math/map.hpp"

 #endif // ANTKEEPER_MATH_HPP