using System;
using System.Collections.Generic;
using System.Collections.ObjectModel;
using System.Linq;
using Microsoft.Xna.Framework;
using Microsoft.Xna.Framework.Graphics;
using Microsoft.Xna.Framework.Input;
using Microsoft.Xna.Framework.Input.Touch;
using MLEM.Misc;
namespace MLEM.Input {
///
/// An input handler is a more advanced wrapper around MonoGame's default input system.
/// It includes keyboard, mouse, gamepad and touch states, as well as a new "pressed" state for keys and the ability for keyboard and gamepad repeat events.
///
public class InputHandler : GameComponent {
#if FNA
private const int MaximumGamePadCount = 4;
#else
private static readonly int MaximumGamePadCount = GamePad.MaximumGamePadCount;
#endif
///
/// Contains all of the gestures that have finished during the last update call.
/// To easily query these gestures, use or .
///
public readonly ReadOnlyCollection Gestures;
///
/// Set this field to false to disable keyboard handling for this input handler.
///
public bool HandleKeyboard;
///
/// Set this field to false to disable mouse handling for this input handler.
///
public bool HandleMouse;
///
/// Set this field to false to disable keyboard handling for this input handler.
///
public bool HandleGamepads;
///
/// Set this field to false to disable touch handling for this input handler.
///
public bool HandleTouch;
///
/// This is the amount of time that has to pass before the first keyboard repeat event is triggered.
///
///
public TimeSpan KeyRepeatDelay = TimeSpan.FromSeconds(0.65);
///
/// This is the amount of time that has to pass between keyboard repeat events.
///
///
public TimeSpan KeyRepeatRate = TimeSpan.FromSeconds(0.05);
///
/// Set this field to false to disable keyboard repeat event handling.
///
public bool HandleKeyboardRepeats = true;
///
/// Set this field to false to disable gamepad repeat event handling.
///
public bool HandleGamepadRepeats = true;
///
/// This field represents the deadzone that gamepad have when input is queried for them using this input handler.
/// A deadzone is the percentage (between 0 and 1) that an analog value has to exceed for it to be considered down () or pressed ().
/// Querying of analog values is done using .
///
public float GamepadButtonDeadzone;
///
/// Set this field to true to invert the press behavior of , , and .
/// Inverted behavior means that, instead of an input counting as pressed when it was up in the last frame and is now down, it will be counted as pressed when it was down in the last frame and is now up.
///
public bool InvertPressBehavior;
///
/// An array of all , and values that are currently down.
/// Additionally, or can be used to determine the amount of time that a given input has been down for.
///
public GenericInput[] InputsDown { get; private set; } = Array.Empty();
///
/// An array of all , and that are currently considered pressed.
/// An input is considered pressed if it was up in the last update, and is up in the current one.
///
public GenericInput[] InputsPressed { get; private set; } = Array.Empty();
///
/// Contains the touch state from the last update call
///
public TouchCollection LastTouchState { get; private set; } = new TouchCollection(Array.Empty());
///
/// Contains the current touch state
///
public TouchCollection TouchState { get; private set; } = new TouchCollection(Array.Empty());
///
/// Contains the , but with the taken into account.
///
public IList LastViewportTouchState { get; private set; }
///
/// Contains the , but with the taken into account.
///
public IList ViewportTouchState { get; private set; }
///
/// Contains the amount of gamepads that are currently connected.
/// This field is automatically updated in
///
public int ConnectedGamepads { get; private set; }
///
/// Contains the mouse state from the last update call
///
public MouseState LastMouseState { get; private set; }
///
/// Contains the current mouse state
///
public MouseState MouseState { get; private set; }
///
/// Contains the position of the mouse from the last update call, extracted from
///
public Point LastMousePosition => new Point(this.LastMouseState.X, this.LastMouseState.Y);
///
/// Contains the , but with the taken into account.
///
public Point LastViewportMousePosition => this.LastMousePosition + this.ViewportOffset;
///
/// Contains the current position of the mouse, extracted from
///
public Point MousePosition => new Point(this.MouseState.X, this.MouseState.Y);
///
/// Contains the , but with the taken into account.
///
public Point ViewportMousePosition => this.MousePosition + this.ViewportOffset;
///
/// Contains the current scroll wheel value, in increments of 120
///
public int ScrollWheel => this.MouseState.ScrollWheelValue;
///
/// Contains the scroll wheel value from the last update call, in increments of 120
///
public int LastScrollWheel => this.LastMouseState.ScrollWheelValue;
///
/// Contains the keyboard state from the last update call
///
public KeyboardState LastKeyboardState { get; private set; }
///
/// Contains the current keyboard state
///
public KeyboardState KeyboardState { get; private set; }
private readonly GamePadState[] lastGamepads = new GamePadState[MaximumGamePadCount];
private readonly GamePadState[] gamepads = new GamePadState[MaximumGamePadCount];
private readonly DateTime[] lastGamepadButtonRepeats = new DateTime[MaximumGamePadCount];
private readonly bool[] triggerGamepadButtonRepeat = new bool[MaximumGamePadCount];
private readonly Buttons?[] heldGamepadButtons = new Buttons?[MaximumGamePadCount];
private readonly List gestures = new List();
private readonly HashSet<(GenericInput, int)> consumedPresses = new HashSet<(GenericInput, int)>();
private Point ViewportOffset => new Point(-this.Game.GraphicsDevice.Viewport.X, -this.Game.GraphicsDevice.Viewport.Y);
private Dictionary<(GenericInput, int), DateTime> inputsDownAccum = new Dictionary<(GenericInput, int), DateTime>();
private Dictionary<(GenericInput, int), DateTime> inputsDown = new Dictionary<(GenericInput, int), DateTime>();
private DateTime lastKeyRepeat;
private bool triggerKeyRepeat;
private Keys heldKey;
///
/// Creates a new input handler with optional initial values.
///
/// The game instance that this input handler belongs to
/// If keyboard input should be handled
/// If mouse input should be handled
/// If gamepad input should be handled
/// If touch input should be handled
public InputHandler(Game game, bool handleKeyboard = true, bool handleMouse = true, bool handleGamepads = true, bool handleTouch = true) : base(game) {
this.HandleKeyboard = handleKeyboard;
this.HandleMouse = handleMouse;
this.HandleGamepads = handleGamepads;
this.HandleTouch = handleTouch;
this.Gestures = this.gestures.AsReadOnly();
}
///
/// Updates this input handler, querying pressed and released keys and calculating repeat events.
/// Call this in your method.
///
public void Update() {
var now = DateTime.UtcNow;
var active = this.Game.IsActive;
this.consumedPresses.Clear();
if (this.HandleKeyboard) {
this.LastKeyboardState = this.KeyboardState;
this.KeyboardState = active ? Keyboard.GetState() : default;
var pressedKeys = this.KeyboardState.GetPressedKeys();
foreach (var pressed in pressedKeys)
this.AccumulateDown(pressed, -1);
if (this.HandleKeyboardRepeats) {
this.triggerKeyRepeat = false;
// the key that started being held most recently should be the one being repeated
this.heldKey = pressedKeys.OrderBy(k => this.GetDownTime(k)).FirstOrDefault();
if (this.TryGetDownTime(this.heldKey, out var heldTime)) {
// if we've been holding the key longer than the initial delay...
if (heldTime >= this.KeyRepeatDelay) {
var diff = now - this.lastKeyRepeat;
// and we've been holding it for longer than a repeat...
if (diff >= this.KeyRepeatRate) {
this.lastKeyRepeat = now;
// then trigger a repeat, causing IsKeyPressed to be true once
this.triggerKeyRepeat = true;
}
}
}
}
}
if (this.HandleMouse) {
this.LastMouseState = this.MouseState;
var state = Mouse.GetState();
if (active && this.Game.GraphicsDevice.Viewport.Bounds.Contains(state.X, state.Y)) {
this.MouseState = state;
foreach (var button in MouseExtensions.MouseButtons) {
if (state.GetState(button) == ButtonState.Pressed)
this.AccumulateDown(button, -1);
}
} else {
// mouse position and scroll wheel value should be preserved when the mouse is out of bounds
#if FNA
this.MouseState = new MouseState(state.X, state.Y, state.ScrollWheelValue, 0, 0, 0, 0, 0);
#else
this.MouseState = new MouseState(state.X, state.Y, state.ScrollWheelValue, 0, 0, 0, 0, 0, state.HorizontalScrollWheelValue);
#endif
}
}
if (this.HandleGamepads) {
this.ConnectedGamepads = MaximumGamePadCount;
for (var i = 0; i < MaximumGamePadCount; i++) {
this.lastGamepads[i] = this.gamepads[i];
this.gamepads[i] = default;
if (GamePad.GetCapabilities((PlayerIndex) i).IsConnected) {
if (active) {
this.gamepads[i] = GamePad.GetState((PlayerIndex) i);
foreach (var button in EnumHelper.Buttons) {
if (this.IsGamepadButtonDown(button, i))
this.AccumulateDown(button, i);
}
}
} else if (this.ConnectedGamepads > i) {
this.ConnectedGamepads = i;
}
}
if (this.HandleGamepadRepeats) {
for (var i = 0; i < this.ConnectedGamepads; i++) {
this.triggerGamepadButtonRepeat[i] = false;
this.heldGamepadButtons[i] = EnumHelper.Buttons
.Where(b => this.IsGamepadButtonDown(b, i))
.OrderBy(b => this.GetDownTime(b, i))
.Cast().FirstOrDefault();
if (this.heldGamepadButtons[i].HasValue && this.TryGetDownTime(this.heldGamepadButtons[i].Value, out var heldTime, i)) {
if (heldTime >= this.KeyRepeatDelay) {
var diff = now - this.lastGamepadButtonRepeats[i];
if (diff >= this.KeyRepeatRate) {
this.lastGamepadButtonRepeats[i] = now;
this.triggerGamepadButtonRepeat[i] = true;
}
}
}
}
}
}
if (this.HandleTouch) {
this.LastTouchState = this.TouchState;
this.LastViewportTouchState = this.ViewportTouchState;
this.TouchState = active ? TouchPanel.GetState() : new TouchCollection(Array.Empty());
if (this.TouchState.Count > 0 && this.ViewportOffset != Point.Zero) {
this.ViewportTouchState = new List();
foreach (var touch in this.TouchState) {
touch.TryGetPreviousLocation(out var previous);
var offset = new Vector2(this.ViewportOffset.X, this.ViewportOffset.Y);
this.ViewportTouchState.Add(new TouchLocation(touch.Id, touch.State, touch.Position + offset, previous.State, previous.Position + offset));
}
} else {
this.ViewportTouchState = this.TouchState;
}
this.gestures.Clear();
while (active && TouchPanel.IsGestureAvailable)
this.gestures.Add(TouchPanel.ReadGesture());
}
if (this.inputsDownAccum.Count <= 0 && this.inputsDown.Count <= 0) {
this.InputsPressed = Array.Empty();
this.InputsDown = Array.Empty();
this.inputsDown.Clear();
} else {
// if we're inverting press behavior, we need to check the press state for the inputs that were down in the last frame
var down = this.InvertPressBehavior ? this.inputsDown : this.inputsDownAccum;
this.InputsPressed = down.Keys.Where(kv => this.IsPressed(kv.Item1, kv.Item2)).Select(kv => kv.Item1).ToArray();
this.InputsDown = this.inputsDownAccum.Keys.Select(kv => kv.Item1).ToArray();
// swapping these collections means that we don't have to keep moving entries between them
(this.inputsDown, this.inputsDownAccum) = (this.inputsDownAccum, this.inputsDown);
this.inputsDownAccum.Clear();
}
}
///
public override void Update(GameTime gameTime) {
this.Update();
}
///
/// Returns the state of the indexth gamepad from the last update call
///
/// The zero-based gamepad index
/// The state of the gamepad last update
public GamePadState GetLastGamepadState(int index) {
return this.lastGamepads[index];
}
///
/// Returns the current state of the indexth gamepad
///
/// The zero-based gamepad index
/// The current state of the gamepad
public GamePadState GetGamepadState(int index) {
return this.gamepads[index];
}
///
public bool IsKeyDown(Keys key) {
return this.KeyboardState.IsKeyDown(key);
}
///
public bool IsKeyUp(Keys key) {
return this.KeyboardState.IsKeyUp(key);
}
///
public bool WasKeyDown(Keys key) {
return this.LastKeyboardState.IsKeyDown(key);
}
///
public bool WasKeyUp(Keys key) {
return this.LastKeyboardState.IsKeyUp(key);
}
///
/// Returns whether the given key is considered pressed.
/// A key is considered pressed if it was not down the last update call, but is down the current update call. If is true, this behavior is inverted.
/// If is true, this method will also return true to signify a key repeat.
///
/// The key to query
/// If the key is pressed
public bool IsKeyPressed(Keys key) {
// if the queried key is the held key and a repeat should be triggered, return true
if (this.HandleKeyboardRepeats && key == this.heldKey && this.triggerKeyRepeat)
return true;
return this.IsKeyPressedIgnoreRepeats(key);
}
///
/// Returns whether the given key is considered pressed.
/// A key is considered pressed if it was not down the last update call, but is down the current update call. If is true, this behavior is inverted.
/// This has the same behavior as , but ignores keyboard repeat events.
/// If is false, this method does the same as .
///
/// The key to query
/// If the key is pressed
public bool IsKeyPressedIgnoreRepeats(Keys key) {
if (this.InvertPressBehavior)
return this.WasKeyDown(key) && this.IsKeyUp(key);
return this.WasKeyUp(key) && this.IsKeyDown(key);
}
///
/// Returns if the given key is considered pressed, and if the press has not been consumed yet using .
///
/// The key to query.
/// If the key is pressed and the press is not consumed yet.
public bool IsKeyPressedAvailable(Keys key) {
return this.IsKeyPressed(key) && !this.IsPressConsumed(key);
}
///
/// Returns whether the given key is considered pressed, and marks the press as consumed if it is.
/// A key is considered pressed if it was not down the last update call, but is down the current update call.
/// A key press is considered consumed if this method has already returned true previously since the last call.
/// If is true, this method will also return true to signify a key repeat.
///
/// The key to query.
/// If the key is pressed and the press is not consumed yet.
public bool TryConsumeKeyPressed(Keys key) {
if (this.IsKeyPressedAvailable(key)) {
this.consumedPresses.Add((key, -1));
return true;
}
return false;
}
///
/// Returns whether the given modifier key is down.
///
/// The modifier key
/// If the modifier key is down
public bool IsModifierKeyDown(ModifierKey modifier) {
foreach (var key in modifier.GetKeys()) {
if (this.IsKeyDown(key))
return true;
}
return false;
}
///
/// Returns whether the given mouse button is currently down.
///
/// The button to query
/// Whether or not the queried button is down
public bool IsMouseButtonDown(MouseButton button) {
return this.MouseState.GetState(button) == ButtonState.Pressed;
}
///
/// Returns whether the given mouse button is currently up.
///
/// The button to query
/// Whether or not the queried button is up
public bool IsMouseButtonUp(MouseButton button) {
return this.MouseState.GetState(button) == ButtonState.Released;
}
///
/// Returns whether the given mouse button was down the last update call.
///
/// The button to query
/// Whether or not the queried button was down
public bool WasMouseButtonDown(MouseButton button) {
return this.LastMouseState.GetState(button) == ButtonState.Pressed;
}
///
/// Returns whether the given mouse button was up the last update call.
///
/// The button to query
/// Whether or not the queried button was up
public bool WasMouseButtonUp(MouseButton button) {
return this.LastMouseState.GetState(button) == ButtonState.Released;
}
///
/// Returns whether the given mouse button is considered pressed.
/// A mouse button is considered pressed if it was up the last update call, and is down the current update call. If is true, this behavior is inverted.
///
/// The button to query
/// Whether the button is pressed
public bool IsMouseButtonPressed(MouseButton button) {
if (this.InvertPressBehavior)
return this.WasMouseButtonDown(button) && this.IsMouseButtonUp(button);
return this.WasMouseButtonUp(button) && this.IsMouseButtonDown(button);
}
///
/// Returns if the given mouse button is considered pressed, and if the press has not been consumed yet using .
///
/// The button to query.
/// If the button is pressed and the press is not consumed yet.
public bool IsMouseButtonPressedAvailable(MouseButton button) {
return this.IsMouseButtonPressed(button) && !this.IsPressConsumed(button);
}
///
/// Returns whether the given mouse button is considered pressed, and marks the press as consumed if it is.
/// A mouse button is considered pressed if it was up the last update call, and is down the current update call.
/// A mouse button press is considered consumed if this method has already returned true previously since the last call.
///
/// The button to query.
/// If the button is pressed and the press is not consumed yet.
public bool TryConsumeMouseButtonPressed(MouseButton button) {
if (this.IsMouseButtonPressedAvailable(button)) {
this.consumedPresses.Add((button, -1));
return true;
}
return false;
}
///
public bool IsGamepadButtonDown(Buttons button, int index = -1) {
if (index < 0) {
for (var i = 0; i < this.ConnectedGamepads; i++) {
if (this.GetGamepadState(i).GetAnalogValue(button) > this.GamepadButtonDeadzone)
return true;
}
return false;
}
return this.GetGamepadState(index).GetAnalogValue(button) > this.GamepadButtonDeadzone;
}
///
public bool IsGamepadButtonUp(Buttons button, int index = -1) {
if (index < 0) {
for (var i = 0; i < this.ConnectedGamepads; i++) {
if (this.GetGamepadState(i).GetAnalogValue(button) <= this.GamepadButtonDeadzone)
return true;
}
return false;
}
return this.GetGamepadState(index).GetAnalogValue(button) <= this.GamepadButtonDeadzone;
}
///
public bool WasGamepadButtonDown(Buttons button, int index = -1) {
if (index < 0) {
for (var i = 0; i < this.ConnectedGamepads; i++) {
if (this.GetLastGamepadState(i).GetAnalogValue(button) > this.GamepadButtonDeadzone)
return true;
}
return false;
}
return this.GetLastGamepadState(index).GetAnalogValue(button) > this.GamepadButtonDeadzone;
}
///
public bool WasGamepadButtonUp(Buttons button, int index = -1) {
if (index < 0) {
for (var i = 0; i < this.ConnectedGamepads; i++) {
if (this.GetLastGamepadState(i).GetAnalogValue(button) <= this.GamepadButtonDeadzone)
return true;
}
return false;
}
return this.GetLastGamepadState(index).GetAnalogValue(button) <= this.GamepadButtonDeadzone;
}
///
/// Returns whether the given gamepad button on the given index is considered pressed.
/// A gamepad button is considered pressed if it was down the last update call, and is up the current update call. If is true, this behavior is inverted.
/// If is true, this method will also return true to signify a gamepad button repeat.
///
/// The button to query
/// The zero-based index of the gamepad, or -1 for any gamepad
/// Whether the given button is pressed
public bool IsGamepadButtonPressed(Buttons button, int index = -1) {
if (this.HandleGamepadRepeats) {
if (index < 0) {
for (var i = 0; i < this.ConnectedGamepads; i++) {
if (this.heldGamepadButtons[i] == button && this.triggerGamepadButtonRepeat[i])
return true;
}
} else if (this.heldGamepadButtons[index] == button && this.triggerGamepadButtonRepeat[index]) {
return true;
}
}
return this.IsGamepadButtonPressedIgnoreRepeats(button, index);
}
///
/// Returns whether the given key is considered pressed.
/// A gamepad button is considered pressed if it was down the last update call, and is up the current update call. If is true, this behavior is inverted.
/// This has the same behavior as , but ignores gamepad repeat events.
/// If is false, this method does the same as .
///
/// The button to query
/// The zero-based index of the gamepad, or -1 for any gamepad
/// Whether the given button is pressed
public bool IsGamepadButtonPressedIgnoreRepeats(Buttons button, int index = -1) {
if (this.InvertPressBehavior)
return this.WasGamepadButtonDown(button, index) && this.IsGamepadButtonUp(button, index);
return this.WasGamepadButtonUp(button, index) && this.IsGamepadButtonDown(button, index);
}
///
/// Returns if the given gamepad button is considered pressed, and if the press has not been consumed yet using .
///
/// The button to query.
/// The zero-based index of the gamepad, or -1 for any gamepad.
/// Whether the given button is pressed and the press is not consumed yet.
public bool IsGamepadButtonPressedAvailable(Buttons button, int index = -1) {
return this.IsGamepadButtonPressed(button) && !this.IsPressConsumed(button, index) && (index < 0 || !this.IsPressConsumed(button));
}
///
/// Returns whether the given gamepad button on the given index is considered pressed, and marks the press as consumed if it is.
/// A gamepad button is considered pressed if it was down the last update call, and is up the current update call.
/// A gamepad button press is considered consumed if this method has already returned true previously since the last call.
/// If is true, this method will also return true to signify a gamepad button repeat.
///
/// The button to query.
/// The zero-based index of the gamepad, or -1 for any gamepad.
/// Whether the given button is pressed and the press is not consumed yet.
public bool TryConsumeGamepadButtonPressed(Buttons button, int index = -1) {
if (this.IsGamepadButtonPressedAvailable(button, index)) {
this.consumedPresses.Add((button, index));
return true;
}
return false;
}
///
/// Queries for a gesture of a given type that finished during the current update call.
///
/// The type of gesture to query for
/// The resulting gesture sample, or default if there isn't one
/// True if a gesture of the type was found, otherwise false
public bool GetGesture(GestureType type, out GestureSample sample) {
foreach (var gesture in this.Gestures) {
if (type.HasFlag(gesture.GestureType)) {
sample = gesture;
return true;
}
}
sample = default;
return false;
}
///
/// Queries for a gesture of the given type that finished during the current update call.
/// Unlike , the return value of this method takes the into account.
///
/// The type of gesture to query for
/// The resulting gesture sample with the taken into account, or default if there isn't one
/// True if a gesture of the type was found, otherwise false
public bool GetViewportGesture(GestureType type, out GestureSample sample) {
if (this.GetGesture(type, out var original)) {
var offset = new Vector2(this.ViewportOffset.X, this.ViewportOffset.Y);
sample = new GestureSample(original.GestureType, original.Timestamp, original.Position + offset, original.Position2 + offset, original.Delta, original.Delta2);
return true;
}
sample = default;
return false;
}
///
/// Returns if a given control of any kind is down.
/// This is a helper function that can be passed a , or .
///
/// The control whose down state to query
/// The index of the gamepad to query (if applicable), or -1 for any gamepad
/// Whether the given control is down
/// If the passed control isn't of a supported type
public bool IsDown(GenericInput control, int index = -1) {
switch (control.Type) {
case GenericInput.InputType.Keyboard:
return this.IsKeyDown(control);
case GenericInput.InputType.Gamepad:
return this.IsGamepadButtonDown(control, index);
case GenericInput.InputType.Mouse:
return this.IsMouseButtonDown(control);
default:
return false;
}
}
///
/// Returns if a given control of any kind is up.
/// This is a helper function that can be passed a , or .
///
/// The control whose up state to query
/// The index of the gamepad to query (if applicable), or -1 for any gamepad
/// Whether the given control is up.
/// If the passed control isn't of a supported type
public bool IsUp(GenericInput control, int index = -1) {
switch (control.Type) {
case GenericInput.InputType.Keyboard:
return this.IsKeyUp(control);
case GenericInput.InputType.Gamepad:
return this.IsGamepadButtonUp(control, index);
case GenericInput.InputType.Mouse:
return this.IsMouseButtonUp(control);
default:
return true;
}
}
///
/// Returns if a given control of any kind is pressed.
/// This is a helper function that can be passed a , or .
///
/// The control whose pressed state to query
/// The index of the gamepad to query (if applicable), or -1 for any gamepad
/// Whether the given control is pressed.
/// If the passed control isn't of a supported type
public bool IsPressed(GenericInput control, int index = -1) {
switch (control.Type) {
case GenericInput.InputType.Keyboard:
return this.IsKeyPressed(control);
case GenericInput.InputType.Gamepad:
return this.IsGamepadButtonPressed(control, index);
case GenericInput.InputType.Mouse:
return this.IsMouseButtonPressed(control);
default:
return false;
}
}
///
/// Returns if a given control of any kind is pressed, and if the press has not been consumed yet using .
///
/// The control whose pressed state to query.
/// The index of the gamepad to query (if applicable), or -1 for any gamepad.
/// Whether the given control is pressed and the press is not consumed yet.
public bool IsPressedAvailable(GenericInput control, int index = -1) {
switch (control.Type) {
case GenericInput.InputType.Keyboard:
return this.IsKeyPressedAvailable(control);
case GenericInput.InputType.Gamepad:
return this.IsGamepadButtonPressedAvailable(control, index);
case GenericInput.InputType.Mouse:
return this.IsMouseButtonPressedAvailable(control);
default:
return false;
}
}
///
/// Returns if a given control of any kind is pressed and available, and marks the press as consumed if it is.
/// This is a helper function that can be passed a , or .
///
/// The control whose pressed state to query.
/// The index of the gamepad to query (if applicable), or -1 for any gamepad.
/// Whether the given control is pressed and the press is not consumed yet.
public bool TryConsumePressed(GenericInput control, int index = -1) {
switch (control.Type) {
case GenericInput.InputType.Keyboard:
return this.TryConsumeKeyPressed(control);
case GenericInput.InputType.Gamepad:
return this.TryConsumeGamepadButtonPressed(control, index);
case GenericInput.InputType.Mouse:
return this.TryConsumeMouseButtonPressed(control);
default:
return false;
}
}
///
public bool IsAnyDown(params GenericInput[] controls) {
foreach (var control in controls) {
if (this.IsDown(control))
return true;
}
return false;
}
///
public bool IsAnyUp(params GenericInput[] controls) {
foreach (var control in controls) {
if (this.IsUp(control))
return true;
}
return false;
}
///
public bool IsAnyPressed(params GenericInput[] controls) {
foreach (var control in controls) {
if (this.IsPressed(control))
return true;
}
return false;
}
///
public bool IsAnyPressedAvailable(params GenericInput[] controls) {
foreach (var control in controls) {
if (this.IsPressedAvailable(control))
return true;
}
return false;
}
///
/// Tries to retrieve the amount of time that a given has been held down for.
/// If the input is currently down, this method returns true and the amount of time that it has been down for is stored in .
///
/// The input whose down time to query.
/// The resulting down time, or if the input is not being held.
/// The index of the gamepad to query (if applicable), or -1 for any gamepad.
/// Whether the input is currently being held.
public bool TryGetDownTime(GenericInput input, out TimeSpan downTime, int index = -1) {
if (this.inputsDown.TryGetValue((input, index), out var start)) {
downTime = DateTime.UtcNow - start;
return true;
}
return false;
}
///
/// Returns the amount of time that a given has been held down for.
/// If this input isn't currently own, this method returns .
///
/// The input whose down time to query.
/// The index of the gamepad to query (if applicable), or -1 for any gamepad.
/// The resulting down time, or if the input is not being held.
public TimeSpan GetDownTime(GenericInput input, int index = -1) {
this.TryGetDownTime(input, out var time, index);
return time;
}
///
/// Returns whether the given 's press state has been consumed using .
/// If an input has been consumed, and will always return false for that input.
///
/// The input to query.
/// The index of the gamepad to query (if applicable), or -1 for any gamepad.
/// Whether a press has been consumed for the given input.
public bool IsPressConsumed(GenericInput input, int index = -1) {
return this.consumedPresses.Contains((input, index));
}
private void AccumulateDown(GenericInput input, int index) {
this.inputsDownAccum.Add((input, index), this.inputsDown.TryGetValue((input, index), out var start) ? start : DateTime.UtcNow);
}
///
/// Helper function to enable gestures for a easily.
/// Note that, if other gestures were previously enabled, they will not get overridden.
///
/// The gestures to enable
public static void EnableGestures(params GestureType[] gestures) {
foreach (var gesture in gestures)
TouchPanel.EnabledGestures |= gesture;
}
///
/// Helper function to disable gestures for a easily.
///
/// The gestures to disable
public static void DisableGestures(params GestureType[] gestures) {
foreach (var gesture in gestures)
TouchPanel.EnabledGestures &= ~gesture;
}
///
/// Helper function to enable or disable the given gestures for a easily.
/// This method is equivalent to calling if the enabled value is true and calling if it is false.
/// Note that, if other gestures were previously enabled, they will not get overridden.
///
/// Whether to enable or disable the gestures
/// The gestures to enable or disable
public static void SetGesturesEnabled(bool enabled, params GestureType[] gestures) {
if (enabled) {
InputHandler.EnableGestures(gestures);
} else {
InputHandler.DisableGestures(gestures);
}
}
}
}