mirror of
https://git.naxdy.org/Mirror/Ryujinx.git
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12badfffb9
* hid: Initial Keyboard Support This adds basic hid keyboard support. Because of OpenTK.Input limitations, some specials keys aren't mapped. * Fix code style * Fix for loops code style * Make hid keyboard feature toggleable * Address comments * Fix 2 other nits * Apply jd's suggestion
173 lines
6.3 KiB
C#
173 lines
6.3 KiB
C#
using Ryujinx.Common;
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using Ryujinx.HLE.HOS;
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namespace Ryujinx.HLE.Input
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{
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public partial class Hid
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{
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private Switch _device;
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public HidControllerBase PrimaryController { get; private set; }
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internal long HidPosition;
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public Hid(Switch device, long hidPosition)
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{
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_device = device;
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HidPosition = hidPosition;
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device.Memory.FillWithZeros(hidPosition, Horizon.HidSize);
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}
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public void InitilizePrimaryController(HidControllerType controllerType)
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{
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HidControllerId controllerId = controllerType == HidControllerType.Handheld ?
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HidControllerId.ControllerHandheld : HidControllerId.ControllerPlayer1;
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if (controllerType == HidControllerType.ProController)
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{
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PrimaryController = new HidProController(_device);
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}
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else
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{
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PrimaryController = new HidNpadController(controllerType,
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_device,
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(NpadColor.BodyNeonRed, NpadColor.BodyNeonRed),
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(NpadColor.ButtonsNeonBlue, NpadColor.ButtonsNeonBlue));
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}
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PrimaryController.Connect(controllerId);
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}
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public void InitilizeKeyboard()
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{
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_device.Memory.FillWithZeros(HidPosition + HidKeyboardOffset, HidKeyboardSize);
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}
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public HidControllerButtons UpdateStickButtons(
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HidJoystickPosition leftStick,
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HidJoystickPosition rightStick)
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{
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HidControllerButtons result = 0;
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if (rightStick.Dx < 0)
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{
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result |= HidControllerButtons.RStickLeft;
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}
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if (rightStick.Dx > 0)
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{
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result |= HidControllerButtons.RStickRight;
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}
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if (rightStick.Dy < 0)
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{
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result |= HidControllerButtons.RStickDown;
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}
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if (rightStick.Dy > 0)
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{
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result |= HidControllerButtons.RStickUp;
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}
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if (leftStick.Dx < 0)
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{
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result |= HidControllerButtons.LStickLeft;
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}
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if (leftStick.Dx > 0)
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{
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result |= HidControllerButtons.LStickRight;
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}
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if (leftStick.Dy < 0)
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{
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result |= HidControllerButtons.LStickDown;
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}
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if (leftStick.Dy > 0)
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{
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result |= HidControllerButtons.LStickUp;
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}
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return result;
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}
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public void SetTouchPoints(params HidTouchPoint[] points)
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{
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long touchScreenOffset = HidPosition + HidTouchScreenOffset;
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long lastEntry = _device.Memory.ReadInt64(touchScreenOffset + 0x10);
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long currEntry = (lastEntry + 1) % HidEntryCount;
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long timestamp = GetTimestamp();
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_device.Memory.WriteInt64(touchScreenOffset + 0x00, timestamp);
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_device.Memory.WriteInt64(touchScreenOffset + 0x08, HidEntryCount);
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_device.Memory.WriteInt64(touchScreenOffset + 0x10, currEntry);
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_device.Memory.WriteInt64(touchScreenOffset + 0x18, HidEntryCount - 1);
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_device.Memory.WriteInt64(touchScreenOffset + 0x20, timestamp);
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long touchEntryOffset = touchScreenOffset + HidTouchHeaderSize;
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long lastEntryOffset = touchEntryOffset + lastEntry * HidTouchEntrySize;
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long sampleCounter = _device.Memory.ReadInt64(lastEntryOffset) + 1;
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touchEntryOffset += currEntry * HidTouchEntrySize;
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_device.Memory.WriteInt64(touchEntryOffset + 0x00, sampleCounter);
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_device.Memory.WriteInt64(touchEntryOffset + 0x08, points.Length);
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touchEntryOffset += HidTouchEntryHeaderSize;
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const int padding = 0;
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int index = 0;
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foreach (HidTouchPoint point in points)
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{
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_device.Memory.WriteInt64(touchEntryOffset + 0x00, sampleCounter);
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_device.Memory.WriteInt32(touchEntryOffset + 0x08, padding);
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_device.Memory.WriteInt32(touchEntryOffset + 0x0c, index++);
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_device.Memory.WriteInt32(touchEntryOffset + 0x10, point.X);
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_device.Memory.WriteInt32(touchEntryOffset + 0x14, point.Y);
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_device.Memory.WriteInt32(touchEntryOffset + 0x18, point.DiameterX);
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_device.Memory.WriteInt32(touchEntryOffset + 0x1c, point.DiameterY);
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_device.Memory.WriteInt32(touchEntryOffset + 0x20, point.Angle);
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_device.Memory.WriteInt32(touchEntryOffset + 0x24, padding);
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touchEntryOffset += HidTouchEntryTouchSize;
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}
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}
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public void WriteKeyboard(HidKeyboard keyboard)
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{
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long keyboardOffset = HidPosition + HidKeyboardOffset;
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long lastEntry = _device.Memory.ReadInt64(keyboardOffset + 0x10);
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long currEntry = (lastEntry + 1) % HidEntryCount;
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long timestamp = GetTimestamp();
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_device.Memory.WriteInt64(keyboardOffset + 0x00, timestamp);
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_device.Memory.WriteInt64(keyboardOffset + 0x08, HidEntryCount);
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_device.Memory.WriteInt64(keyboardOffset + 0x10, currEntry);
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_device.Memory.WriteInt64(keyboardOffset + 0x18, HidEntryCount - 1);
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long keyboardEntryOffset = keyboardOffset + HidKeyboardHeaderSize;
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long lastEntryOffset = keyboardEntryOffset + lastEntry * HidKeyboardEntrySize;
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long sampleCounter = _device.Memory.ReadInt64(lastEntryOffset);
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keyboardEntryOffset += currEntry * HidKeyboardEntrySize;
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_device.Memory.WriteInt64(keyboardEntryOffset + 0x00, sampleCounter + 1);
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_device.Memory.WriteInt64(keyboardEntryOffset + 0x08, sampleCounter);
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_device.Memory.WriteInt64(keyboardEntryOffset + 0x10, keyboard.Modifier);
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for (int i = 0; i < keyboard.Keys.Length; i++)
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{
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_device.Memory.WriteInt32(keyboardEntryOffset + 0x18 + (i * 4), keyboard.Keys[i]);
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}
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}
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internal static long GetTimestamp()
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{
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return PerformanceCounter.ElapsedMilliseconds * 19200;
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}
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}
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}
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