Ryujinx-uplift/Ryujinx.HLE/HOS/Applets/SoftwareKeyboard/SoftwareKeyboardRendererBase.cs
riperiperi e211c3f00a
UI: Add Metal surface creation for MoltenVK (#3980)
* Initial implementation of metal surface across UIs

* Fix SDL2 on windows

* Update Ryujinx/Ryujinx.csproj

Co-authored-by: Mary-nyan <thog@protonmail.com>

* Address Feedback

Co-authored-by: Mary-nyan <thog@protonmail.com>
2022-12-06 19:00:25 -03:00

592 lines
23 KiB
C#

using Ryujinx.HLE.Ui;
using Ryujinx.Memory;
using SixLabors.ImageSharp;
using SixLabors.ImageSharp.Processing;
using SixLabors.ImageSharp.Drawing.Processing;
using SixLabors.Fonts;
using System;
using System.Diagnostics;
using System.IO;
using System.Numerics;
using System.Reflection;
using System.Runtime.InteropServices;
using SixLabors.ImageSharp.PixelFormats;
namespace Ryujinx.HLE.HOS.Applets.SoftwareKeyboard
{
/// <summary>
/// Base class that generates the graphics for the software keyboard applet during inline mode.
/// </summary>
internal class SoftwareKeyboardRendererBase
{
public const int TextBoxBlinkThreshold = 8;
const string MessageText = "Please use the keyboard to input text";
const string AcceptText = "Accept";
const string CancelText = "Cancel";
const string ControllerToggleText = "Toggle input";
private readonly object _bufferLock = new object();
private RenderingSurfaceInfo _surfaceInfo = null;
private Image<Argb32> _surface = null;
private byte[] _bufferData = null;
private Image _ryujinxLogo = null;
private Image _padAcceptIcon = null;
private Image _padCancelIcon = null;
private Image _keyModeIcon = null;
private float _textBoxOutlineWidth;
private float _padPressedPenWidth;
private Color _textNormalColor;
private Color _textSelectedColor;
private Color _textOverCursorColor;
private IBrush _panelBrush;
private IBrush _disabledBrush;
private IBrush _cursorBrush;
private IBrush _selectionBoxBrush;
private Pen _textBoxOutlinePen;
private Pen _cursorPen;
private Pen _selectionBoxPen;
private Pen _padPressedPen;
private int _inputTextFontSize;
private Font _messageFont;
private Font _inputTextFont;
private Font _labelsTextFont;
private RectangleF _panelRectangle;
private Point _logoPosition;
private float _messagePositionY;
public SoftwareKeyboardRendererBase(IHostUiTheme uiTheme)
{
int ryujinxLogoSize = 32;
string ryujinxIconPath = "Ryujinx.HLE.HOS.Applets.SoftwareKeyboard.Resources.Logo_Ryujinx.png";
_ryujinxLogo = LoadResource(Assembly.GetExecutingAssembly(), ryujinxIconPath, ryujinxLogoSize, ryujinxLogoSize);
string padAcceptIconPath = "Ryujinx.HLE.HOS.Applets.SoftwareKeyboard.Resources.Icon_BtnA.png";
string padCancelIconPath = "Ryujinx.HLE.HOS.Applets.SoftwareKeyboard.Resources.Icon_BtnB.png";
string keyModeIconPath = "Ryujinx.HLE.HOS.Applets.SoftwareKeyboard.Resources.Icon_KeyF6.png";
_padAcceptIcon = LoadResource(Assembly.GetExecutingAssembly(), padAcceptIconPath , 0, 0);
_padCancelIcon = LoadResource(Assembly.GetExecutingAssembly(), padCancelIconPath , 0, 0);
_keyModeIcon = LoadResource(Assembly.GetExecutingAssembly(), keyModeIconPath , 0, 0);
Color panelColor = ToColor(uiTheme.DefaultBackgroundColor, 255);
Color panelTransparentColor = ToColor(uiTheme.DefaultBackgroundColor, 150);
Color borderColor = ToColor(uiTheme.DefaultBorderColor);
Color selectionBackgroundColor = ToColor(uiTheme.SelectionBackgroundColor);
_textNormalColor = ToColor(uiTheme.DefaultForegroundColor);
_textSelectedColor = ToColor(uiTheme.SelectionForegroundColor);
_textOverCursorColor = ToColor(uiTheme.DefaultForegroundColor, null, true);
float cursorWidth = 2;
_textBoxOutlineWidth = 2;
_padPressedPenWidth = 2;
_panelBrush = new SolidBrush(panelColor);
_disabledBrush = new SolidBrush(panelTransparentColor);
_cursorBrush = new SolidBrush(_textNormalColor);
_selectionBoxBrush = new SolidBrush(selectionBackgroundColor);
_textBoxOutlinePen = new Pen(borderColor, _textBoxOutlineWidth);
_cursorPen = new Pen(_textNormalColor, cursorWidth);
_selectionBoxPen = new Pen(selectionBackgroundColor, cursorWidth);
_padPressedPen = new Pen(borderColor, _padPressedPenWidth);
_inputTextFontSize = 20;
CreateFonts(uiTheme.FontFamily);
}
private void CreateFonts(string uiThemeFontFamily)
{
// Try a list of fonts in case any of them is not available in the system.
string[] availableFonts = new string[]
{
uiThemeFontFamily,
"Liberation Sans",
"FreeSans",
"DejaVu Sans",
"Lucida Grande"
};
foreach (string fontFamily in availableFonts)
{
try
{
_messageFont = SystemFonts.CreateFont(fontFamily, 26, FontStyle.Regular);
_inputTextFont = SystemFonts.CreateFont(fontFamily, _inputTextFontSize, FontStyle.Regular);
_labelsTextFont = SystemFonts.CreateFont(fontFamily, 24, FontStyle.Regular);
return;
}
catch
{
}
}
throw new Exception($"None of these fonts were found in the system: {String.Join(", ", availableFonts)}!");
}
private Color ToColor(ThemeColor color, byte? overrideAlpha = null, bool flipRgb = false)
{
var a = (byte)(color.A * 255);
var r = (byte)(color.R * 255);
var g = (byte)(color.G * 255);
var b = (byte)(color.B * 255);
if (flipRgb)
{
r = (byte)(255 - r);
g = (byte)(255 - g);
b = (byte)(255 - b);
}
return Color.FromRgba(r, g, b, overrideAlpha.GetValueOrDefault(a));
}
private Image LoadResource(Assembly assembly, string resourcePath, int newWidth, int newHeight)
{
Stream resourceStream = assembly.GetManifestResourceStream(resourcePath);
return LoadResource(resourceStream, newWidth, newHeight);
}
private Image LoadResource(Stream resourceStream, int newWidth, int newHeight)
{
Debug.Assert(resourceStream != null);
var image = Image.Load(resourceStream);
if (newHeight != 0 && newWidth != 0)
{
image.Mutate(x => x.Resize(newWidth, newHeight, KnownResamplers.Lanczos3));
}
return image;
}
private void SetGraphicsOptions(IImageProcessingContext context)
{
context.GetGraphicsOptions().Antialias = true;
context.GetShapeGraphicsOptions().GraphicsOptions.Antialias = true;
}
private void DrawImmutableElements()
{
if (_surface == null)
{
return;
}
_surface.Mutate(context =>
{
SetGraphicsOptions(context);
context.Clear(Color.Transparent);
context.Fill(_panelBrush, _panelRectangle);
context.DrawImage(_ryujinxLogo, _logoPosition, 1);
float halfWidth = _panelRectangle.Width / 2;
float buttonsY = _panelRectangle.Y + 185;
PointF disableButtonPosition = new PointF(halfWidth + 180, buttonsY);
DrawControllerToggle(context, disableButtonPosition);
});
}
public void DrawMutableElements(SoftwareKeyboardUiState state)
{
if (_surface == null)
{
return;
}
_surface.Mutate(context =>
{
var messageRectangle = MeasureString(MessageText, _messageFont);
float messagePositionX = (_panelRectangle.Width - messageRectangle.Width) / 2 - messageRectangle.X;
float messagePositionY = _messagePositionY - messageRectangle.Y;
var messagePosition = new PointF(messagePositionX, messagePositionY);
var messageBoundRectangle = new RectangleF(messagePositionX, messagePositionY, messageRectangle.Width, messageRectangle.Height);
SetGraphicsOptions(context);
context.Fill(_panelBrush, messageBoundRectangle);
context.DrawText(MessageText, _messageFont, _textNormalColor, messagePosition);
if (!state.TypingEnabled)
{
// Just draw a semi-transparent rectangle on top to fade the component with the background.
// TODO (caian): This will not work if one decides to add make background semi-transparent as well.
context.Fill(_disabledBrush, messageBoundRectangle);
}
DrawTextBox(context, state);
float halfWidth = _panelRectangle.Width / 2;
float buttonsY = _panelRectangle.Y + 185;
PointF acceptButtonPosition = new PointF(halfWidth - 180, buttonsY);
PointF cancelButtonPosition = new PointF(halfWidth , buttonsY);
PointF disableButtonPosition = new PointF(halfWidth + 180, buttonsY);
DrawPadButton(context, acceptButtonPosition, _padAcceptIcon, AcceptText, state.AcceptPressed, state.ControllerEnabled);
DrawPadButton(context, cancelButtonPosition, _padCancelIcon, CancelText, state.CancelPressed, state.ControllerEnabled);
});
}
public void CreateSurface(RenderingSurfaceInfo surfaceInfo)
{
if (_surfaceInfo != null)
{
return;
}
_surfaceInfo = surfaceInfo;
Debug.Assert(_surfaceInfo.ColorFormat == Services.SurfaceFlinger.ColorFormat.A8B8G8R8);
// Use the whole area of the image to draw, even the alignment, otherwise it may shear the final
// image if the pitch is different.
uint totalWidth = _surfaceInfo.Pitch / 4;
uint totalHeight = _surfaceInfo.Size / _surfaceInfo.Pitch;
Debug.Assert(_surfaceInfo.Width <= totalWidth);
Debug.Assert(_surfaceInfo.Height <= totalHeight);
Debug.Assert(_surfaceInfo.Pitch * _surfaceInfo.Height <= _surfaceInfo.Size);
_surface = new Image<Argb32>((int)totalWidth, (int)totalHeight);
ComputeConstants();
DrawImmutableElements();
}
private void ComputeConstants()
{
int totalWidth = (int)_surfaceInfo.Width;
int totalHeight = (int)_surfaceInfo.Height;
int panelHeight = 240;
int panelPositionY = totalHeight - panelHeight;
_panelRectangle = new RectangleF(0, panelPositionY, totalWidth, panelHeight);
_messagePositionY = panelPositionY + 60;
int logoPositionX = (totalWidth - _ryujinxLogo.Width) / 2;
int logoPositionY = panelPositionY + 18;
_logoPosition = new Point(logoPositionX, logoPositionY);
}
private RectangleF MeasureString(string text, Font font)
{
RendererOptions options = new RendererOptions(font);
FontRectangle rectangle = TextMeasurer.Measure(text == "" ? " " : text, options);
if (text == "")
{
return new RectangleF(0, rectangle.Y, 0, rectangle.Height);
}
else
{
return new RectangleF(rectangle.X, rectangle.Y, rectangle.Width, rectangle.Height);
}
}
private void DrawTextBox(IImageProcessingContext context, SoftwareKeyboardUiState state)
{
var inputTextRectangle = MeasureString(state.InputText, _inputTextFont);
float boxWidth = (int)(Math.Max(300, inputTextRectangle.Width + inputTextRectangle.X + 8));
float boxHeight = 32;
float boxY = _panelRectangle.Y + 110;
float boxX = (int)((_panelRectangle.Width - boxWidth) / 2);
RectangleF boxRectangle = new RectangleF(boxX, boxY, boxWidth, boxHeight);
RectangleF boundRectangle = new RectangleF(_panelRectangle.X, boxY - _textBoxOutlineWidth,
_panelRectangle.Width, boxHeight + 2 * _textBoxOutlineWidth);
context.Fill(_panelBrush, boundRectangle);
context.Draw(_textBoxOutlinePen, boxRectangle);
float inputTextX = (_panelRectangle.Width - inputTextRectangle.Width) / 2 - inputTextRectangle.X;
float inputTextY = boxY + 5;
var inputTextPosition = new PointF(inputTextX, inputTextY);
context.DrawText(state.InputText, _inputTextFont, _textNormalColor, inputTextPosition);
// Draw the cursor on top of the text and redraw the text with a different color if necessary.
Color cursorTextColor;
IBrush cursorBrush;
Pen cursorPen;
float cursorPositionYTop = inputTextY + 1;
float cursorPositionYBottom = cursorPositionYTop + _inputTextFontSize + 1;
float cursorPositionXLeft;
float cursorPositionXRight;
bool cursorVisible = false;
if (state.CursorBegin != state.CursorEnd)
{
Debug.Assert(state.InputText.Length > 0);
cursorTextColor = _textSelectedColor;
cursorBrush = _selectionBoxBrush;
cursorPen = _selectionBoxPen;
string textUntilBegin = state.InputText.Substring(0, state.CursorBegin);
string textUntilEnd = state.InputText.Substring(0, state.CursorEnd);
var selectionBeginRectangle = MeasureString(textUntilBegin, _inputTextFont);
var selectionEndRectangle = MeasureString(textUntilEnd , _inputTextFont);
cursorVisible = true;
cursorPositionXLeft = inputTextX + selectionBeginRectangle.Width + selectionBeginRectangle.X;
cursorPositionXRight = inputTextX + selectionEndRectangle.Width + selectionEndRectangle.X;
}
else
{
cursorTextColor = _textOverCursorColor;
cursorBrush = _cursorBrush;
cursorPen = _cursorPen;
if (state.TextBoxBlinkCounter < TextBoxBlinkThreshold)
{
// Show the blinking cursor.
int cursorBegin = Math.Min(state.InputText.Length, state.CursorBegin);
string textUntilCursor = state.InputText.Substring(0, cursorBegin);
var cursorTextRectangle = MeasureString(textUntilCursor, _inputTextFont);
cursorVisible = true;
cursorPositionXLeft = inputTextX + cursorTextRectangle.Width + cursorTextRectangle.X;
if (state.OverwriteMode)
{
// The blinking cursor is in overwrite mode so it takes the size of a character.
if (state.CursorBegin < state.InputText.Length)
{
textUntilCursor = state.InputText.Substring(0, cursorBegin + 1);
cursorTextRectangle = MeasureString(textUntilCursor, _inputTextFont);
cursorPositionXRight = inputTextX + cursorTextRectangle.Width + cursorTextRectangle.X;
}
else
{
cursorPositionXRight = cursorPositionXLeft + _inputTextFontSize / 2;
}
}
else
{
// The blinking cursor is in insert mode so it is only a line.
cursorPositionXRight = cursorPositionXLeft;
}
}
else
{
cursorPositionXLeft = inputTextX;
cursorPositionXRight = inputTextX;
}
}
if (state.TypingEnabled && cursorVisible)
{
float cursorWidth = cursorPositionXRight - cursorPositionXLeft;
float cursorHeight = cursorPositionYBottom - cursorPositionYTop;
if (cursorWidth == 0)
{
PointF[] points = new PointF[]
{
new PointF(cursorPositionXLeft, cursorPositionYTop),
new PointF(cursorPositionXLeft, cursorPositionYBottom),
};
context.DrawLines(cursorPen, points);
}
else
{
var cursorRectangle = new RectangleF(cursorPositionXLeft, cursorPositionYTop, cursorWidth, cursorHeight);
context.Draw(cursorPen , cursorRectangle);
context.Fill(cursorBrush, cursorRectangle);
Image<Argb32> textOverCursor = new Image<Argb32>((int)cursorRectangle.Width, (int)cursorRectangle.Height);
textOverCursor.Mutate(context =>
{
var textRelativePosition = new PointF(inputTextPosition.X - cursorRectangle.X, inputTextPosition.Y - cursorRectangle.Y);
context.DrawText(state.InputText, _inputTextFont, cursorTextColor, textRelativePosition);
});
var cursorPosition = new Point((int)cursorRectangle.X, (int)cursorRectangle.Y);
context.DrawImage(textOverCursor, cursorPosition, 1);
}
}
else if (!state.TypingEnabled)
{
// Just draw a semi-transparent rectangle on top to fade the component with the background.
// TODO (caian): This will not work if one decides to add make background semi-transparent as well.
context.Fill(_disabledBrush, boundRectangle);
}
}
private void DrawPadButton(IImageProcessingContext context, PointF point, Image icon, string label, bool pressed, bool enabled)
{
// Use relative positions so we can center the the entire drawing later.
float iconX = 0;
float iconY = 0;
float iconWidth = icon.Width;
float iconHeight = icon.Height;
var labelRectangle = MeasureString(label, _labelsTextFont);
float labelPositionX = iconWidth + 8 - labelRectangle.X;
float labelPositionY = 3;
float fullWidth = labelPositionX + labelRectangle.Width + labelRectangle.X;
float fullHeight = iconHeight;
// Convert all relative positions into absolute.
float originX = (int)(point.X - fullWidth / 2);
float originY = (int)(point.Y - fullHeight / 2);
iconX += originX;
iconY += originY;
var iconPosition = new Point((int)iconX, (int)iconY);
var labelPosition = new PointF(labelPositionX + originX, labelPositionY + originY);
var selectedRectangle = new RectangleF(originX - 2 * _padPressedPenWidth, originY - 2 * _padPressedPenWidth,
fullWidth + 4 * _padPressedPenWidth, fullHeight + 4 * _padPressedPenWidth);
var boundRectangle = new RectangleF(originX, originY, fullWidth, fullHeight);
boundRectangle.Inflate(4 * _padPressedPenWidth, 4 * _padPressedPenWidth);
context.Fill(_panelBrush, boundRectangle);
context.DrawImage(icon, iconPosition, 1);
context.DrawText(label, _labelsTextFont, _textNormalColor, labelPosition);
if (enabled)
{
if (pressed)
{
context.Draw(_padPressedPen, selectedRectangle);
}
}
else
{
// Just draw a semi-transparent rectangle on top to fade the component with the background.
// TODO (caian): This will not work if one decides to add make background semi-transparent as well.
context.Fill(_disabledBrush, boundRectangle);
}
}
private void DrawControllerToggle(IImageProcessingContext context, PointF point)
{
var labelRectangle = MeasureString(ControllerToggleText, _labelsTextFont);
// Use relative positions so we can center the the entire drawing later.
float keyWidth = _keyModeIcon.Width;
float keyHeight = _keyModeIcon.Height;
float labelPositionX = keyWidth + 8 - labelRectangle.X;
float labelPositionY = -labelRectangle.Y - 1;
float keyX = 0;
float keyY = (int)((labelPositionY + labelRectangle.Height - keyHeight) / 2);
float fullWidth = labelPositionX + labelRectangle.Width;
float fullHeight = Math.Max(labelPositionY + labelRectangle.Height, keyHeight);
// Convert all relative positions into absolute.
float originX = (int)(point.X - fullWidth / 2);
float originY = (int)(point.Y - fullHeight / 2);
keyX += originX;
keyY += originY;
var labelPosition = new PointF(labelPositionX + originX, labelPositionY + originY);
var overlayPosition = new Point((int)keyX, (int)keyY);
context.DrawImage(_keyModeIcon, overlayPosition, 1);
context.DrawText(ControllerToggleText, _labelsTextFont, _textNormalColor, labelPosition);
}
public void CopyImageToBuffer()
{
lock (_bufferLock)
{
if (_surface == null)
{
return;
}
// Convert the pixel format used in the image to the one used in the Switch surface.
if (!_surface.TryGetSinglePixelSpan(out Span<Argb32> pixels))
{
return;
}
_bufferData = MemoryMarshal.AsBytes(pixels).ToArray();
Span<uint> dataConvert = MemoryMarshal.Cast<byte, uint>(_bufferData);
Debug.Assert(_bufferData.Length == _surfaceInfo.Size);
for (int i = 0; i < dataConvert.Length; i++)
{
dataConvert[i] = BitOperations.RotateRight(dataConvert[i], 8);
}
}
}
public bool WriteBufferToMemory(IVirtualMemoryManager destination, ulong position)
{
lock (_bufferLock)
{
if (_bufferData == null)
{
return false;
}
try
{
destination.Write(position, _bufferData);
}
catch
{
return false;
}
return true;
}
}
}
}