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Terminal.Gui/Examples/UICatalog/Scenarios/Images.cs
Copilot 2be8397203 Remove legacy drivers, simplify architecture, and reorganize codebase structure (#4270) 
* Initial plan

* Remove legacy drivers and reorganize v2 architecture

Co-authored-by: tig <585482+tig@users.noreply.github.com>

* Extract Windows key helper utilities and fix build

Co-authored-by: tig <585482+tig@users.noreply.github.com>

* Fix all test references to legacy drivers

Co-authored-by: tig <585482+tig@users.noreply.github.com>

* Update documentation to reflect new driver architecture

Co-authored-by: tig <585482+tig@users.noreply.github.com>

* Remove V2.cd diagram file

Co-authored-by: tig <585482+tig@users.noreply.github.com>

* Fix test failures: support legacy drivers and update exception handling

Co-authored-by: tig <585482+tig@users.noreply.github.com>

* updated driver names

* Move V2 tests from ConsoleDrivers/V2 to proper locations

Co-authored-by: tig <585482+tig@users.noreply.github.com>

* Rename ApplicationV2 to ModernApplicationImpl to remove v2 terminology

Co-authored-by: tig <585482+tig@users.noreply.github.com>

* Remove V2 terminology from test drivers and FakeDriver classes

Co-authored-by: tig <585482+tig@users.noreply.github.com>

* Merge ModernApplicationImpl into ApplicationImpl and move to App folder

Co-authored-by: tig <585482+tig@users.noreply.github.com>

* Create modern FakeDriver with component factory architecture in Terminal.Gui project

Co-authored-by: tig <585482+tig@users.noreply.github.com>

* Refactor: Move non-platform-dependent code from /Drivers to /App

Co-authored-by: tig <585482+tig@users.noreply.github.com>

* Code cleanup and org

* Unit test reorg

* Refactor MainLoop architecture: rename classes and enhance documentation for clarity

Co-authored-by: tig <585482+tig@users.noreply.github.com>

* Add comprehensive FakeDriver tests (WIP - some tests need fixes)

Co-authored-by: tig <585482+tig@users.noreply.github.com>

* Fixed FakeDriver build failures

* Fix all FakeDriver test failures - Application.Top creation and clipboard behaviors

Co-authored-by: tig <585482+tig@users.noreply.github.com>

* Fixed FakeDriver build failures2

* Remove hanging legacy FakeDriver tests that use Console.MockKeyPresses

Co-authored-by: tig <585482+tig@users.noreply.github.com>

* Fixed some tests

* Fixed more tests

* Fixed more tests

* Fix bad copilot (#4277)

* Update Terminal.Gui/Drivers/FakeDriver/FakeConsoleOutput.cs

Co-authored-by: Copilot <175728472+Copilot@users.noreply.github.com>

* Refactor Application Init and Update Tests

Refactored `Application.Init` to improve initialization logic:
- Added fallback to `ForceDriver` when `driverName` is null.
- Changed repeated `Init` calls to throw `InvalidOperationException`.
- Updated `_driverName` assignment logic for robustness.

Enhanced `IConsoleDriver` with detailed remarks on implementations.

Revised test cases to align with updated `Application.Init` behavior:
- Replaced `FakeDriver` with `null` and `driverName: "fake"`.
- Skipped or commented out tests incompatible with new logic.
- Improved formatting and removed redundant setup code.

Improved code style and consistency across the codebase:
- Standardized parameter formatting and spacing.
- Removed outdated comments and unused code.

General cleanup to enhance readability and maintainability.

* Warp fix copilot (#4278)

* More fixes (#4279)

* Fixes/works around test failures and temporarily disable failing test

Updated `FakeDriver` to set `RunningUnitTests` to `true` and initialize dimensions using `FakeConsole`. Modified `TestRespondersDisposedAttribute` to set `ConsoleDriver.RunningUnitTests` in the `Before` method, ensuring proper behavior during unit tests.

Temporarily disabled the `Button_CanFocus_False_Raises_Accepted_Correctly` test in `ViewCommandTests` by adding a `Skip` parameter to the `[Fact]` attribute, referencing issue #4270.

* Allow all tests to run despite failures in UnitTests

Modified the `dotnet test` command in the `Run UnitTestsParallelizable` step to set `xunit.stopOnFail` to `false`. This ensures that the test runner does not stop execution on the first failure, allowing all tests to execute regardless of individual test outcomes.

* Refactor ApplicationScreenTests for cleaner setup/teardown

Refactored `ClearContents_Called_When_Top_Frame_Changes` test:
- Added `[AutoInitShutdown]` attribute for automatic lifecycle management.
- Replaced manual `Application.Init` and `Application.Top` setup with `Application.Begin` and `RunState`.
- Simplified event handling by defining `ClearedContents` handler inline.
- Removed explicit cleanup logic, relying on `Application.End` for teardown.

Updated `using` directives to include `UnitTests` namespace.

* Attempt to fix intermittent local test failures.

Update ApplicationImpl initialization parameter

Changed the second parameter of the `impl.Init` method in the
`FakeApplicationFactory` class from `"dotnet"` to `"fake"`.

* Code cleanup to cause Action to re-run.

* Stop tests on first failure in UnitTestsParallelizable

Updated the `dotnet test` command in `unit-tests.yml` to set the `xunit.stopOnFail` parameter to `true`. This change ensures that test execution halts immediately upon encountering a failure, allowing quicker identification and resolution of issues. Note that this may prevent the full test suite from running in the event of a failure.

* Allow all tests to run despite failures in CI

Updated `unit-tests.yml` to set `xunit.stopOnFail` to `false`
in both `Run UnitTests` and `Run UnitTestsParallelizable`
steps. This ensures that the test runner does not stop
execution on the first test failure, allowing all tests
to complete even if some fail.

* Enhance RuneExtensions docs and update user dictionary

Updated the `<remarks>` section in `RuneExtensions.GetColumns` to include details about the `wcwidth` implementation and improved readability with `<para>` tags. Added `wcwidth` to the user dictionary in `Terminal.sln.DotSettings` to avoid spelling errors.

* Improve XML doc formatting in RuneExtensions.cs

Updated the remarks section of the `GetColumns` method in the
`RuneExtensions` class to enhance readability by reformatting
and properly indenting `<para>` tags. The content remains
unchanged, describing the method's implementation via `wcwidth`
and its role as a Terminal.Gui extension for `System.Text.Rune`.

* Refactor drivers and improve clipboard handling

Replaced legacy drivers (`CursesDriver`, `NetDriver`) with
`UnixDriver` and `DotNetDriver` across the codebase, including
comments, method names, and test cases. Updated documentation
and remarks to reflect the new driver names and platforms.

Revamped clipboard handling with new platform-specific
implementations: `UnixClipboard` for Unix, `MacOSXClipboard`
for macOS, and `WSLClipboard` for Linux under WSL. Removed
the old `CursesClipboard` and consolidated clipboard logic.

Updated test cases to align with the new drivers and clipboard
implementations. Improved naming consistency and cleaned up
redundant code. Updated the README and documentation to
reflect these changes.

* Remove `PlatformColor` from `Attribute` struct

This commit removes the `PlatformColor` property from the `Attribute` struct, simplifying the codebase by eliminating platform-specific color handling. The following changes were made:

- Removed `PlatformColor` from the `Attribute` struct, including its initialization, usage, and related comments.
- Updated constructors to no longer initialize or use `PlatformColor`.
- Modified `Equals` and `GetHashCode` methods to exclude `PlatformColor`.
- Updated `UnixComponentFactory` documentation to remove references to "v2unix."
- Renamed `v2TestDriver` to `testDriver` in the `With` class for clarity.
- Removed `PlatformColor` references in `DriverAssert` and related error messages.
- Deleted test cases in `AttributeTests` that relied on `PlatformColor`.
- Cleaned up comments and TODOs related to `PlatformColor` and `UnixDriver`.

These changes reflect a shift away from platform-dependent color management, improving code clarity and reducing complexity.

Remove `PlatformColor` and simplify `Attribute` logic

The `PlatformColor` property has been removed from the `Attribute` struct, along with its associated logic, simplifying the codebase and eliminating platform-specific dependencies. Constructors, equality checks, and hash code generation in `Attribute` have been updated accordingly.

The `CurrentAttribute` property in `ConsoleDriver` and `OutputBuffer` has been simplified, removing dependencies on `Application.Driver`. The `MakeColor` method logic has been removed or simplified in related classes.

Tests in `AttributeTests` have been refactored to reflect these changes, focusing on `Foreground`, `Background`, and `Style`. Unix-specific logic tied to `PlatformColor` has been eliminated.

Additional updates include renaming parameters in the `With` class for clarity, simplifying `DriverAssert` output, and performing minor code cleanups to improve readability and maintainability.

* Refactor Terminal.Gui driver architecture for v2

Updated documentation to reflect the new modular driver architecture in Terminal.Gui v2.

- Revised `namespace-drivers.md` to include new components (`IConsoleInput`, `IConsoleOutput`, `IInputProcessor`, `IOutputBuffer`, `IWindowSizeMonitor`) and terminal size monitoring.
- Replaced "Key Components" with "Architecture Overview" and added details on the **Component Factory** pattern.
- Documented the four driver implementations (`DotNetDriver`, `WindowsDriver`, `UnixDriver`, `FakeDriver`) and their platform-specific optimizations.
- Added a "Threading Model" section to explain the multi-threaded design for responsive input handling.
- Updated examples to demonstrate driver capabilities and explicit driver selection.

In `drivers.md`:
- Expanded the "Overview" to emphasize the modular, component-based architecture.
- Reorganized "Drivers" into "Available Drivers" and added details on `FakeDriver` for unit testing.
- Added sections on "Initialization Flow," "Shutdown Flow," and platform-specific driver details.
- Provided examples for accessing driver components and creating custom drivers.

In `index.md`:
- Updated "Cross Platform" feature to reflect new driver names and clarified compatibility with SSH and monochrome terminals.

* Moved files around

---------

Co-authored-by: copilot-swe-agent[bot] <198982749+Copilot@users.noreply.github.com>
Co-authored-by: tig <585482+tig@users.noreply.github.com>
Co-authored-by: Tig <tig@users.noreply.github.com>
Co-authored-by: Thomas Nind <31306100+tznind@users.noreply.github.com>
Co-authored-by: Copilot <175728472+Copilot@users.noreply.github.com>
2025-10-15 13:24:47 -06:00

1059 lines
32 KiB
C#
Raw Blame History

using System.Collections.Concurrent;
using System.Text;
using ColorHelper;
using SixLabors.ImageSharp;
using SixLabors.ImageSharp.PixelFormats;
using SixLabors.ImageSharp.Processing;
namespace UICatalog.Scenarios;
[ScenarioMetadata ("Images", "Demonstration of how to render an image with/without true color support.")]
[ScenarioCategory ("Colors")]
[ScenarioCategory ("Drawing")]
public class Images : Scenario
{
private ImageView _imageView;
private Point _screenLocationForSixel;
private string _encodedSixelData;
private Window _win;
/// <summary>
/// Number of sixel pixels per row of characters in the console.
/// </summary>
private NumericUpDown _pxY;
/// <summary>
/// Number of sixel pixels per column of characters in the console
/// </summary>
private NumericUpDown _pxX;
/// <summary>
/// View shown in sixel tab if sixel is supported
/// </summary>
private View _sixelSupported;
/// <summary>
/// View shown in sixel tab if sixel is not supported
/// </summary>
private View _sixelNotSupported;
private Tab _tabSixel;
private TabView _tabView;
/// <summary>
/// The view into which the currently opened sixel image is bounded
/// </summary>
private View _sixelView;
private DoomFire _fire;
private SixelEncoder _fireEncoder;
private SixelToRender _fireSixel;
private int _fireFrameCounter;
private bool _isDisposed;
private RadioGroup _rgPaletteBuilder;
private RadioGroup _rgDistanceAlgorithm;
private NumericUpDown _popularityThreshold;
private SixelToRender _sixelImage;
// Start by assuming no support
private SixelSupportResult _sixelSupportResult = new ();
private CheckBox _cbSupportsSixel;
public override void Main ()
{
Application.Init ();
_win = new () { Title = $"{Application.QuitKey} to Quit - Scenario: {GetName ()}" };
bool canTrueColor = Application.Driver?.SupportsTrueColor ?? false;
var tabBasic = new Tab
{
DisplayText = "Basic"
};
_tabSixel = new ()
{
DisplayText = "Sixel"
};
var lblDriverName = new Label { X = 0, Y = 0, Text = $"Driver is {Application.Driver?.GetType ().Name}" };
_win.Add (lblDriverName);
var cbSupportsTrueColor = new CheckBox
{
X = Pos.Right (lblDriverName) + 2,
Y = 0,
CheckedState = canTrueColor ? CheckState.Checked : CheckState.UnChecked,
CanFocus = false,
Text = "supports true color "
};
_win.Add (cbSupportsTrueColor);
_cbSupportsSixel = new()
{
X = Pos.Right (lblDriverName) + 2,
Y = 1,
CheckedState = CheckState.UnChecked,
Text = "Supports Sixel"
};
var lblSupportsSixel = new Label
{
X = Pos.Right (lblDriverName) + 2,
Y = Pos.Bottom (_cbSupportsSixel),
Text = "(Check if your terminal supports Sixel)"
};
/* CheckedState = _sixelSupportResult.IsSupported
? CheckState.Checked
: CheckState.UnChecked;*/
_cbSupportsSixel.CheckedStateChanging += (s, e) =>
{
_sixelSupportResult.IsSupported = e.Result == CheckState.Checked;
SetupSixelSupported (e.Result == CheckState.Checked);
ApplyShowTabViewHack ();
};
_win.Add (_cbSupportsSixel);
var cbUseTrueColor = new CheckBox
{
X = Pos.Right (cbSupportsTrueColor) + 2,
Y = 0,
CheckedState = !Application.Force16Colors ? CheckState.Checked : CheckState.UnChecked,
Enabled = canTrueColor,
Text = "Use true color"
};
cbUseTrueColor.CheckedStateChanging += (_, evt) => Application.Force16Colors = evt.Result == CheckState.UnChecked;
_win.Add (cbUseTrueColor);
var btnOpenImage = new Button { X = Pos.Right (cbUseTrueColor) + 2, Y = 0, Text = "Open Image" };
_win.Add (btnOpenImage);
_tabView = new ()
{
Y = Pos.Bottom (lblSupportsSixel), Width = Dim.Fill (), Height = Dim.Fill ()
};
_tabView.AddTab (tabBasic, true);
_tabView.AddTab (_tabSixel, false);
BuildBasicTab (tabBasic);
BuildSixelTab ();
SetupSixelSupported (_cbSupportsSixel.CheckedState == CheckState.Checked);
btnOpenImage.Accepting += OpenImage;
_win.Add (lblSupportsSixel);
_win.Add (_tabView);
// Start trying to detect sixel support
var sixelSupportDetector = new SixelSupportDetector ();
sixelSupportDetector.Detect (UpdateSixelSupportState);
Application.Run (_win);
_win.Dispose ();
Application.Shutdown ();
}
private void UpdateSixelSupportState (SixelSupportResult newResult)
{
_sixelSupportResult = newResult;
_cbSupportsSixel.CheckedState = newResult.IsSupported ? CheckState.Checked : CheckState.UnChecked;
_pxX.Value = _sixelSupportResult.Resolution.Width;
_pxY.Value = _sixelSupportResult.Resolution.Height;
}
private void SetupSixelSupported (bool isSupported)
{
_tabSixel.View = isSupported ? _sixelSupported : _sixelNotSupported;
_tabView.SetNeedsDraw ();
}
private void BtnStartFireOnAccept (object sender, CommandEventArgs e)
{
if (_fire != null)
{
return;
}
if (!_sixelSupportResult.SupportsTransparency)
{
if (MessageBox.Query (
"Transparency Not Supported",
"It looks like your terminal does not support transparent sixel backgrounds. Do you want to try anyway?",
"Yes",
"No")
!= 0)
{
return;
}
}
_fire = new (_win.Frame.Width * _pxX.Value, _win.Frame.Height * _pxY.Value);
_fireEncoder = new ();
_fireEncoder.Quantizer.MaxColors = Math.Min (_fireEncoder.Quantizer.MaxColors, _sixelSupportResult.MaxPaletteColors);
_fireEncoder.Quantizer.PaletteBuildingAlgorithm = new ConstPalette (_fire.Palette);
_fireFrameCounter = 0;
Application.AddTimeout (TimeSpan.FromMilliseconds (30), AdvanceFireTimerCallback);
}
private bool AdvanceFireTimerCallback ()
{
_fire.AdvanceFrame ();
_fireFrameCounter++;
// Control frame rate by adjusting this
// Lower number means more FPS
if (_fireFrameCounter % 2 != 0 || _isDisposed)
{
return !_isDisposed;
}
Color [,] bmp = _fire.GetFirePixels ();
// TODO: Static way of doing this, suboptimal
if (_fireSixel != null)
{
Application.Sixel.Remove (_fireSixel);
}
_fireSixel = new ()
{
SixelData = _fireEncoder.EncodeSixel (bmp),
ScreenPosition = new (0, 0)
};
Application.Sixel.Add (_fireSixel);
_win.SetNeedsDraw ();
return !_isDisposed;
}
/// <inheritdoc/>
protected override void Dispose (bool disposing)
{
base.Dispose (disposing);
_imageView.Dispose ();
_sixelNotSupported.Dispose ();
_sixelSupported.Dispose ();
_isDisposed = true;
Application.Sixel.Clear ();
}
private void OpenImage (object sender, CommandEventArgs e)
{
var ofd = new OpenDialog { Title = "Open Image", AllowsMultipleSelection = false };
Application.Run (ofd);
if (ofd.Path is { })
{
Directory.SetCurrentDirectory (Path.GetFullPath (Path.GetDirectoryName (ofd.Path)!));
}
if (ofd.Canceled)
{
ofd.Dispose ();
return;
}
string path = ofd.FilePaths [0];
ofd.Dispose ();
if (string.IsNullOrWhiteSpace (path))
{
return;
}
if (!File.Exists (path))
{
return;
}
Image<Rgba32> img;
try
{
img = Image.Load<Rgba32> (File.ReadAllBytes (path));
}
catch (Exception ex)
{
MessageBox.ErrorQuery ("Could not open file", ex.Message, "Ok");
return;
}
_imageView.SetImage (img);
ApplyShowTabViewHack ();
Application.LayoutAndDraw ();
}
private void ApplyShowTabViewHack ()
{
// TODO HACK: This hack seems to be required to make tabview actually refresh itself
_tabView.SetNeedsDraw ();
Tab orig = _tabView.SelectedTab;
_tabView.SelectedTab = _tabView.Tabs.Except (new [] { orig }).ElementAt (0);
_tabView.SelectedTab = orig;
}
private void BuildBasicTab (Tab tabBasic)
{
_imageView = new ()
{
Width = Dim.Fill (),
Height = Dim.Fill (),
CanFocus = true
};
tabBasic.View = _imageView;
}
private void BuildSixelTab ()
{
_sixelSupported = new ()
{
Width = Dim.Fill (),
Height = Dim.Fill (),
CanFocus = true
};
_sixelNotSupported = new ()
{
Width = Dim.Fill (),
Height = Dim.Fill (),
CanFocus = true
};
_sixelNotSupported.Add (
new Label
{
Width = Dim.Fill (),
Height = Dim.Fill (),
TextAlignment = Alignment.Center,
Text = "Your driver does not support Sixel image format",
VerticalTextAlignment = Alignment.Center
});
_sixelView = new ()
{
Width = Dim.Percent (50),
Height = Dim.Fill (),
BorderStyle = LineStyle.Dotted
};
_sixelSupported.Add (_sixelView);
var btnSixel = new Button
{
X = Pos.Right (_sixelView),
Y = 0,
Text = "Output Sixel", Width = Dim.Auto ()
};
btnSixel.Accepting += OutputSixelButtonClick;
_sixelSupported.Add (btnSixel);
var btnStartFire = new Button
{
X = Pos.Right (_sixelView),
Y = Pos.Bottom (btnSixel),
Text = "Start Fire"
};
btnStartFire.Accepting += BtnStartFireOnAccept;
_sixelSupported.Add (btnStartFire);
var lblPxX = new Label
{
X = Pos.Right (_sixelView),
Y = Pos.Bottom (btnStartFire) + 1,
Text = "Pixels per Col:"
};
_pxX = new ()
{
X = Pos.Right (lblPxX),
Y = Pos.Bottom (btnStartFire) + 1,
Value = _sixelSupportResult.Resolution.Width
};
var lblPxY = new Label
{
X = lblPxX.X,
Y = Pos.Bottom (_pxX),
Text = "Pixels per Row:"
};
_pxY = new ()
{
X = Pos.Right (lblPxY),
Y = Pos.Bottom (_pxX),
Value = _sixelSupportResult.Resolution.Height
};
var l1 = new Label
{
Text = "Palette Building Algorithm",
Width = Dim.Auto (),
X = Pos.Right (_sixelView),
Y = Pos.Bottom (_pxY) + 1
};
_rgPaletteBuilder = new ()
{
RadioLabels = new []
{
"Popularity",
"Median Cut"
},
X = Pos.Right (_sixelView) + 2,
Y = Pos.Bottom (l1),
SelectedItem = 1
};
_popularityThreshold = new ()
{
X = Pos.Right (_rgPaletteBuilder) + 1,
Y = Pos.Top (_rgPaletteBuilder),
Value = 8
};
var lblPopThreshold = new Label
{
Text = "(threshold)",
X = Pos.Right (_popularityThreshold),
Y = Pos.Top (_popularityThreshold)
};
var l2 = new Label
{
Text = "Color Distance Algorithm",
Width = Dim.Auto (),
X = Pos.Right (_sixelView),
Y = Pos.Bottom (_rgPaletteBuilder) + 1
};
_rgDistanceAlgorithm = new ()
{
RadioLabels = new []
{
"Euclidian",
"CIE76"
},
X = Pos.Right (_sixelView) + 2,
Y = Pos.Bottom (l2)
};
_sixelSupported.Add (lblPxX);
_sixelSupported.Add (_pxX);
_sixelSupported.Add (lblPxY);
_sixelSupported.Add (_pxY);
_sixelSupported.Add (l1);
_sixelSupported.Add (_rgPaletteBuilder);
_sixelSupported.Add (l2);
_sixelSupported.Add (_rgDistanceAlgorithm);
_sixelSupported.Add (_popularityThreshold);
_sixelSupported.Add (lblPopThreshold);
_sixelView.DrawingContent += SixelViewOnDrawingContent;
}
private IPaletteBuilder GetPaletteBuilder ()
{
switch (_rgPaletteBuilder.SelectedItem)
{
case 0: return new PopularityPaletteWithThreshold (GetDistanceAlgorithm (), _popularityThreshold.Value);
case 1: return new MedianCutPaletteBuilder (GetDistanceAlgorithm ());
default: throw new ArgumentOutOfRangeException ();
}
}
private IColorDistance GetDistanceAlgorithm ()
{
switch (_rgDistanceAlgorithm.SelectedItem)
{
case 0: return new EuclideanColorDistance ();
case 1: return new CIE76ColorDistance ();
default: throw new ArgumentOutOfRangeException ();
}
}
private void OutputSixelButtonClick (object sender, CommandEventArgs e)
{
if (_imageView.FullResImage == null)
{
MessageBox.Query ("No Image Loaded", "You must first open an image. Use the 'Open Image' button above.", "Ok");
return;
}
_screenLocationForSixel = _sixelView.FrameToScreen ().Location;
_encodedSixelData = GenerateSixelData (
_imageView.FullResImage,
_sixelView.Frame.Size,
_pxX.Value,
_pxY.Value);
if (_sixelImage == null)
{
_sixelImage = new ()
{
SixelData = _encodedSixelData,
ScreenPosition = _screenLocationForSixel
};
Application.Sixel.Add (_sixelImage);
}
else
{
_sixelImage.ScreenPosition = _screenLocationForSixel;
_sixelImage.SixelData = _encodedSixelData;
}
_sixelView.SetNeedsDraw ();
}
private void SixelViewOnDrawingContent (object sender, DrawEventArgs e)
{
if (!string.IsNullOrWhiteSpace (_encodedSixelData))
{
// Does not work (see https://github.com/gui-cs/Terminal.Gui/issues/3763)
// Application.Driver?.Move (_screenLocationForSixel.X, _screenLocationForSixel.Y);
// Application.Driver?.AddStr (_encodedSixelData);
// Works in DotNetDriver but results in screen flicker when moving mouse but vanish instantly
// Console.SetCursorPosition (_screenLocationForSixel.X, _screenLocationForSixel.Y);
// Console.Write (_encodedSixelData);
}
}
public string GenerateSixelData (
Image<Rgba32> fullResImage,
Size maxSize,
int pixelsPerCellX,
int pixelsPerCellY
)
{
var encoder = new SixelEncoder ();
encoder.Quantizer.MaxColors = Math.Min (encoder.Quantizer.MaxColors, _sixelSupportResult.MaxPaletteColors);
encoder.Quantizer.PaletteBuildingAlgorithm = GetPaletteBuilder ();
encoder.Quantizer.DistanceAlgorithm = GetDistanceAlgorithm ();
// Calculate the target size in pixels based on console units
int targetWidthInPixels = maxSize.Width * pixelsPerCellX;
int targetHeightInPixels = maxSize.Height * pixelsPerCellY;
// Get the original image dimensions
int originalWidth = fullResImage.Width;
int originalHeight = fullResImage.Height;
// Use the helper function to get the resized dimensions while maintaining the aspect ratio
Size newSize = CalculateAspectRatioFit (originalWidth, originalHeight, targetWidthInPixels, targetHeightInPixels);
// Resize the image to match the console size
Image<Rgba32> resizedImage = fullResImage.Clone (x => x.Resize (newSize.Width, newSize.Height));
string encoded = encoder.EncodeSixel (ConvertToColorArray (resizedImage));
var pv = new PaletteView (encoder.Quantizer.Palette.ToList ());
var dlg = new Dialog
{
Title = "Palette (Esc to close)",
Width = Dim.Fill (2),
Height = Dim.Fill (1)
};
var btn = new Button
{
Text = "Ok"
};
btn.Accepting += (s, e) => Application.RequestStop ();
dlg.Add (pv);
dlg.AddButton (btn);
Application.Run (dlg);
dlg.Dispose ();
return encoded;
}
private Size CalculateAspectRatioFit (int originalWidth, int originalHeight, int targetWidth, int targetHeight)
{
// Calculate the scaling factor for width and height
double widthScale = (double)targetWidth / originalWidth;
double heightScale = (double)targetHeight / originalHeight;
// Use the smaller scaling factor to maintain the aspect ratio
double scale = Math.Min (widthScale, heightScale);
// Calculate the new width and height while keeping the aspect ratio
var newWidth = (int)(originalWidth * scale);
var newHeight = (int)(originalHeight * scale);
// Return the new size as a Size object
return new (newWidth, newHeight);
}
public static Color [,] ConvertToColorArray (Image<Rgba32> image)
{
int width = image.Width;
int height = image.Height;
Color [,] colors = new Color [width, height];
// Loop through each pixel and convert Rgba32 to Terminal.Gui color
for (var x = 0; x < width; x++)
{
for (var y = 0; y < height; y++)
{
Rgba32 pixel = image [x, y];
colors [x, y] = new (pixel.R, pixel.G, pixel.B); // Convert Rgba32 to Terminal.Gui color
}
}
return colors;
}
private class ImageView : View
{
private readonly ConcurrentDictionary<Rgba32, Attribute> _cache = new ();
public Image<Rgba32> FullResImage;
private Image<Rgba32> _matchSize;
protected override bool OnDrawingContent ()
{
if (FullResImage == null)
{
return true;
}
// if we have not got a cached resized image of this size
if (_matchSize == null || Viewport.Width != _matchSize.Width || Viewport.Height != _matchSize.Height)
{
// generate one
_matchSize = FullResImage.Clone (x => x.Resize (Viewport.Width, Viewport.Height));
}
for (var y = 0; y < Viewport.Height; y++)
{
for (var x = 0; x < Viewport.Width; x++)
{
Rgba32 rgb = _matchSize [x, y];
Attribute attr = _cache.GetOrAdd (
rgb,
rgb => new (
new Color (),
new Color (rgb.R, rgb.G, rgb.B)
)
);
SetAttribute (attr);
AddRune (x, y, (Rune)' ');
}
}
return true;
}
internal void SetImage (Image<Rgba32> image)
{
FullResImage = image;
SetNeedsDraw ();
}
}
public class PaletteView : View
{
private readonly List<Color> _palette;
public PaletteView (List<Color> palette)
{
_palette = palette ?? new List<Color> ();
Width = Dim.Fill ();
Height = Dim.Fill ();
}
// Automatically calculates rows and columns based on the available bounds
private (int columns, int rows) CalculateGridSize (Rectangle bounds)
{
// Characters are twice as wide as they are tall, so use 2:1 width-to-height ratio
int availableWidth = Viewport.Width / 2; // Each color block is 2 character wide
int availableHeight = Viewport.Height;
int numColors = _palette.Count;
// Calculate the number of columns and rows we can fit within the bounds
int columns = Math.Min (availableWidth, numColors);
int rows = (numColors + columns - 1) / columns; // Ceiling division for rows
// Ensure we do not exceed the available height
if (rows > availableHeight)
{
rows = availableHeight;
columns = (numColors + rows - 1) / rows; // Recalculate columns if needed
}
return (columns, rows);
}
protected override bool OnDrawingContent ()
{
if (_palette == null || _palette.Count == 0)
{
return false;
}
// Calculate the grid size based on the bounds
(int columns, int rows) = CalculateGridSize (Viewport);
// Draw the colors in the palette
for (var i = 0; i < _palette.Count && i < columns * rows; i++)
{
int row = i / columns;
int col = i % columns;
// Calculate position in the grid
int x = col * 2; // Each color block takes up 2 horizontal spaces
int y = row;
// Set the color attribute for the block
SetAttribute (new (_palette [i], _palette [i]));
// Draw the block (2 characters wide per block)
for (var dx = 0; dx < 2; dx++) // Fill the width of the block
{
AddRune (x + dx, y, (Rune)' ');
}
}
return true;
}
}
}
internal class ConstPalette : IPaletteBuilder
{
private readonly List<Color> _palette;
public ConstPalette (Color [] palette) { _palette = palette.ToList (); }
/// <inheritdoc/>
public List<Color> BuildPalette (List<Color> colors, int maxColors) { return _palette; }
}
public abstract class LabColorDistance : IColorDistance
{
// Reference white point for D65 illuminant (can be moved to constants)
private const double RefX = 95.047;
private const double RefY = 100.000;
private const double RefZ = 108.883;
// Conversion from RGB to Lab
protected LabColor RgbToLab (Color c)
{
XYZ xyz = ColorConverter.RgbToXyz (new (c.R, c.G, c.B));
// Normalize XYZ values by reference white point
double x = xyz.X / RefX;
double y = xyz.Y / RefY;
double z = xyz.Z / RefZ;
// Apply the nonlinear transformation for Lab
x = x > 0.008856 ? Math.Pow (x, 1.0 / 3.0) : 7.787 * x + 16.0 / 116.0;
y = y > 0.008856 ? Math.Pow (y, 1.0 / 3.0) : 7.787 * y + 16.0 / 116.0;
z = z > 0.008856 ? Math.Pow (z, 1.0 / 3.0) : 7.787 * z + 16.0 / 116.0;
// Calculate Lab values
double l = 116.0 * y - 16.0;
double a = 500.0 * (x - y);
double b = 200.0 * (y - z);
return new (l, a, b);
}
// LabColor class encapsulating L, A, and B values
protected class LabColor
{
public double L { get; }
public double A { get; }
public double B { get; }
public LabColor (double l, double a, double b)
{
L = l;
A = a;
B = b;
}
}
/// <inheritdoc/>
public abstract double CalculateDistance (Color c1, Color c2);
}
/// <summary>
/// This is the simplest method to measure color difference in the CIE Lab color space. The Euclidean distance in Lab
/// space is more aligned with human perception than RGB space, as Lab attempts to model how humans perceive color
/// differences.
/// </summary>
public class CIE76ColorDistance : LabColorDistance
{
public override double CalculateDistance (Color c1, Color c2)
{
LabColor lab1 = RgbToLab (c1);
LabColor lab2 = RgbToLab (c2);
// Euclidean distance in Lab color space
return Math.Sqrt (Math.Pow (lab1.L - lab2.L, 2) + Math.Pow (lab1.A - lab2.A, 2) + Math.Pow (lab1.B - lab2.B, 2));
}
}
public class MedianCutPaletteBuilder : IPaletteBuilder
{
private readonly IColorDistance _colorDistance;
public MedianCutPaletteBuilder (IColorDistance colorDistance) { _colorDistance = colorDistance; }
public List<Color> BuildPalette (List<Color> colors, int maxColors)
{
if (colors == null || colors.Count == 0 || maxColors <= 0)
{
return new ();
}
return MedianCut (colors, maxColors);
}
private List<Color> MedianCut (List<Color> colors, int maxColors)
{
List<List<Color>> cubes = new () { colors };
// Recursively split color regions
while (cubes.Count < maxColors)
{
var added = false;
cubes.Sort ((a, b) => Volume (a).CompareTo (Volume (b)));
List<Color> largestCube = cubes.Last ();
cubes.RemoveAt (cubes.Count - 1);
// Check if the largest cube contains only one unique color
if (IsSingleColorCube (largestCube))
{
// Add back and stop splitting this cube
cubes.Add (largestCube);
break;
}
(List<Color> cube1, List<Color> cube2) = SplitCube (largestCube);
if (cube1.Any ())
{
cubes.Add (cube1);
added = true;
}
if (cube2.Any ())
{
cubes.Add (cube2);
added = true;
}
// Break the loop if no new cubes were added
if (!added)
{
break;
}
}
// Calculate average color for each cube
return cubes.Select (AverageColor).Distinct ().ToList ();
}
// Checks if all colors in the cube are the same
private bool IsSingleColorCube (List<Color> cube)
{
Color firstColor = cube.First ();
return cube.All (c => c.R == firstColor.R && c.G == firstColor.G && c.B == firstColor.B);
}
// Splits the cube based on the largest color component range
private (List<Color>, List<Color>) SplitCube (List<Color> cube)
{
(int component, int range) = FindLargestRange (cube);
// Sort by the largest color range component (either R, G, or B)
cube.Sort (
(c1, c2) => component switch
{
0 => c1.R.CompareTo (c2.R),
1 => c1.G.CompareTo (c2.G),
2 => c1.B.CompareTo (c2.B),
_ => 0
});
int medianIndex = cube.Count / 2;
List<Color> cube1 = cube.Take (medianIndex).ToList ();
List<Color> cube2 = cube.Skip (medianIndex).ToList ();
return (cube1, cube2);
}
private (int, int) FindLargestRange (List<Color> cube)
{
byte minR = cube.Min (c => c.R);
byte maxR = cube.Max (c => c.R);
byte minG = cube.Min (c => c.G);
byte maxG = cube.Max (c => c.G);
byte minB = cube.Min (c => c.B);
byte maxB = cube.Max (c => c.B);
int rangeR = maxR - minR;
int rangeG = maxG - minG;
int rangeB = maxB - minB;
if (rangeR >= rangeG && rangeR >= rangeB)
{
return (0, rangeR);
}
if (rangeG >= rangeR && rangeG >= rangeB)
{
return (1, rangeG);
}
return (2, rangeB);
}
private Color AverageColor (List<Color> cube)
{
var avgR = (byte)cube.Average (c => c.R);
var avgG = (byte)cube.Average (c => c.G);
var avgB = (byte)cube.Average (c => c.B);
return new (avgR, avgG, avgB);
}
private int Volume (List<Color> cube)
{
if (cube == null || cube.Count == 0)
{
// Return a volume of 0 if the cube is empty or null
return 0;
}
byte minR = cube.Min (c => c.R);
byte maxR = cube.Max (c => c.R);
byte minG = cube.Min (c => c.G);
byte maxG = cube.Max (c => c.G);
byte minB = cube.Min (c => c.B);
byte maxB = cube.Max (c => c.B);
return (maxR - minR) * (maxG - minG) * (maxB - minB);
}
}
public class DoomFire
{
private readonly int _width;
private readonly int _height;
private readonly Color [,] _firePixels;
private static Color [] _palette;
public Color [] Palette => _palette;
private readonly Random _random = new ();
public DoomFire (int width, int height)
{
_width = width;
_height = height;
_firePixels = new Color [width, height];
InitializePalette ();
InitializeFire ();
}
private void InitializePalette ()
{
// Initialize a basic fire palette. You can modify these colors as needed.
_palette = new Color [37]; // Using 37 colors as per the original Doom fire palette scale.
// First color is transparent black
_palette [0] = new (0, 0, 0, 0); // Transparent black (ARGB)
// The rest of the palette is fire colors
for (var i = 1; i < 37; i++)
{
var r = (byte)Math.Min (255, i * 7);
var g = (byte)Math.Min (255, i * 5);
var b = (byte)Math.Min (255, i * 2);
_palette [i] = new (r, g, b); // Full opacity
}
}
public void InitializeFire ()
{
// Set the bottom row to full intensity (simulate the base of the fire).
for (var x = 0; x < _width; x++)
{
_firePixels [x, _height - 1] = _palette [36]; // Max intensity fire.
}
// Set the rest of the pixels to black (transparent).
for (var y = 0; y < _height - 1; y++)
{
for (var x = 0; x < _width; x++)
{
_firePixels [x, y] = _palette [0]; // Transparent black
}
}
}
public void AdvanceFrame ()
{
// Process every pixel except the bottom row
for (var x = 0; x < _width; x++)
{
for (var y = 1; y < _height; y++) // Skip the last row (which is always max intensity)
{
int srcX = x;
int srcY = y;
int dstY = y - 1;
// Spread fire upwards with randomness
int decay = _random.Next (0, 2);
int dstX = srcX + _random.Next (-1, 2);
if (dstX < 0 || dstX >= _width) // Prevent out of bounds
{
dstX = srcX;
}
// Get the fire color from below and reduce its intensity
Color srcColor = _firePixels [srcX, srcY];
int intensity = Array.IndexOf (_palette, srcColor) - decay;
if (intensity < 0)
{
intensity = 0;
}
_firePixels [dstX, dstY] = _palette [intensity];
}
}
}
public Color [,] GetFirePixels () { return _firePixels; }
}
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