RobotApp/RobotApp.Client/Pages/Components/Mapping/MapView.razor.cs

using Excubo.Blazor.Canvas;
using Excubo.Blazor.Canvas.Contexts;
using Microsoft.JSInterop;

namespace RobotApp.Client.Pages.Components.Mapping;

public partial class MapView
{
    public class TouchPoint
    {
        public double X { get; set; }
        public double Y { get; set; }
    }

    public class LaserScanPoint
    {
        public double X { get; set; }
        public double Y { get; set; }
    }

    public class LaserScanData
    {
        public double RobotX { get; set; }
        public double RobotY { get; set; }
        public double RobotOrientation { get; set; }
        public List<LaserScanPoint> Points { get; set; } = [];
    }

    public class DomRect
    {
        public double Width { get; set; }
        public double Height { get; set; }
        public double X { get; set; }
        public double Y { get; set; }
        public double Left => X;
        public double Top => Y;
    }

    private async Task DrawCanvas()
    {
        await using var ctx = await JS.GetContext2DAsync(CanvasRef);

        await ctx.ClearRectAsync(0, 0, CanvasWidth, CanvasHeight);

        await ctx.SaveAsync();

        await ctx.TranslateAsync(CanvasTranslateX, CanvasTranslateY);
        await ctx.ScaleAsync(ZoomScale, ZoomScale);

        await DrawMapImage(ctx);
        await DrawGrid(ctx);
        await DrawAxes(ctx);
        await DrawLaserScannerPoints(ctx);
        await ctx.RestoreAsync();

        if (IsMouseInCanvas)
        {
            await DrawMouseIndicator(ctx);
        }
        await DrawRulers(ctx);
    }

    private async Task DrawMouseIndicator(Context2D ctx)
    {
        await ctx.SaveAsync();

        await ctx.StrokeStyleAsync("rgba(255, 50, 50, 0.8)");
        await ctx.LineWidthAsync(1);
        await ctx.SetLineDashAsync([3, 3]);

        await ctx.BeginPathAsync();
        await ctx.MoveToAsync(MouseX, RulerHeight);
        await ctx.LineToAsync(MouseX, CanvasHeight);
        await ctx.StrokeAsync();

        await ctx.BeginPathAsync();
        await ctx.MoveToAsync(RulerHeight, MouseY);
        await ctx.LineToAsync(CanvasWidth, MouseY);
        await ctx.StrokeAsync();

        await ctx.SetLineDashAsync([]);

        const double labelPadding = 7;
        const double labelMargin = 8;

        string coordinateText = $"({WorldMouseX:F2}m, {WorldMouseY:F2}m)";

        await ctx.FontAsync("bold 12px Arial");
        var textMetrics = await ctx.MeasureTextAsync(coordinateText);
        double textWidth = textMetrics.Width;
        double textHeight = 16;

        double labelX = MouseX + labelMargin;
        double labelY = MouseY - textHeight - labelPadding * 2 - labelMargin;

        if (labelX + textWidth + labelPadding * 2 > CanvasWidth)
        {
            labelX = MouseX - textWidth - labelPadding * 2 - labelMargin;
        }
        if (labelY - textHeight - labelPadding * 2 < RulerHeight)
        {
            labelY = MouseY + labelMargin;
        }

        await ctx.FillStyleAsync("rgba(0, 0, 0, 0.8)");
        await ctx.FillRectAsync(labelX, labelY, textWidth + labelPadding * 2, textHeight + labelPadding * 2);

        await ctx.StrokeStyleAsync("rgba(255,255,255,0.6)");
        await ctx.LineWidthAsync(1);
        await ctx.StrokeRectAsync(labelX, labelY, textWidth + labelPadding * 2, textHeight + labelPadding * 2);

        await ctx.FillStyleAsync("rgba(255, 50, 50, 0.9)");
        await ctx.BeginPathAsync();
        await ctx.ArcAsync(MouseX, MouseY, 3, 0, Math.PI * 2);
        await ctx.FillAsync(FillRule.NonZero);

        await ctx.StrokeStyleAsync("rgba(255, 255, 255, 0.8)");
        await ctx.LineWidthAsync(2);
        await ctx.BeginPathAsync();
        await ctx.ArcAsync(MouseX, MouseY, 6, 0, Math.PI * 2);
        await ctx.StrokeAsync();

        await ctx.SaveAsync();

        await ctx.TranslateAsync(labelX + labelPadding + textWidth / 2, labelY + textHeight / 2);
        await ctx.ScaleAsync(1, -1);

        await ctx.FillStyleAsync("white");
        await ctx.FontAsync("bold 12px Arial");
        await ctx.TextAlignAsync(TextAlign.Center);
        await ctx.TextBaseLineAsync(TextBaseLine.Bottom);
        await ctx.FillTextAsync(coordinateText, 0, 0);

        await ctx.RestoreAsync();
    }

    private async Task DrawRulers(Context2D ctx)
    {
        double visibleWorldLeft = CanvasToWorldX(0);
        double visibleWorldRight = CanvasToWorldX(CanvasWidth);
        double visibleWorldTop = CanvasToWorldY(0);
        double visibleWorldBottom = CanvasToWorldY(CanvasHeight);

        double scaleInterval = GetRulerScaleInterval();

        await DrawXRuler(ctx, RulerHeight, visibleWorldLeft, visibleWorldRight, scaleInterval);
        await DrawYRuler(ctx, RulerHeight, visibleWorldTop, visibleWorldBottom, scaleInterval);
    }

    private double GetRulerScaleInterval()
    {
        double pixelsPerMeter = BASE_PIXELS_PER_METER * ZoomScale;

        if (pixelsPerMeter >= 400) return 0.1;
        else if (pixelsPerMeter >= 200) return 0.2;
        else if (pixelsPerMeter >= 100) return 0.5;
        else if (pixelsPerMeter >= 50) return 1.0;
        else if (pixelsPerMeter >= 25) return 2.0;
        else if (pixelsPerMeter >= 12) return 5.0;
        else if (pixelsPerMeter >= 6) return 10.0;
        else return 20.0;
    }

    private async Task DrawXRuler(Context2D ctx, double rulerHeight, double visibleWorldLeft, double visibleWorldRight, double scaleInterval)
    {
        await ctx.FillStyleAsync("rgba(240, 240, 240, 0.9)");
        await ctx.FillRectAsync(0, 0, CanvasWidth, rulerHeight);

        await ctx.StrokeStyleAsync("rgba(100, 100, 100, 0.8)");
        await ctx.LineWidthAsync(1);
        await ctx.BeginPathAsync();
        await ctx.MoveToAsync(0, rulerHeight);
        await ctx.LineToAsync(CanvasWidth, rulerHeight);
        await ctx.StrokeAsync();

        double startWorld = Math.Floor(visibleWorldLeft / scaleInterval) * scaleInterval;
        double endWorld = Math.Ceiling(visibleWorldRight / scaleInterval) * scaleInterval;

        startWorld -= scaleInterval;
        endWorld += scaleInterval;

        for (double worldX = startWorld; worldX <= endWorld; worldX += scaleInterval)
        {
            double canvasX = WorldToCanvasX(worldX);

            if (canvasX < -50 || canvasX > CanvasWidth + 50) continue;

            bool isMajorTick = IsNearMultiple(worldX, scaleInterval * 2) || Math.Abs(worldX) < 0.001;
            double tickHeight = isMajorTick ? rulerHeight * 0.4 : rulerHeight * 0.2;

            await ctx.StrokeStyleAsync("rgba(60, 60, 60, 0.8)");
            await ctx.LineWidthAsync(1);
            await ctx.BeginPathAsync();
            await ctx.MoveToAsync(canvasX, rulerHeight);
            await ctx.LineToAsync(canvasX, rulerHeight - tickHeight);
            await ctx.StrokeAsync();

            if (isMajorTick && canvasX >= -20 && canvasX <= CanvasWidth + 20)
            {
                await ctx.SaveAsync();

                await ctx.TranslateAsync(canvasX, rulerHeight - tickHeight - 8);
                await ctx.ScaleAsync(1, -1);

                await ctx.FillStyleAsync("blue");
                await ctx.FontAsync("bold 10px Arial");
                await ctx.TextAlignAsync(TextAlign.Center);

                string labelText = FormatRulerLabel(worldX, scaleInterval);
                await ctx.FillTextAsync(labelText, 0, 0);

                await ctx.RestoreAsync();
            }
        }
    }

    private async Task DrawYRuler(Context2D ctx, double rulerWidth, double visibleWorldTop, double visibleWorldBottom, double scaleInterval)
    {
        await ctx.FillStyleAsync("rgba(240, 240, 240, 0.9)");
        await ctx.FillRectAsync(0, 0, rulerWidth, CanvasHeight);

        await ctx.StrokeStyleAsync("rgba(100, 100, 100, 0.8)");
        await ctx.LineWidthAsync(1);
        await ctx.BeginPathAsync();
        await ctx.MoveToAsync(rulerWidth, 0);
        await ctx.LineToAsync(rulerWidth, CanvasHeight);
        await ctx.StrokeAsync();

        double startWorld = Math.Floor(visibleWorldTop / scaleInterval) * scaleInterval;
        double endWorld = Math.Ceiling(visibleWorldBottom / scaleInterval) * scaleInterval;

        startWorld -= scaleInterval;
        endWorld += scaleInterval;

        for (double worldY = startWorld; worldY <= endWorld; worldY += scaleInterval)
        {
            double canvasY = WorldToCanvasY(worldY);

            if (canvasY < -50 || canvasY > CanvasHeight + 50) continue;

            bool isMajorTick = IsNearMultiple(worldY, scaleInterval * 2) || Math.Abs(worldY) < 0.001;
            double tickWidth = isMajorTick ? rulerWidth * 0.4 : rulerWidth * 0.2;

            await ctx.StrokeStyleAsync("rgba(60, 60, 60, 0.8)");
            await ctx.LineWidthAsync(1);
            await ctx.BeginPathAsync();
            await ctx.MoveToAsync(rulerWidth, canvasY);
            await ctx.LineToAsync(rulerWidth - tickWidth, canvasY);
            await ctx.StrokeAsync();

            if (isMajorTick && canvasY >= -20 && canvasY <= CanvasHeight + 20)
            {
                await ctx.SaveAsync();

                await ctx.TranslateAsync(rulerWidth - tickWidth - 2, canvasY);
                await ctx.ScaleAsync(1, -1);
                await ctx.RotateAsync(-Math.PI / 2);

                await ctx.FillStyleAsync("blue");
                await ctx.FontAsync("bold 10px Arial");
                await ctx.TextAlignAsync(TextAlign.Center);

                string labelText = FormatRulerLabel(worldY, scaleInterval);
                await ctx.FillTextAsync(labelText, 0, 0);

                await ctx.RestoreAsync();
            }
        }
    }

    private static bool IsNearMultiple(double value, double multiple)
    {
        if (multiple == 0) return false;
        double remainder = Math.Abs(value % multiple);
        double epsilon = multiple * 0.001;
        return remainder < epsilon || remainder > multiple - epsilon;
    }

    private static string FormatRulerLabel(double worldValue, double scaleInterval)
    {
        return scaleInterval < 1.0 ? $"{worldValue:F1}m" : $"{worldValue:F0}m";
    }

    private async Task DrawAxes(Context2D ctx)
    {
        double originCanvasX = OriginX * BASE_PIXELS_PER_METER;
        double originCanvasY = OriginY * BASE_PIXELS_PER_METER;

        await ctx.FillStyleAsync("red");
        await ctx.BeginPathAsync();
        await ctx.ArcAsync(originCanvasX, originCanvasY, 8 / ZoomScale, 0, Math.PI * 2);
        await ctx.FillAsync(FillRule.NonZero);

        double gridSpacingMeters = GetGridSpacingMeters();
        double arrowLength = gridSpacingMeters * BASE_PIXELS_PER_METER;
        double arrowHeadSize = 16 / ZoomScale;

        await ctx.FillStyleAsync("blue");
        await ctx.StrokeStyleAsync("blue");
        await ctx.LineWidthAsync(4 / ZoomScale);

        await ctx.BeginPathAsync();
        await ctx.MoveToAsync(originCanvasX, originCanvasY);
        await ctx.LineToAsync(originCanvasX + arrowLength - arrowHeadSize, originCanvasY);
        await ctx.StrokeAsync();

        await ctx.BeginPathAsync();
        double xArrowTipX = originCanvasX + arrowLength;
        double xArrowTipY = originCanvasY;
        await ctx.MoveToAsync(xArrowTipX, xArrowTipY);
        await ctx.LineToAsync(xArrowTipX - arrowHeadSize, xArrowTipY - arrowHeadSize / 2);
        await ctx.LineToAsync(xArrowTipX - arrowHeadSize, xArrowTipY + arrowHeadSize / 2);
        await ctx.ClosePathAsync();
        await ctx.FillAsync(FillRule.NonZero);

        await ctx.FillStyleAsync("red");
        await ctx.StrokeStyleAsync("red");
        await ctx.LineWidthAsync(4 / ZoomScale);

        await ctx.BeginPathAsync();
        await ctx.MoveToAsync(originCanvasX, originCanvasY);
        await ctx.LineToAsync(originCanvasX, originCanvasY + arrowLength - arrowHeadSize);
        await ctx.StrokeAsync();

        await ctx.BeginPathAsync();
        double yArrowTipX = originCanvasX;
        double yArrowTipY = originCanvasY + arrowLength;
        await ctx.MoveToAsync(yArrowTipX, yArrowTipY);
        await ctx.LineToAsync(yArrowTipX - arrowHeadSize / 2, yArrowTipY - arrowHeadSize);
        await ctx.LineToAsync(yArrowTipX + arrowHeadSize / 2, yArrowTipY - arrowHeadSize);
        await ctx.ClosePathAsync();
        await ctx.FillAsync(FillRule.NonZero);
    }

    private async Task DrawGrid(Context2D ctx)
    {
        await ctx.StrokeStyleAsync("rgba(200, 200, 200, 0.4)");
        await ctx.LineWidthAsync(1 / ZoomScale);
        await ctx.SetLineDashAsync([5 / ZoomScale, 5 / ZoomScale]);

        double gridSpacingMeters = GetGridSpacingMeters();
        double gridSpacingPixels = gridSpacingMeters * BASE_PIXELS_PER_METER;

        double visibleLeft = -CanvasTranslateX / ZoomScale;
        double visibleRight = (CanvasWidth - CanvasTranslateX) / ZoomScale;
        double visibleTop = -CanvasTranslateY / ZoomScale;
        double visibleBottom = (CanvasHeight - CanvasTranslateY) / ZoomScale;

        double startX = Math.Floor(visibleLeft / gridSpacingPixels) * gridSpacingPixels;
        double startY = Math.Floor(visibleTop / gridSpacingPixels) * gridSpacingPixels;

        for (double x = startX; x <= visibleRight; x += gridSpacingPixels)
        {
            await ctx.BeginPathAsync();
            await ctx.MoveToAsync(x, visibleTop);
            await ctx.LineToAsync(x, visibleBottom);
            await ctx.StrokeAsync();
        }

        for (double y = startY; y <= visibleBottom; y += gridSpacingPixels)
        {
            await ctx.BeginPathAsync();
            await ctx.MoveToAsync(visibleLeft, y);
            await ctx.LineToAsync(visibleRight, y);
            await ctx.StrokeAsync();
        }

        await ctx.SetLineDashAsync([]);
    }

    private double GetGridSpacingMeters()
    {
        double PixelsPerMeter = BASE_PIXELS_PER_METER * ZoomScale;
        if (PixelsPerMeter >= 300) return 0.2;
        else if (PixelsPerMeter >= 150) return 0.5;
        else if (PixelsPerMeter >= 75) return 1.0;
        else if (PixelsPerMeter >= 40) return 2.0;
        else if (PixelsPerMeter >= 20) return 5.0;
        else if (PixelsPerMeter >= 10) return 10.0;
        else return 20.0;
    }

    private async Task DrawMapImage(Context2D ctx)
    {
        if (!MapImageLoaded)
        {
            return;
        }

        await ctx.SaveAsync();

        try
        {
            double imageWidthCanvas = MapImageWidth * BASE_PIXELS_PER_METER;
            double imageHeightCanvas = MapImageHeight * BASE_PIXELS_PER_METER;

            double mapCanvasX = ImageX * BASE_PIXELS_PER_METER;
            double mapCanvasY = (ImageY + MapImageHeight) * BASE_PIXELS_PER_METER;

            bool success = await JS.InvokeAsync<bool>("drawCachedImageOnCanvas",
                CanvasRef,
                MAP_CACHE_KEY,
                mapCanvasX,
                mapCanvasY - imageHeightCanvas,
                imageWidthCanvas,
                imageHeightCanvas);
        }
        catch
        {
        }

        await ctx.RestoreAsync();
    }

    private async Task DrawLaserScannerPoints(Context2D ctx)
    {
        var scanData = GenerateLaserScanData();

        double robotCanvasX = scanData.RobotX * BASE_PIXELS_PER_METER;
        double robotCanvasY = scanData.RobotY * BASE_PIXELS_PER_METER;

        await ctx.SaveAsync();

        if (scanData.Points.Count > 0)
        {
            await ctx.BeginPathAsync();

            for (int i = 0; i < scanData.Points.Count; i++)
            {
                var point = scanData.Points[i];
                double pointCanvasX = point.X * BASE_PIXELS_PER_METER;
                double pointCanvasY = point.Y * BASE_PIXELS_PER_METER;

                if (i == 0)
                {
                    await ctx.MoveToAsync(pointCanvasX, pointCanvasY);
                }
                else
                {
                    await ctx.LineToAsync(pointCanvasX, pointCanvasY);
                }
            }

            await ctx.StrokeStyleAsync("rgba(255, 100, 100, 0.8)");
            await ctx.LineWidthAsync(2 / ZoomScale);
            await ctx.StrokeAsync();

            await ctx.LineToAsync(robotCanvasX, robotCanvasY);
            await ctx.ClosePathAsync();
            await ctx.FillStyleAsync("rgba(255, 100, 100, 0.1)");
            await ctx.FillAsync(FillRule.NonZero);
        }

        await DrawRobotImage(ctx, robotCanvasX, robotCanvasY, scanData.RobotOrientation);
        await DrawRobotOrientationArrows(ctx, robotCanvasX, robotCanvasY, scanData.RobotOrientation);

        await ctx.RestoreAsync();
    }

    private async Task DrawRobotImage(Context2D ctx, double robotCanvasX, double robotCanvasY, double robotOrientation)
    {
        if (!RobotImageLoaded)
        {
            await ctx.FillStyleAsync("rgba(0, 255, 0, 0.8)");
            await ctx.BeginPathAsync();
            await ctx.ArcAsync(robotCanvasX, robotCanvasY, 8 / ZoomScale, 0, Math.PI * 2);
            await ctx.FillAsync(FillRule.NonZero);
            return;
        }

        await ctx.SaveAsync();

        double robotWidthPixels = RobotWidth * BASE_PIXELS_PER_METER;
        double robotLengthPixels = RobotLength * BASE_PIXELS_PER_METER;

        double scaledWidth = ZoomScale < 1 ? robotWidthPixels / ZoomScale : robotWidthPixels;
        double scaledLength = ZoomScale < 1 ? robotLengthPixels / ZoomScale : robotLengthPixels;

        await ctx.TranslateAsync(robotCanvasX, robotCanvasY);
        await ctx.RotateAsync(robotOrientation);

        try
        {
            bool success = await JS.InvokeAsync<bool>("drawImageOnCanvas",
                CanvasRef,
                "images/AMR-250.png",
                -scaledLength / 2,
                -scaledWidth / 2,
                scaledLength,
                scaledWidth);

            if (!success)
            {
                await ctx.FillStyleAsync("rgba(0, 255, 0, 0.8)");
                await ctx.FillRectAsync(-scaledLength / 2, -scaledWidth / 2, scaledLength, scaledWidth);
            }
        }
        catch
        {
            await ctx.FillStyleAsync("rgba(0, 255, 0, 0.8)");
            await ctx.FillRectAsync(-scaledLength / 2, -scaledWidth / 2, scaledLength, scaledWidth);
        }

        await ctx.RestoreAsync();
    }

    private async Task DrawRobotOrientationArrows(Context2D ctx, double robotCanvasX, double robotCanvasY, double robotOrientation)
    {
        double arrowLength = 30 / ZoomScale;
        double arrowHeadSize = 10 / ZoomScale;

        await ctx.StrokeStyleAsync("rgba(0, 100, 255, 1.0)");
        await ctx.FillStyleAsync("rgba(0, 100, 255, 1.0)");
        await ctx.LineWidthAsync(3 / ZoomScale);

        await ctx.BeginPathAsync();
        await ctx.MoveToAsync(robotCanvasX, robotCanvasY);
        double xAxisEndX = robotCanvasX + Math.Cos(robotOrientation) * (arrowLength - arrowHeadSize + 1);
        double xAxisEndY = robotCanvasY + Math.Sin(robotOrientation) * (arrowLength - arrowHeadSize + 1);
        await ctx.LineToAsync(xAxisEndX, xAxisEndY);
        await ctx.StrokeAsync();

        await ctx.BeginPathAsync();
        double xArrowTipX = robotCanvasX + Math.Cos(robotOrientation) * arrowLength;
        double xArrowTipY = robotCanvasY + Math.Sin(robotOrientation) * arrowLength;
        await ctx.MoveToAsync(xArrowTipX, xArrowTipY);
        double xArrowAngle = robotOrientation + Math.PI;
        await ctx.LineToAsync(xArrowTipX + Math.Cos(xArrowAngle + Math.PI / 6) * arrowHeadSize, xArrowTipY + Math.Sin(xArrowAngle + Math.PI / 6) * arrowHeadSize);
        await ctx.LineToAsync(xArrowTipX + Math.Cos(xArrowAngle - Math.PI / 6) * arrowHeadSize, xArrowTipY + Math.Sin(xArrowAngle - Math.PI / 6) * arrowHeadSize);
        await ctx.ClosePathAsync();
        await ctx.FillAsync(FillRule.NonZero);

        await ctx.StrokeStyleAsync("rgba(255, 50, 50, 1.0)");
        await ctx.FillStyleAsync("rgba(255, 50, 50, 1.0)");
        await ctx.LineWidthAsync(3 / ZoomScale);

        double yAxisAngle = robotOrientation + Math.PI / 2;

        await ctx.BeginPathAsync();
        await ctx.MoveToAsync(robotCanvasX, robotCanvasY);
        double yAxisEndX = robotCanvasX + Math.Cos(yAxisAngle) * (arrowLength - arrowHeadSize + 1);
        double yAxisEndY = robotCanvasY + Math.Sin(yAxisAngle) * (arrowLength - arrowHeadSize + 1);
        await ctx.LineToAsync(yAxisEndX, yAxisEndY);
        await ctx.StrokeAsync();

        await ctx.BeginPathAsync();
        double yArrowTipX = robotCanvasX + Math.Cos(yAxisAngle) * arrowLength;
        double yArrowTipY = robotCanvasY + Math.Sin(yAxisAngle) * arrowLength;
        await ctx.MoveToAsync(yArrowTipX, yArrowTipY);
        double yArrowAngle = yAxisAngle + Math.PI;
        await ctx.LineToAsync(yArrowTipX + Math.Cos(yArrowAngle + Math.PI / 6) * arrowHeadSize, yArrowTipY + Math.Sin(yArrowAngle + Math.PI / 6) * arrowHeadSize);
        await ctx.LineToAsync(yArrowTipX + Math.Cos(yArrowAngle - Math.PI / 6) * arrowHeadSize, yArrowTipY + Math.Sin(yArrowAngle - Math.PI / 6) * arrowHeadSize);
        await ctx.ClosePathAsync();
        await ctx.FillAsync(FillRule.NonZero);
    }

    private double CanvasToWorldX(double canvasX)
    {
        return (canvasX - CanvasTranslateX) / ZoomScale / BASE_PIXELS_PER_METER - OriginX;
    }

    private double CanvasToWorldY(double canvasY)
    {
        return (canvasY - CanvasTranslateY) / ZoomScale / BASE_PIXELS_PER_METER - OriginY;
    }

    private double WorldToCanvasX(double worldX)
    {
        return (worldX + OriginX) * BASE_PIXELS_PER_METER * ZoomScale + CanvasTranslateX;
    }

    private double WorldToCanvasY(double worldY)
    {
        return (worldY + OriginY) * BASE_PIXELS_PER_METER * ZoomScale + CanvasTranslateY;
    }
}