BBTimeline/bbtimeline-canvas.js

class BBTimelineCanvas {
  constructor(parentEl, el) {
    const a = this;

    a.Parent = parentEl;
    a.Container = el;
    a.CTX = a.Container.getContext("2d");

    a.initialiseOptions();
    a.initialiseComponents();
  }

  initialiseOptions() {
    // Inherit
  }

  initialiseComponents() {
    const a = this;

    a.Container.style.width = a.Parent.Size.W + "px";
    a.Container.style.height = a.Parent.Size.H + "px";
    a.Container.style.position = 'absolute';
    a.Container.style.border = 'none';

    a.CTX.canvas.width = a.Parent.Size.W;
    a.CTX.canvas.height = a.Parent.Size.H;

    a.Clear();
  }


  get ClientRectangle() {
    const a = this;

    return {
      X: a.Parent.Padding.Left,
      Y: a.Parent.Padding.Top,
      W: (a.Parent.Size.W - (a.Parent.Padding.Left + a.Parent.Padding.Right)),
      H: (a.Parent.Size.H - (a.Parent.Padding.Top + a.Parent.Padding.Bottom))
    };
  }


  Clear() {
    const a = this;

    a.CTX.clearRect(0, 0, a.CTX.canvas.width, a.CTX.canvas.height);
  }

  Invalidate() {
    // placeholder
  }

  drawCircle(x, y, width, borderWidth, borderColour, backColour) {
    const a = this;
    const calcBorderWidth = (borderWidth * 2);
    const calcWidth = width - calcBorderWidth;
    const offset = a.half(width);

    a.CTX.beginPath();
    a.CTX.arc(x, y, calcWidth, 0, 2 * Math.PI, false);
    a.CTX.fillStyle = backColour;
    a.CTX.fill();
    a.CTX.lineWidth = borderWidth;
    a.CTX.strokeStyle = borderColour;
    a.CTX.stroke();

    const result = {
      X: x - (offset + borderWidth),
      Y: y - (offset + borderWidth),
      W: (width + calcBorderWidth),
      H: (width + calcBorderWidth)
    };

    return result;
  }

  drawRectangle(rectangle, colour) {
    const a = this;

    a.CTX.beginPath();
    a.CTX.rect(rectangle.X, rectangle.Y, rectangle.W, rectangle.H);
    //a.ctx.fillStyle = 'yellow';
    //a.ctx.fill();
    a.CTX.lineWidth = 1;
    a.CTX.strokeStyle = colour;
    a.CTX.stroke();

    return rectangle;
  }

  drawText(x, y, label, font, foreColour, align) {
    const a = this;

    a.CTX.font = font;
    a.CTX.fillStyle = foreColour;

    let size = a.measureText(font, label);
    size.Y = y;

    switch (align) {
      case "center":
        size.X = (x - size.X);
        break;
      case "right":
        size.X = (x - size.W);
        break;
      case "left":
      default:
        size.X = x;
        break;
    }

    a.CTX.fillText(label, size.X, (size.Y + size.H));

    return size;
  }

  drawVerticalLine(x, y1, y2, width, colour) {
    const a = this;

    a.CTX.beginPath();
    a.CTX.moveTo(x, y1);
    a.CTX.lineTo(x, (y2 - width));
    a.CTX.lineWidth = width;
    a.CTX.strokeStyle = colour;
    a.CTX.stroke();

    const result = {
      X: x,
      Y: y1,
      W: width,
      H: (y2 - y1)
    };

    return result;
  }


  half(value) {
    return (value / 2);
  }

  measureText(font, value) {
    const a = this;

    a.CTX.font = font;
    const size = a.CTX.measureText(value);

    return {
      W: size.width,
      H: size.fontBoundingBoxAscent,
      X: a.half(size.width),
      Y: a.half(size.fontBoundingBoxAscent)
    };
  }

  isPointInRectangle(rect, point) {
    const x2 = (rect.X + rect.W);
    const y2 = (rect.Y + rect.H);

    return ((point.X >= rect.X) && (point.X <= x2) && (point.Y >= rect.Y) && (point.Y <= y2));
  }

  combineRectangle(rect1, rect2) {
    const x2 = Math.max((rect1.X + rect1.W), (rect2.X + rect2.W));
    const y2 = Math.max((rect1.Y + rect1.H), (rect2.Y + rect2.H));

    const rect = {
      X: Math.min(rect1.X, rect2.X),
      Y: Math.min(rect1.Y, rect2.Y),
      W: 0,
      H: 0
    };

    rect.W = x2 - rect.X;
    rect.H = y2 - rect.Y;

    return rect;
  }

}