demos.skia.org/demos/sampling_types/index.html - skia - Git at Google

 <!DOCTYPE html>
 <title>Image sampling techniques</title>
 <meta charset="utf-8" />
 <meta http-equiv="X-UA-Compatible" content="IE=edge">
 <meta name="viewport" content="width=device-width, initial-scale=1.0">
 <script type="text/javascript" src="https://unpkg.com/canvaskit-wasm@0.25.0/bin/full/canvaskit.js"></script>

 <style>
     figcaption {
         max-width: 800px;
     }
 </style>

 <body>
   <h1>Image sampling techniques</h1>

   <div class="slidecontainer">
       <input style="width:400px;" type="range" min="-10" max="10" value="0" step="0.01"
              class="slider" id="scale_slider" title="Scale">
   </div>

   <figure>
       <div ondrop="dropHandler(event);" ondragover="dragOverHandler(event);">
           <canvas id="draw" width=2048 height=1600></canvas>
       </div>
     <figcaption>
         Drop an Image onto the page (above)
     </figcaption>
   </figure>

 </body>

 <script type="text/javascript" charset="utf-8">
     function preventScrolling(elem) {
         elem.addEventListener('touchmove', (e) => {
         // Prevents touch events in the element from scrolling.
         e.preventDefault();
         e.stopPropagation();
       });
     }

     function dragOverHandler(ev) { ev.preventDefault(); }

     // these can be changed with click/drag on the primary rectangle
     let cell_width = 256,
         cell_height = 256;

     let image = null;
     let CK = null;
     let surface = null;
     let drawFrame = null;

     function dropHandler(ev) {
       ev.preventDefault();

       let file = null;
       if (ev.dataTransfer.items) {
         // Use DataTransferItemList interface to access the file(s)
         for (item of ev.dataTransfer.items) {
           // If dropped items aren't files, reject them
           if (item.kind === 'file') {
             file = item.getAsFile();
             break;
           }
         }
       } else {
         // Use DataTransfer interface to access the file(s)
         for (f of ev.dataTransfer.files) {
           file = f;
           break;
         }
       }
       if (file) {
           file.arrayBuffer().then(buffer => {
               image = CK.MakeImageFromEncoded(buffer);
               surface.requestAnimationFrame(drawFrame);
           });
       }
     }

   const ckLoaded = CanvasKitInit({ locateFile: (file) => 'https://unpkg.com/canvaskit-wasm@0.25.0/bin/full/' + file });

   ckLoaded.then((_CK) => {
     CK = _CK;
     surface = CK.MakeCanvasSurface('draw');
     if (!surface) {
       throw 'Could not make surface';
     }

     const font = new CK.Font(null, 15);
     const paint = new CK.Paint();
     const textPaint = new CK.Paint();
     const TX = 20,
           TY = 30;  // where we start the first rectangle

     scale_slider.oninput = () => { surface.requestAnimationFrame(drawFrame); };

     m33_scaled = function(sx, sy) {
         if (!sy) sy = sx;
         let m = new Float32Array(9);
         m[0] = sx; m[4] = sy; m[8] = 1;
         return m;
     }

     drawFrame = function(canvas) {
         if (!image) return;

         const scale = scale_slider.valueAsNumber < 0 ? 1 / (1 - scale_slider.valueAsNumber)
                                                      : (1 + scale_slider.valueAsNumber);

         const bounds = [0, 0, cell_width, cell_height];

         const lm = m33_scaled(scale, scale);

        const samplings = [
             [CK.FilterMode.Nearest, CK.MipmapMode.None,   0, 0, "Nearest"],
             [CK.FilterMode.Linear,  CK.MipmapMode.None,   0, 0, "Bilerp"],
             [CK.FilterMode.Linear,  CK.MipmapMode.Linear, 0, 0, "Trilerp"],
             [null, null,     0,   0.5, "CatmullRom"],
             [null, null, 1/3.0, 1/3.0, "Mitchell"],
         ];

         const tile = CK.TileMode.Repeat;

         canvas.save();
         canvas.translate(TX, TY);
         canvas.save();
         for (i in samplings) {
             if (i == 3) {
                 canvas.restore();
                 canvas.translate(0, bounds[3] - bounds[1] + 30);
                 canvas.save();
             }

             const s = samplings[i];
             const shader = s[0] ? image.makeShaderOptions(tile, tile, s[0], s[1], lm)
                                 : image.makeShaderCubic(  tile, tile, s[2], s[3], lm);
             paint.setShader(shader);
             canvas.drawRect(bounds, paint);
             shader.delete();

             canvas.drawText(s[4], 20, -8, textPaint, font);

             canvas.translate(bounds[2] - bounds[0] + 30, 0);
         }
         canvas.restore();
         canvas.restore();
         // draw the drag handle
         if (true) {
             canvas.save();
             paint.setShader(null);
             paint.setColor(CK.Color4f(1, 0, 0));
             paint.setStrokeWidth(2);
             canvas.translate(TX + cell_width + 4, TY + cell_height + 4);
             canvas.drawLine(-12,   0, 0, 0, paint);
             canvas.drawLine(  0, -12, 0, 0, paint);
             canvas.restore()
         }
     };

     // register our mouse handler
     {
         function len2(x, y) {
             return x*x + y*y;
         }
         function hit_test(x,y, x1,y1) {
             return len2(x-x1, y-y1) <= 10*10;
         }

         let do_drag = false;
         function pointer_up(e) {
             do_drag = false;
          }
         function pointer_down(e) {
             do_drag = hit_test(TX+cell_width, TY+cell_height, e.offsetX, e.offsetY);
          }
         function pointer_move(e) {
           if (e.pressure && do_drag) {
               cell_width  = Math.max(e.offsetX - TX, 32);
               cell_height = Math.max(e.offsetY - TY, 32);
               surface.requestAnimationFrame(drawFrame);
            }
         }

         const elem = document.getElementById('draw');
         elem.addEventListener('pointermove', pointer_move);
         elem.addEventListener('pointerdown', pointer_down);
         elem.addEventListener('pointerup', pointer_up);
         preventScrolling(elem);
     }

     surface.requestAnimationFrame(drawFrame);
   });

 </script>
	<!DOCTYPE html>
	<title>Image sampling techniques</title>
	<meta charset="utf-8" />
	<meta http-equiv="X-UA-Compatible" content="IE=edge">
	<meta name="viewport" content="width=device-width, initial-scale=1.0">
	<script type="text/javascript" src="https://unpkg.com/canvaskit-wasm@0.25.0/bin/full/canvaskit.js"></script>

	<style>
	figcaption {
	max-width: 800px;
	}
	</style>

	<body>
	<h1>Image sampling techniques</h1>

	<div class="slidecontainer">
	<input style="width:400px;" type="range" min="-10" max="10" value="0" step="0.01"
	class="slider" id="scale_slider" title="Scale">
	</div>

	<figure>
	<div ondrop="dropHandler(event);" ondragover="dragOverHandler(event);">
	<canvas id="draw" width=2048 height=1600></canvas>
	</div>
	<figcaption>
	Drop an Image onto the page (above)
	</figcaption>
	</figure>

	</body>

	<script type="text/javascript" charset="utf-8">
	function preventScrolling(elem) {
	elem.addEventListener('touchmove', (e) => {
	// Prevents touch events in the element from scrolling.
	e.preventDefault();
	e.stopPropagation();
	});
	}

	function dragOverHandler(ev) { ev.preventDefault(); }

	// these can be changed with click/drag on the primary rectangle
	let cell_width = 256,
	cell_height = 256;

	let image = null;
	let CK = null;
	let surface = null;
	let drawFrame = null;

	function dropHandler(ev) {
	ev.preventDefault();

	let file = null;
	if (ev.dataTransfer.items) {
	// Use DataTransferItemList interface to access the file(s)
	for (item of ev.dataTransfer.items) {
	// If dropped items aren't files, reject them
	if (item.kind === 'file') {
	file = item.getAsFile();
	break;
	}
	}
	} else {
	// Use DataTransfer interface to access the file(s)
	for (f of ev.dataTransfer.files) {
	file = f;
	break;
	}
	}
	if (file) {
	file.arrayBuffer().then(buffer => {
	image = CK.MakeImageFromEncoded(buffer);
	surface.requestAnimationFrame(drawFrame);
	});
	}
	}

	const ckLoaded = CanvasKitInit({ locateFile: (file) => 'https://unpkg.com/canvaskit-wasm@0.25.0/bin/full/' + file });

	ckLoaded.then((_CK) => {
	CK = _CK;
	surface = CK.MakeCanvasSurface('draw');
	if (!surface) {
	throw 'Could not make surface';
	}

	const font = new CK.Font(null, 15);
	const paint = new CK.Paint();
	const textPaint = new CK.Paint();
	const TX = 20,
	TY = 30; // where we start the first rectangle

	scale_slider.oninput = () => { surface.requestAnimationFrame(drawFrame); };

	m33_scaled = function(sx, sy) {
	if (!sy) sy = sx;
	let m = new Float32Array(9);
	m[0] = sx; m[4] = sy; m[8] = 1;
	return m;
	}

	drawFrame = function(canvas) {
	if (!image) return;

	const scale = scale_slider.valueAsNumber < 0 ? 1 / (1 - scale_slider.valueAsNumber)
	: (1 + scale_slider.valueAsNumber);

	const bounds = [0, 0, cell_width, cell_height];

	const lm = m33_scaled(scale, scale);

	const samplings = [
	[CK.FilterMode.Nearest, CK.MipmapMode.None, 0, 0, "Nearest"],
	[CK.FilterMode.Linear, CK.MipmapMode.None, 0, 0, "Bilerp"],
	[CK.FilterMode.Linear, CK.MipmapMode.Linear, 0, 0, "Trilerp"],
	[null, null, 0, 0.5, "CatmullRom"],
	[null, null, 1/3.0, 1/3.0, "Mitchell"],
	];

	const tile = CK.TileMode.Repeat;

	canvas.save();
	canvas.translate(TX, TY);
	canvas.save();
	for (i in samplings) {
	if (i == 3) {
	canvas.restore();
	canvas.translate(0, bounds[3] - bounds[1] + 30);
	canvas.save();
	}

	const s = samplings[i];
	const shader = s[0] ? image.makeShaderOptions(tile, tile, s[0], s[1], lm)
	: image.makeShaderCubic( tile, tile, s[2], s[3], lm);
	paint.setShader(shader);
	canvas.drawRect(bounds, paint);
	shader.delete();

	canvas.drawText(s[4], 20, -8, textPaint, font);

	canvas.translate(bounds[2] - bounds[0] + 30, 0);
	}
	canvas.restore();
	canvas.restore();
	// draw the drag handle
	if (true) {
	canvas.save();
	paint.setShader(null);
	paint.setColor(CK.Color4f(1, 0, 0));
	paint.setStrokeWidth(2);
	canvas.translate(TX + cell_width + 4, TY + cell_height + 4);
	canvas.drawLine(-12, 0, 0, 0, paint);
	canvas.drawLine( 0, -12, 0, 0, paint);
	canvas.restore()
	}
	};

	// register our mouse handler
	{
	function len2(x, y) {
	return xx + yy;
	}
	function hit_test(x,y, x1,y1) {
	return len2(x-x1, y-y1) <= 10*10;
	}

	let do_drag = false;
	function pointer_up(e) {
	do_drag = false;
	}
	function pointer_down(e) {
	do_drag = hit_test(TX+cell_width, TY+cell_height, e.offsetX, e.offsetY);
	}
	function pointer_move(e) {
	if (e.pressure && do_drag) {
	cell_width = Math.max(e.offsetX - TX, 32);
	cell_height = Math.max(e.offsetY - TY, 32);
	surface.requestAnimationFrame(drawFrame);
	}
	}

	const elem = document.getElementById('draw');
	elem.addEventListener('pointermove', pointer_move);
	elem.addEventListener('pointerdown', pointer_down);
	elem.addEventListener('pointerup', pointer_up);
	preventScrolling(elem);
	}

	surface.requestAnimationFrame(drawFrame);
	});

	</script>