marisusis/ascii.js

## ascii.js
// Author: Andrei Gheorghe (http://github.com/idevelop)

var ascii = (function() {
	function asciiFromCanvas(canvas, options) {
		// Original code by Jacob Seidelin (http://www.nihilogic.dk/labs/jsascii/)
		// Heavily modified by Andrei Gheorghe (http://github.com/idevelop)

		var characters = (" .,:;i1tfLCG08@").split("");

		var context = canvas.getContext("2d");
		var canvasWidth = canvas.width;
		var canvasHeight = canvas.height;

		var asciiCharacters = "";

		// calculate contrast factor
		// http://www.dfstudios.co.uk/articles/image-processing-algorithms-part-5/
		var contrastFactor = (259 * (options.contrast + 255)) / (255 * (259 - options.contrast));

		var imageData = context.getImageData(0, 0, canvasWidth, canvasHeight);
		for (var y = 0; y < canvasHeight; y += 2) { // every other row because letters are not square
			for (var x = 0; x < canvasWidth; x++) {
				// get each pixel's brightness and output corresponding character

				var offset = (y * canvasWidth + x) * 4;

				var color = getColorAtOffset(imageData.data, offset);

				// increase the contrast of the image so that the ASCII representation looks better
				// http://www.dfstudios.co.uk/articles/image-processing-algorithms-part-5/
				var contrastedColor = {
					red: bound(Math.floor((color.red - 128) * contrastFactor) + 128, [0, 255]),
					green: bound(Math.floor((color.green - 128) * contrastFactor) + 128, [0, 255]),
					blue: bound(Math.floor((color.blue - 128) * contrastFactor) + 128, [0, 255]),
					alpha: color.alpha
				};

				// calculate pixel brightness
				// http://stackoverflow.com/questions/596216/formula-to-determine-brightness-of-rgb-color
				var brightness = (0.299 * contrastedColor.red + 0.587 * contrastedColor.green + 0.114 * contrastedColor.blue) / 255;

				var character = characters[(characters.length - 1) - Math.round(brightness * (characters.length - 1))];

				asciiCharacters += '<span style="background-color:rgb('+contrastedColor.red+','+contrastedColor.green+','+contrastedColor.blue+'">'+character+'</span>';
			}
			asciiCharacters += "<br>";
		}

		options.callback(asciiCharacters);
	}

	function getColorAtOffset(data, offset) {
		return {
			red: data[offset],
			green: data[offset + 1],
			blue: data[offset + 2],
			alpha: data[offset + 3]
		};
	}

	function bound(value, interval) {
		return Math.max(interval[0], Math.min(interval[1], value));
	}

	return {
		fromCanvas: function(canvas, options) {
			options = options || {};
			options.contrast = (typeof options.contrast === "undefined" ? 128 : options.contrast);
			options.callback = options.callback || doNothing;

			return asciiFromCanvas(canvas, options);
		}
	};
})();

function fromImage(url) {
var canvas = document.createElement('canvas');
var ctx = canvas.getContext('2d');
ctx.drawImage(url,0,0);
ascii(canvas,{callback:function(a) {
document.write(a);
}});
}
}

## asf.js
// Author: Andrei Gheorghe (http://github.com/idevelop)

var ascii = (function() {
	function asciiFromCanvas(canvas, options) {
		// Original code by Jacob Seidelin (http://www.nihilogic.dk/labs/jsascii/)
		// Heavily modified by Andrei Gheorghe (http://github.com/idevelop)

		var characters = (" .,:;i1tfLCG08@").split("");

		var context = canvas.getContext("2d");
		var canvasWidth = canvas.width;
		var canvasHeight = canvas.height;

		var asciiCharacters = "";

		// calculate contrast factor
		// http://www.dfstudios.co.uk/articles/image-processing-algorithms-part-5/
		var contrastFactor = (259 * (options.contrast + 255)) / (255 * (259 - options.contrast));

		var imageData = context.getImageData(0, 0, canvasWidth, canvasHeight);
		for (var y = 0; y < canvasHeight; y += 2) { // every other row because letters are not square
			for (var x = 0; x < canvasWidth; x++) {
				// get each pixel's brightness and output corresponding character

				var offset = (y * canvasWidth + x) * 4;

				var color = getColorAtOffset(imageData.data, offset);

				// increase the contrast of the image so that the ASCII representation looks better
				// http://www.dfstudios.co.uk/articles/image-processing-algorithms-part-5/
				var contrastedColor = {
					red: bound(Math.floor((color.red - 128) * contrastFactor) + 128, [0, 255]),
					green: bound(Math.floor((color.green - 128) * contrastFactor) + 128, [0, 255]),
					blue: bound(Math.floor((color.blue - 128) * contrastFactor) + 128, [0, 255]),
					alpha: color.alpha
				};

				// calculate pixel brightness
				// http://stackoverflow.com/questions/596216/formula-to-determine-brightness-of-rgb-color
				var brightness = (0.299 * contrastedColor.red + 0.587 * contrastedColor.green + 0.114 * contrastedColor.blue) / 255;

				var character = characters[(characters.length - 1) - Math.round(brightness * (characters.length - 1))];

				asciiCharacters += '<span style="background-color:rgb('+contrastedColor.red+','+contrastedColor.green+','+contrastedColor.blue+'">'+character+'</span>';
			}
			asciiCharacters += "<br>";
		}

		options.callback(asciiCharacters);
	}

	function getColorAtOffset(data, offset) {
		return {
			red: data[offset],
			green: data[offset + 1],
			blue: data[offset + 2],
			alpha: data[offset + 3]
		};
	}

	function bound(value, interval) {
		return Math.max(interval[0], Math.min(interval[1], value));
	}

	return {
		fromCanvas: function(canvas, options) {
			options = options || {};
			options.contrast = (typeof options.contrast === "undefined" ? 128 : options.contrast);
			options.callback = options.callback || doNothing;

			return asciiFromCanvas(canvas, options);
		}
	};
})();

function fromImage(url) {
var canvas = document.createElement('canvas');
var img = document.createElement('img');
img.src=url;
var ctx = canvas.getContext('2d');
ctx.drawImage(img,0,0);
ascii(canvas,{callback:function(a) {
document.write(a);
}});

}
	// Author: Andrei Gheorghe (http://github.com/idevelop)

	var ascii = (function() {
	function asciiFromCanvas(canvas, options) {
	// Original code by Jacob Seidelin (http://www.nihilogic.dk/labs/jsascii/)
	// Heavily modified by Andrei Gheorghe (http://github.com/idevelop)

	var characters = (" .,:;i1tfLCG08@").split("");

	var context = canvas.getContext("2d");
	var canvasWidth = canvas.width;
	var canvasHeight = canvas.height;

	var asciiCharacters = "";

	// calculate contrast factor
	// http://www.dfstudios.co.uk/articles/image-processing-algorithms-part-5/
	var contrastFactor = (259 * (options.contrast + 255)) / (255 * (259 - options.contrast));

	var imageData = context.getImageData(0, 0, canvasWidth, canvasHeight);
	for (var y = 0; y < canvasHeight; y += 2) { // every other row because letters are not square
	for (var x = 0; x < canvasWidth; x++) {
	// get each pixel's brightness and output corresponding character

	var offset = (y * canvasWidth + x) * 4;

	var color = getColorAtOffset(imageData.data, offset);

	// increase the contrast of the image so that the ASCII representation looks better
	// http://www.dfstudios.co.uk/articles/image-processing-algorithms-part-5/
	var contrastedColor = {
	red: bound(Math.floor((color.red - 128) * contrastFactor) + 128, [0, 255]),
	green: bound(Math.floor((color.green - 128) * contrastFactor) + 128, [0, 255]),
	blue: bound(Math.floor((color.blue - 128) * contrastFactor) + 128, [0, 255]),
	alpha: color.alpha
	};

	// calculate pixel brightness
	// http://stackoverflow.com/questions/596216/formula-to-determine-brightness-of-rgb-color
	var brightness = (0.299 * contrastedColor.red + 0.587 * contrastedColor.green + 0.114 * contrastedColor.blue) / 255;

	var character = characters[(characters.length - 1) - Math.round(brightness * (characters.length - 1))];

	asciiCharacters += '<span style="background-color:rgb('+contrastedColor.red+','+contrastedColor.green+','+contrastedColor.blue+'">'+character+'</span>';
	}
	asciiCharacters += "<br>";
	}

	options.callback(asciiCharacters);
	}

	function getColorAtOffset(data, offset) {
	return {
	red: data[offset],
	green: data[offset + 1],
	blue: data[offset + 2],
	alpha: data[offset + 3]
	};
	}

	function bound(value, interval) {
	return Math.max(interval[0], Math.min(interval[1], value));
	}

	return {
	fromCanvas: function(canvas, options) {
	options = options \|\| {};
	options.contrast = (typeof options.contrast === "undefined" ? 128 : options.contrast);
	options.callback = options.callback \|\| doNothing;

	return asciiFromCanvas(canvas, options);
	}
	};
	})();

	function fromImage(url) {
	var canvas = document.createElement('canvas');
	var ctx = canvas.getContext('2d');
	ctx.drawImage(url,0,0);
	ascii(canvas,{callback:function(a) {
	document.write(a);
	}});
	}
	}