// Graph plotter function take from // From http://blog.hvidtfeldts.net/index.php/2011/07/plotting-high-frequency-functions-using-a-gpu/ var preFunction = "\n\ #ifdef GL_ES\n\ precision mediump float;\n\ #endif\n\ \n\ #define PI 3.14159265359\n\ \n\ uniform vec2 u_resolution;\n\ uniform vec2 u_mouse;\n\ uniform float u_time;\n\ \n\ float lineJitter = 0.5;\n\ float lineWidth = 7.0;\n\ float gridWidth = 1.7;\n\ float scale = 0.0013;\n\ float zoom = 2.5;\n\ vec2 offset = vec2(0.5);\n\ \n\ float rand (in float _x) {\n\ return fract(sin(_x)*1e4);\n\ }\n\ \n\ float rand (in vec2 co) {\n\ return fract(sin(dot(co.xy,vec2(12.9898,78.233)))*43758.5453);\n\ }\n\ \n\ float noise (in float _x) {\n\ float i = floor(_x);\n\ float f = fract(_x);\n\ float u = f * f * (3.0 - 2.0 * f);\n\ return mix(rand(i), rand(i + 1.0), u);\n\ }\n\ \n\ float noise (in vec2 _st) {\n\ vec2 i = floor(_st);\n\ vec2 f = fract(_st);\n\ // Four corners in 2D of a tile\n\ float a = rand(i);\n\ float b = rand(i + vec2(1.0, 0.0));\n\ float c = rand(i + vec2(0.0, 1.0));\n\ float d = rand(i + vec2(1.0, 1.0));\n\ vec2 u = f * f * (3.0 - 2.0 * f);\n\ return mix(a, b, u.x) + \n\ (c - a)* u.y * (1.0 - u.x) + \n\ (d - b) * u.x * u.y;\n\ }\n\ \n\ float function(in float x) {\n\ float y = 0.0;\n"; var postFunction = "\n\ return y;\n\ }\n\ \n\ vec3 plot2D(in vec2 _st, in float _width ) {\n\ const float samples = 3.0;\n\ \n\ vec2 steping = _width*vec2(scale)/samples;\n\ \n\ float count = 0.0;\n\ float mySamples = 0.0;\n\ for (float i = 0.0; i < samples; i++) {\n\ for (float j = 0.0;j < samples; j++) {\n\ if (i*i+j*j>samples*samples) \n\ continue;\n\ mySamples++;\n\ float ii = i + lineJitter*rand(vec2(_st.x+ i*steping.x,_st.y+ j*steping.y));\n\ float jj = j + lineJitter*rand(vec2(_st.y + i*steping.x,_st.x+ j*steping.y));\n\ float f = function(_st.x+ ii*steping.x)-(_st.y+ jj*steping.y);\n\ count += (f>0.) ? 1.0 : -1.0;\n\ }\n\ }\n\ vec3 color = vec3(1.0);\n\ if (abs(count)!=mySamples)\n\ color = vec3(abs(float(count))/float(mySamples));\n\ return color;\n\ }\n\ \n\ vec3 grid2D( in vec2 _st, in float _width ) {\n\ float axisDetail = _width*scale;\n\ if (abs(_st.x) -1) mask += 'abcdefghijklmnopqrstuvwxyz'; if (chars.indexOf('A') > -1) mask += 'ABCDEFGHIJKLMNOPQRSTUVWXYZ'; if (chars.indexOf('#') > -1) mask += '0123456789'; if (chars.indexOf('!') > -1) mask += '~`!@#$%^&*()_+-={}[]:";\'<>?,./|\\'; var result = ''; for (var i = length; i > 0; --i) result += mask[Math.round(Math.random() * (mask.length - 1))]; return result; } function loadMarkdown(){ // parse MARKDOWN // var mdFileURL = window.location.hash.substr(1); var mdText = "No **text** found"; if(mdFileURL){ mdText = fetchHTTP(mdFileURL); } else { mdText = fetchHTTP("README.md"); } document.getElementById('content').innerHTML = marked(mdText); // parse CODE & CANVAS boxes var ccList = document.querySelectorAll(".codeAndCanvas"); var id = "", srcFile= "", str = "" imagesFiles = "", inject = ""; var imgCounter = 0; for(var i = 0; i < ccList.length; i++){ if (ccList[i].hasAttribute("data")){ id = randomString(16, '#aA'); srcFile = ccList[i].getAttribute("data"); // load code str = fetchHTTP(srcFile); inject = '
\ \
\

Graph plotter by Mikael Hvidtfeldt Christensen (2011)

'; // wakeup the code editor var demoEditor = fList[i].getElementsByTagName("div"); if(demoEditor[0]){ var editor = CodeMirror(demoEditor[0],{ value: funct, viewportMargin: Infinity, lineNumbers: false, matchBrackets: true, mode: "x-shader/x-fragment", keyMap: "sublime", autoCloseBrackets: true, extraKeys: {"Ctrl-Space": "autocomplete"}, showCursorWhenSelecting: true, indentUnit: 4 }); editor.id = id; editor.on("change", function(cm, change) { var canvasToChange = document.getElementById(cm.id) canvasToChange.setAttribute("data-fragment", preFunction+cm.getValue()+postFunction); loadShaders(); }); } } } // Load codes tags that have "src" attributes var list = document.getElementsByTagName("code"); for(var i = 0; i < list.length; i++){ if (list[i].className == "lang-glsl" || list[i].className == "lang-bash" || list[i].className == "lang-cpp" || list[i].className == "lang-html" || list[i].className == "lang-processing" ){ hljs.highlightBlock(list[i]); } } } function insertAfter(newElement,targetElement) { var parent = targetElement.parentNode; if (parent.lastChild == targetElement) { parent.appendChild(newElement); } else { parent.insertBefore(newElement,targetElement.nextSibling); } } function captionizeImages() { if (!document.getElementsByTagName) return false; if (!document.createElement) return false; var images = document.getElementsByTagName("img"); if (images.length < 1) return false; for (var i=0; i