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xrfragment/dist/xrfragment.aframe.js

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/*
* v0.5.1 generated at Wed Jan 31 06:46:04 PM UTC 2024
* https://xrfragment.org
* SPDX-License-Identifier: MPL-2.0
*/
var $hx_exports = typeof exports != "undefined" ? exports : typeof window != "undefined" ? window : typeof self != "undefined" ? self : this;
(function ($global) { "use strict";
$hx_exports["xrfragment"] = $hx_exports["xrfragment"] || {};
var EReg = function(r,opt) {
this.r = new RegExp(r,opt.split("u").join(""));
};
EReg.__name__ = true;
EReg.prototype = {
match: function(s) {
if(this.r.global) {
this.r.lastIndex = 0;
}
this.r.m = this.r.exec(s);
this.r.s = s;
return this.r.m != null;
}
,split: function(s) {
var d = "#__delim__#";
return s.replace(this.r,d).split(d);
}
};
var HxOverrides = function() { };
HxOverrides.__name__ = true;
HxOverrides.cca = function(s,index) {
var x = s.charCodeAt(index);
if(x != x) {
return undefined;
}
return x;
};
HxOverrides.substr = function(s,pos,len) {
if(len == null) {
len = s.length;
} else if(len < 0) {
if(pos == 0) {
len = s.length + len;
} else {
return "";
}
}
return s.substr(pos,len);
};
HxOverrides.now = function() {
return Date.now();
};
Math.__name__ = true;
var Reflect = function() { };
Reflect.__name__ = true;
Reflect.field = function(o,field) {
try {
return o[field];
} catch( _g ) {
return null;
}
};
Reflect.fields = function(o) {
var a = [];
if(o != null) {
var hasOwnProperty = Object.prototype.hasOwnProperty;
for( var f in o ) {
if(f != "__id__" && f != "hx__closures__" && hasOwnProperty.call(o,f)) {
a.push(f);
}
}
}
return a;
};
Reflect.deleteField = function(o,field) {
if(!Object.prototype.hasOwnProperty.call(o,field)) {
return false;
}
delete(o[field]);
return true;
};
Reflect.copy = function(o) {
if(o == null) {
return null;
}
var o2 = { };
var _g = 0;
var _g1 = Reflect.fields(o);
while(_g < _g1.length) {
var f = _g1[_g];
++_g;
o2[f] = Reflect.field(o,f);
}
return o2;
};
var Std = function() { };
Std.__name__ = true;
Std.string = function(s) {
return js_Boot.__string_rec(s,"");
};
Std.parseInt = function(x) {
if(x != null) {
var _g = 0;
var _g1 = x.length;
while(_g < _g1) {
var i = _g++;
var c = x.charCodeAt(i);
if(c <= 8 || c >= 14 && c != 32 && c != 45) {
var nc = x.charCodeAt(i + 1);
var v = parseInt(x,nc == 120 || nc == 88 ? 16 : 10);
if(isNaN(v)) {
return null;
} else {
return v;
}
}
}
}
return null;
};
var StringTools = function() { };
StringTools.__name__ = true;
StringTools.isSpace = function(s,pos) {
var c = HxOverrides.cca(s,pos);
if(!(c > 8 && c < 14)) {
return c == 32;
} else {
return true;
}
};
StringTools.ltrim = function(s) {
var l = s.length;
var r = 0;
while(r < l && StringTools.isSpace(s,r)) ++r;
if(r > 0) {
return HxOverrides.substr(s,r,l - r);
} else {
return s;
}
};
StringTools.rtrim = function(s) {
var l = s.length;
var r = 0;
while(r < l && StringTools.isSpace(s,l - r - 1)) ++r;
if(r > 0) {
return HxOverrides.substr(s,0,l - r);
} else {
return s;
}
};
StringTools.trim = function(s) {
return StringTools.ltrim(StringTools.rtrim(s));
};
var haxe_iterators_ArrayIterator = function(array) {
this.current = 0;
this.array = array;
};
haxe_iterators_ArrayIterator.__name__ = true;
haxe_iterators_ArrayIterator.prototype = {
hasNext: function() {
return this.current < this.array.length;
}
,next: function() {
return this.array[this.current++];
}
};
var js_Boot = function() { };
js_Boot.__name__ = true;
js_Boot.__string_rec = function(o,s) {
if(o == null) {
return "null";
}
if(s.length >= 5) {
return "<...>";
}
var t = typeof(o);
if(t == "function" && (o.__name__ || o.__ename__)) {
t = "object";
}
switch(t) {
case "function":
return "<function>";
case "object":
if(((o) instanceof Array)) {
var str = "[";
s += "\t";
var _g = 0;
var _g1 = o.length;
while(_g < _g1) {
var i = _g++;
str += (i > 0 ? "," : "") + js_Boot.__string_rec(o[i],s);
}
str += "]";
return str;
}
var tostr;
try {
tostr = o.toString;
} catch( _g ) {
return "???";
}
if(tostr != null && tostr != Object.toString && typeof(tostr) == "function") {
var s2 = o.toString();
if(s2 != "[object Object]") {
return s2;
}
}
var str = "{\n";
s += "\t";
var hasp = o.hasOwnProperty != null;
var k = null;
for( k in o ) {
if(hasp && !o.hasOwnProperty(k)) {
continue;
}
if(k == "prototype" || k == "__class__" || k == "__super__" || k == "__interfaces__" || k == "__properties__") {
continue;
}
if(str.length != 2) {
str += ", \n";
}
str += s + k + " : " + js_Boot.__string_rec(o[k],s);
}
s = s.substring(1);
str += "\n" + s + "}";
return str;
case "string":
return o;
default:
return String(o);
}
};
var xrfragment_Filter = $hx_exports["xrfragment"]["Filter"] = function(str) {
this.q = { };
this.str = "";
if(str != null) {
this.parse(str);
}
};
xrfragment_Filter.__name__ = true;
xrfragment_Filter.prototype = {
toObject: function() {
return Reflect.copy(this.q);
}
,get: function() {
return Reflect.copy(this.q);
}
,parse: function(str) {
var token = str.split(" ");
var q = { };
var process = function(str,prefix) {
if(prefix == null) {
prefix = "";
}
str = StringTools.trim(str);
var k = str.split("=")[0];
var v = str.split("=")[1];
var filter = { };
if(q[prefix + k]) {
filter = q[prefix + k];
}
if(xrfragment_XRF.isProp.match(str)) {
var oper = "";
if(str.indexOf(">") != -1) {
oper = ">";
}
if(str.indexOf("<") != -1) {
oper = "<";
}
if(xrfragment_XRF.isExclude.match(k)) {
k = HxOverrides.substr(k,1,null);
}
v = HxOverrides.substr(v,oper.length,null);
if(oper.length == 0) {
oper = "=";
}
var rule = { };
if(xrfragment_XRF.isNumber.match(v)) {
rule[oper] = parseFloat(v);
} else {
rule[oper] = v;
}
q["expr"] = rule;
}
var value = xrfragment_XRF.isDeep.match(str) ? k.split("*").length - 1 : 0;
q["deep"] = value;
var value = xrfragment_XRF.isExclude.match(str) ? false : true;
q["show"] = value;
var value = k.replace(xrfragment_XRF.operators.r,"");
q["key"] = value;
q["value"] = v;
};
var _g = 0;
var _g1 = token.length;
while(_g < _g1) {
var i = _g++;
process(token[i]);
}
return this.q = q;
}
,test: function(obj) {
var qualify = false;
var _g = 0;
var _g1 = Reflect.fields(obj);
while(_g < _g1.length) {
var k = _g1[_g];
++_g;
var v = Std.string(Reflect.field(obj,k));
if(this.testProperty(k,v)) {
qualify = true;
}
}
var _g = 0;
var _g1 = Reflect.fields(obj);
while(_g < _g1.length) {
var k = _g1[_g];
++_g;
var v = Std.string(Reflect.field(obj,k));
if(this.testProperty(k,v,true)) {
qualify = false;
}
}
return qualify;
}
,testProperty: function(property,value,exclude) {
var conds = 0;
var fails = 0;
var qualify = 0;
var testprop = function(expr) {
conds += 1;
fails += expr ? 0 : 1;
return expr;
};
if(this.q[value] != null) {
var v = this.q[value];
if(v[property] != null) {
return v[property];
}
}
if(Reflect.field(this.q,"expr")) {
var f = Reflect.field(this.q,"expr");
if(!Reflect.field(this.q,"show")) {
if(Reflect.field(f,"!=") != null && testprop((value == null ? "null" : "" + value) == Std.string(Reflect.field(f,"!="))) && exclude) {
++qualify;
}
} else {
if(Reflect.field(f,"*") != null && testprop(parseFloat(value) != null)) {
++qualify;
}
if(Reflect.field(f,">") != null && testprop(parseFloat(value) >= parseFloat(Reflect.field(f,">")))) {
++qualify;
}
if(Reflect.field(f,"<") != null && testprop(parseFloat(value) <= parseFloat(Reflect.field(f,"<")))) {
++qualify;
}
if(Reflect.field(f,"=") != null && (testprop(value == Reflect.field(f,"=")) || testprop(parseFloat(value) == parseFloat(Reflect.field(f,"="))))) {
++qualify;
}
}
}
return qualify > 0;
}
};
var xrfragment_Parser = $hx_exports["xrfragment"]["Parser"] = function() { };
xrfragment_Parser.__name__ = true;
xrfragment_Parser.parse = function(key,value,store,index) {
var Frag_h = Object.create(null);
Frag_h["#"] = xrfragment_XRF.ASSET | xrfragment_XRF.T_PREDEFINED_VIEW | xrfragment_XRF.PV_EXECUTE;
Frag_h["src"] = xrfragment_XRF.ASSET | xrfragment_XRF.T_URL;
Frag_h["href"] = xrfragment_XRF.ASSET | xrfragment_XRF.T_URL | xrfragment_XRF.T_PREDEFINED_VIEW;
Frag_h["tag"] = xrfragment_XRF.ASSET | xrfragment_XRF.T_STRING;
Frag_h["pos"] = xrfragment_XRF.PV_OVERRIDE | xrfragment_XRF.T_VECTOR3 | xrfragment_XRF.T_STRING | xrfragment_XRF.T_STRING_OBJ | xrfragment_XRF.METADATA | xrfragment_XRF.NAVIGATOR;
Frag_h["rot"] = xrfragment_XRF.QUERY_OPERATOR | xrfragment_XRF.PV_OVERRIDE | xrfragment_XRF.T_VECTOR3 | xrfragment_XRF.METADATA | xrfragment_XRF.NAVIGATOR;
Frag_h["t"] = xrfragment_XRF.ASSET | xrfragment_XRF.PV_OVERRIDE | xrfragment_XRF.T_FLOAT | xrfragment_XRF.T_VECTOR2 | xrfragment_XRF.T_STRING | xrfragment_XRF.NAVIGATOR | xrfragment_XRF.METADATA;
Frag_h["tv"] = xrfragment_XRF.ASSET | xrfragment_XRF.PV_OVERRIDE | xrfragment_XRF.T_FLOAT | xrfragment_XRF.T_VECTOR2 | xrfragment_XRF.T_VECTOR3 | xrfragment_XRF.NAVIGATOR | xrfragment_XRF.METADATA;
Frag_h["namespace"] = xrfragment_XRF.ASSET | xrfragment_XRF.T_STRING;
Frag_h["SPDX"] = xrfragment_XRF.ASSET | xrfragment_XRF.T_STRING;
Frag_h["unit"] = xrfragment_XRF.ASSET | xrfragment_XRF.T_STRING;
Frag_h["description"] = xrfragment_XRF.ASSET | xrfragment_XRF.T_STRING;
Frag_h["session"] = xrfragment_XRF.ASSET | xrfragment_XRF.T_URL | xrfragment_XRF.PV_OVERRIDE | xrfragment_XRF.NAVIGATOR | xrfragment_XRF.METADATA | xrfragment_XRF.PROMPT;
var keyStripped = key.replace(xrfragment_XRF.operators.r,"");
var isPVDynamic = key.length > 0 && !Object.prototype.hasOwnProperty.call(Frag_h,key);
var isPVDefault = value.length == 0 && key.length > 0 && key == "#";
if(isPVDynamic) {
var v = new xrfragment_XRF(key,xrfragment_XRF.PV_EXECUTE | xrfragment_XRF.NAVIGATOR,index);
v.validate(value);
store[keyStripped] = v;
return true;
}
var v = new xrfragment_XRF(key,Frag_h[key],index);
if(Object.prototype.hasOwnProperty.call(Frag_h,key)) {
if(!v.validate(value)) {
console.log("src/xrfragment/Parser.hx:66:","⚠ fragment '" + key + "' has incompatible value (" + value + ")");
return false;
}
store[keyStripped] = v;
if(xrfragment_Parser.debug) {
console.log("src/xrfragment/Parser.hx:70:","✔ " + key + ": " + v.string);
}
} else {
if(typeof(value) == "string") {
v.guessType(v,value);
}
v.noXRF = true;
store[keyStripped] = v;
}
return true;
};
var xrfragment_URI = $hx_exports["xrfragment"]["URI"] = function() { };
xrfragment_URI.__name__ = true;
xrfragment_URI.parse = function(url,filter) {
var store = { };
if(url == null || url.indexOf("#") == -1) {
return store;
}
var fragment = url.split("#");
var splitArray = fragment[1].split("&");
var _g = 0;
var _g1 = splitArray.length;
while(_g < _g1) {
var i = _g++;
var splitByEqual = splitArray[i].split("=");
var regexPlus = new EReg("\\+","g");
var key = splitByEqual[0];
var value = "";
if(splitByEqual.length > 1) {
var s = regexPlus.split(splitByEqual[1]).join(" ");
value = decodeURIComponent(s.split("+").join(" "));
}
var ok = xrfragment_Parser.parse(key,value,store,i);
}
if(filter != null && filter != 0) {
var _g = 0;
var _g1 = Reflect.fields(store);
while(_g < _g1.length) {
var key = _g1[_g];
++_g;
var xrf = store[key];
if(!xrf.is(filter)) {
Reflect.deleteField(store,key);
}
}
}
return store;
};
var xrfragment_XRF = $hx_exports["xrfragment"]["XRF"] = function(_fragment,_flags,_index) {
this.fragment = _fragment;
this.flags = _flags;
this.index = _index;
};
xrfragment_XRF.__name__ = true;
xrfragment_XRF.set = function(flag,flags) {
return flags | flag;
};
xrfragment_XRF.unset = function(flag,flags) {
return flags & ~flag;
};
xrfragment_XRF.prototype = {
is: function(flag) {
var v = this.flags;
if(!(typeof(v) == "number" && ((v | 0) === v))) {
this.flags = 0;
}
return (this.flags & flag) != 0;
}
,validate: function(value) {
this.guessType(this,value);
var ok = true;
if(!this.is(xrfragment_XRF.T_FLOAT) && this.is(xrfragment_XRF.T_VECTOR2) && !(typeof(this.x) == "number" && typeof(this.y) == "number")) {
ok = false;
}
if(!(this.is(xrfragment_XRF.T_VECTOR2) || this.is(xrfragment_XRF.T_STRING)) && this.is(xrfragment_XRF.T_VECTOR3) && !(typeof(this.x) == "number" && typeof(this.y) == "number" && typeof(this.z) == "number")) {
ok = false;
}
return ok;
}
,guessType: function(v,str) {
v.string = str;
if(typeof(str) != "string") {
return;
}
if(str.length > 0) {
if(str.split(",").length > 1) {
var xyzw = str.split(",");
if(xyzw.length > 0) {
v.x = parseFloat(xyzw[0]);
}
if(xyzw.length > 1) {
v.y = parseFloat(xyzw[1]);
}
if(xyzw.length > 2) {
v.z = parseFloat(xyzw[2]);
}
if(xyzw.length > 3) {
v.w = parseFloat(xyzw[3]);
}
}
if(xrfragment_XRF.isColor.match(str)) {
v.color = str;
}
if(xrfragment_XRF.isFloat.match(str)) {
v.x = parseFloat(str);
v.float = v.x;
}
if(xrfragment_XRF.isInt.match(str)) {
v.int = Std.parseInt(str);
v.x = v.int;
}
v.filter = new xrfragment_Filter(v.fragment + "=" + v.string);
} else {
v.filter = new xrfragment_Filter(v.fragment);
}
}
};
if(typeof(performance) != "undefined" ? typeof(performance.now) == "function" : false) {
HxOverrides.now = performance.now.bind(performance);
}
String.__name__ = true;
Array.__name__ = true;
js_Boot.__toStr = ({ }).toString;
xrfragment_Parser.error = "";
xrfragment_Parser.debug = false;
xrfragment_XRF.ASSET = 1;
xrfragment_XRF.PROP_BIND = 2;
xrfragment_XRF.QUERY_OPERATOR = 4;
xrfragment_XRF.PROMPT = 8;
xrfragment_XRF.ROUNDROBIN = 16;
xrfragment_XRF.NAVIGATOR = 32;
xrfragment_XRF.METADATA = 64;
xrfragment_XRF.PV_OVERRIDE = 128;
xrfragment_XRF.PV_EXECUTE = 256;
xrfragment_XRF.T_COLOR = 8192;
xrfragment_XRF.T_INT = 16384;
xrfragment_XRF.T_FLOAT = 32768;
xrfragment_XRF.T_VECTOR2 = 65536;
xrfragment_XRF.T_VECTOR3 = 131072;
xrfragment_XRF.T_URL = 262144;
xrfragment_XRF.T_PREDEFINED_VIEW = 524288;
xrfragment_XRF.T_STRING = 1048576;
xrfragment_XRF.T_STRING_OBJ = 2097152;
xrfragment_XRF.T_STRING_OBJ_PROP = 4194304;
xrfragment_XRF.isColor = new EReg("^#([A-Fa-f0-9]{6}|[A-Fa-f0-9]{3})$","");
xrfragment_XRF.isInt = new EReg("^[-0-9]+$","");
xrfragment_XRF.isFloat = new EReg("^[-0-9]+\\.[0-9]+$","");
xrfragment_XRF.isVector = new EReg("([,]+|\\w)","");
xrfragment_XRF.isUrl = new EReg("(://)?\\..*","");
xrfragment_XRF.isUrlOrPretypedView = new EReg("(^#|://)?\\..*","");
xrfragment_XRF.isString = new EReg(".*","");
xrfragment_XRF.operators = new EReg("(^-|[\\*]+)","");
xrfragment_XRF.isProp = new EReg("^.*=[><=]?","");
xrfragment_XRF.isExclude = new EReg("^-","");
xrfragment_XRF.isDeep = new EReg("\\*","");
xrfragment_XRF.isNumber = new EReg("^[0-9\\.]+$","");
})({});
var xrfragment = $hx_exports["xrfragment"];
// the core project uses #vanillajs #proxies #clean #noframework
var $ = typeof $ != 'undefined' ? $ : (s) => document.querySelector(s) // respect jquery
var $$ = typeof $$ != 'undefined' ? $$ : (s) => [...document.querySelectorAll(s)] // zepto etc.
var $el = (html,tag) => {
let el = document.createElement('div')
el.innerHTML = html
return el.children[0]
}
// SPDX-License-Identifier: MPL-2.0
// Copyright (c) 2023 Leon van Kammen/NLNET
var xrf = {}
xrf.init = function(opts){
opts = opts || {}
xrf.debug = parseInt( ( document.location.hash.match(/debug=([0-9])/) || [0,'0'] )[1] )
xrf.Parser.debug = xrf.debug
xrf.detectCameraRig(opts)
for ( let i in opts ) xrf[i] = opts[i]
xrf.emit('init',opts)
return xrf
}
xrf.query = function(){
// framework implementations can override this function, see src/3rd/js/three/index.sj
alert("queries are not implemented (yet) for this particular framework")
}
xrf.detectCameraRig = function(opts){
if( opts.camera ){ // detect rig (if any)
let getCam = ((cam) => () => cam)(opts.camera)
let offsetY = 0
while( opts.camera.parent.type != "Scene" ){
offsetY += opts.camera.position.y
opts.camera = opts.camera.parent
opts.camera.getCam = getCam
opts.camera.updateProjectionMatrix = () => opts.camera.getCam().updateProjectionMatrix()
}
opts.camera.offsetY = offsetY
}
}
xrf.roundrobin = (frag, store) => {
if( !frag.args || frag.args.length == 0 ) return 0
if( !store.rr ) store.rr = {}
let label = frag.fragment
if( store.rr[label] ) return store.rr[label].next()
store.rr[label] = frag.args
store.rr[label].next = () => {
store.rr[label].index = (store.rr[label].index + 1) % store.rr[label].length
return store.rr[label].index
}
return store.rr[label].index = 0
}
xrf.hasTag = (tag,tags) => String(tags).match( new RegExp(`(^| )${tag}( |$)`,`g`) )
// map library functions to xrf
for ( let i in xrfragment ) xrf[i] = xrfragment[i]
/*
* (promise-able) EVENTS (optionally continue after listeners are finished using .then)
*
* example:
*
* xrf.addEventListener('foo',(e) => {
* // let promise = e.promise()
* console.log("navigating to: "+e.detail.destination.url)
* // promise.resolve()
* // promise.reject("not going to happen")
* })
*
* xrf.emit('foo',123)
* xrf.emit('foo',123).then(...).catch(...).finally(...)
*/
xrf.addEventListener = function(eventName, callback, opts) {
if( !this._listeners ) this._listeners = []
callback.opts = opts || {weight: this._listeners.length}
if (!this._listeners[eventName]) {
// create a new array for this event name if it doesn't exist yet
this._listeners[eventName] = [];
}
// add the callback to the listeners array for this event name
this._listeners[eventName].push(callback);
// sort
this._listeners[eventName] = this._listeners[eventName].sort( (a,b) => a.opts.weight > b.opts.weight )
return () => {
this._listeners[eventName] = this._listeners[eventName].filter( (c) => c != callback )
}
};
xrf.emit = function(eventName, data){
if( typeof data != 'object' ) throw 'emit() requires passing objects'
if( xrf.debug && ( !eventName.match(/^render/) || xrf.debug == eventName ) ){
let label = String(`xrf.emit('${eventName}')`).padEnd(35," ");
label += data.mesh && data.mesh.name ? '#'+data.mesh.name : ''
console.groupCollapsed(label)
console.info(data)
console.groupEnd(label)
if( xrf.debug > 1 ) debugger
}
return xrf.emit.promise(eventName,data)
}
xrf.emit.normal = function(eventName, data) {
if( !xrf._listeners ) xrf._listeners = []
var callbacks = xrf._listeners[eventName]
if (callbacks) {
for (var i = 0; i < callbacks.length; i++) {
try{
callbacks[i](data);
}catch(e){ console.error(e) }
}
}
};
xrf.emit.promise = function(e, opts){
return new Promise( (resolve, reject) => {
opts.promise = () => {
opts.promises = opts.promises || []
opts.promises.push(0)
return {
resolve: ((index) => () => {
opts.promises[index] = 1
let succesful = opts.promises.reduce( (a,b) => a+b )
if( succesful == opts.promises.length ) resolve(opts)
})(opts.promises.length-1),
reject: console.error
}
}
xrf.emit.normal(e, opts)
if( !opts.promises ) resolve(opts)
delete opts.promise
})
}
xrf.addEventListener('reset', () => {
// *TODO* do this nicely
// xrf._listeners['renderPost'] = []
// xrf._listeners['render'] = []
})
/*! rasterizeHTML.js - v1.3.1 - 2023-07-06
* http://www.github.com/cburgmer/rasterizeHTML.js
* Copyright (c) 2023 Christoph Burgmer; Licensed MIT */
!function(o,i){void 0===o&&void 0!==window&&(o=window),"function"==typeof define&&define.amd?define(["url","xmlserializer","sane-domparser-error","inlineresources"],function(e,t,n,r){return o.rasterizeHTML=i(e,t,n,r)}):"object"==typeof module&&module.exports?module.exports=i(require("url"),require("xmlserializer"),require("sane-domparser-error"),require("inlineresources")):o.rasterizeHTML=i(o.url,o.xmlserializer,o.sanedomparsererror,o.inlineresources)}(this,function(e,t,n,r){var o=function(n){"use strict";var o={},t=[];o.joinUrl=function(e,t){return e?n.resolve(e,t):t},o.getConstantUniqueIdFor=function(e){return t.indexOf(e)<0&&t.push(e),t.indexOf(e)},o.clone=function(e){var t,n={};for(t in e)e.hasOwnProperty(t)&&(n[t]=e[t]);return n};return o.parseOptionalParameters=function(e){var t,n,r={canvas:null,options:{}};return null==e[0]||(t=e[0],"object"==typeof(n=t)&&null!==n&&Object.prototype.toString.apply(t).match(/\[object 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// the XRWG (XR WordGraph)is mentioned in the spec
//
// it collects metadata-keys ('foo' e.g.), names and tags across 3D scene-nodes (.userData.foo e.g.)
let XRWG = xrf.XRWG = []
XRWG.word = (key) => XRWG.find( (w) => w.word == word )
XRWG.cleankey = (word) => String(word).replace(/[^0-9\.a-zA-Z_]/g,'')
.toLowerCase()
.replace(/.*:\/\//,'')
XRWG.get = (v,k) => XRWG.find( (x) => x[ k || 'word'] == v )
XRWG.match = (str,types,level) => {
if( XRWG.length == 0 ) XRWG.generate(xrf)
level = level == undefined ? 1000 : level
types = types || []
let res = XRWG.filter( (n) => {
types.map( (type) => n[type] ? n = false : false )
return n
})
str = str.toLowerCase()
if( level <10 ) res = res.filter( (n) => n.key == str )
if( level >=10 ) res = res.filter( (n) => n.word == str || n.key == str )
if( level >30 ) res = res.filter( (n) => n.word.match(str) || n.key == str )
if( level >40 ) res = res.filter( (n) => n.word.match(str) || n.key == str || String(n.value||'').match(str) )
if( level >999 ) res = res.filter( (n) => n.word.match(str) != null || n.key.match(str) != null || String(n.value||'').match(str) != null)
return res
}
XRWG.generate = (opts) => {
let {scene,model} = opts
XRWG.slice(0,0) // empty
// collect words from 3d nodes
let add = (key, spatialNode, type) => {
if( !key || key.match(/(^#$|name)/) ) return
let node = XRWG.get( XRWG.cleankey(key) )
if( node ){
node.nodes.push(spatialNode)
}else{
node = { word: XRWG.cleankey(key), key, nodes:[spatialNode] }
if( spatialNode.userData[key] ) node.value = spatialNode.userData[key]
node[type] = true
xrf.emit('XRWGnode',node)
XRWG.push( node )
}
}
scene.traverse( (o) => {
add( `#${o.name}`, o, 'name')
for( let k in o.userData ){
if( k == 'tag' ){
let tagArr = o.userData.tag.split(" ")
.map( (t) => t.trim() )
.filter( (t) => t )
.map( (w) => add( w, o, 'tag') )
}else if( k.match(/^(href|src)$/) ) add( o.userData[k], o, k)
else if( k[0] == '#' ) add( k, o , 'pv')
else add( k, o , 'query')
}
})
// sort by n
XRWG.sort( (a,b) => a.nodes.length - b.nodes.length )
XRWG = XRWG.reverse() // the cleankey/get functions e.g. will persist
xrf.emit('XRWG',XRWG)
}
// the hashbus (QueryString eventBus) is mentioned in the spec
//
// it allows metadata-keys ('foo' e.g.) of 3D scene-nodes (.userData.foo e.g.) to
// react by executing code
let pub = function( url, model, flags ){ // evaluate fragments in url
if( !url ) return
if( !url.match(/#/) ) url = `#${url}`
model = model || xrf.model
let { THREE, camera } = xrf
let frag = xrf.URI.parse( url, flags )
let opts = {frag, mesh:xrf.camera, model, camera: xrf.camera, scene: xrf.scene, renderer: xrf.renderer, THREE: xrf.THREE, hashbus: xrf.hashbus }
xrf.emit('hashbus',opts)
.then( () => {
for ( let k in frag ){
pub.fragment(k,opts)
}
})
return frag
}
// deprecated: (XR Macros) evaluate embedded fragments (metadata) inside mesh of model *REMOVEME*
pub.mesh = (mesh,model) => {
if( mesh.userData ){
let frag = {}
for( let k in mesh.userData ) xrf.Parser.parse( k, mesh.userData[k], frag )
for( let k in frag ){
let opts = {frag, mesh, model, camera: xrf.camera, scene: model.scene, renderer: xrf.renderer, THREE: xrf.THREE, hashbus: xrf.hashbus }
mesh.userData.XRF = frag // allow fragment impl to access XRF obj already
xrf.emit('frag2mesh',opts)
.then( () => pub.fragment(k, {...opts, skipXRWG:true}) )
}
}
}
pub.fragment = (k, opts ) => { // evaluate one fragment
let frag = opts.frag[k];
if( !opts.skipXRWG && frag.is( xrf.XRF.PV_EXECUTE ) ) pub.XRWG(opts)
// call native function (xrf/env.js e.g.), or pass it to user decorator
xrf.emit(k,opts)
.then( () => {
let func = xrf.frag[k] || function(){}
if( typeof xrf[k] == 'function' ) xrf[k]( func, frag, opts)
else func( frag, opts)
})
}
pub.XRWG = (opts) => {
let {frag,scene,model,renderer} = opts
// if this query was triggered by an src-value, lets filter it
const isSRC = opts.embedded && opts.embedded.fragment == 'src'
if( !isSRC ){ // spec : https://xrfragment.org/#src
for ( let i in frag ) {
let v = frag[i]
let id = v.string || v.fragment
if( id == '#' || !id ) return
let match = xrf.XRWG.match(id)
if( v.is( xrf.XRF.PV_EXECUTE ) ){
scene.XRF_PV_ORIGIN = v.string
// evaluate aliases
match.map( (w) => {
if( w.key == `#${id}` ){
if( w.value && w.value[0] == '#' ){
// if value is alias, execute fragment value
xrf.hashbus.pub( w.value, xrf.model, xrf.XRF.METADATA | xrf.XRF.PV_OVERRIDE | xrf.XRF.NAVIGATOR )
}
}
})
xrf.emit('dynamicKey',{ ...opts,v,frag,id,match,scene })
}else{
xrf.emit('dynamicKeyValue',{ ...opts,v,frag,id,match,scene })
}
}
}
}
xrf.hashbus = { pub }
xrf.frag = {}
xrf.model = {}
xrf.mixers = []
xrf.init = ((init) => function(opts){
console.log("add #debug to URL to see XR Fragment debuglog")
let scene = new opts.THREE.Group()
opts.scene.add(scene)
opts.scene = scene
init(opts)
if( opts.loaders ) Object.values(opts.loaders).map( xrf.patchLoader )
xrf.patchRenderer(opts)
xrf.navigator.init()
// return xrfragment lib as 'xrf' query functor (like jquery)
for ( let i in xrf ) xrf.query[i] = xrf[i]
return xrf.query
})(xrf.init)
xrf.patchRenderer = function(opts){
let {renderer,camera} = opts
renderer.xr.addEventListener( 'sessionstart', () => xrf.baseReferenceSpace = renderer.xr.getReferenceSpace() );
renderer.xr.enabled = true;
xrf.clock = new xrf.THREE.Clock()
renderer.render = ((render) => function(scene,camera){
// update clock
let time = xrf.clock.getDelta()
xrf.emit('render',{scene,camera,time,render}) // allow fragments to do something at renderframe
render(scene,camera)
xrf.emit('renderPost',{scene,camera,time,render,renderer}) // allow fragments to do something after renderframe
})(renderer.render.bind(renderer))
}
xrf.patchLoader = function(loader){
if( loader.prototype.load.xrf_patched ) return // prevent patching aliased loaders twice
loader.prototype.load = ((load) => function(url, onLoad, onProgress, onError){
load.call( this,
url,
(model) => {
onLoad(model);
xrf.parseModel(model,url)
},
onProgress,
onError)
})(loader.prototype.load)
loader.prototype.load.xrf_patched = true
}
xrf.getFile = (url) => url.split("/").pop().replace(/#.*/,'')
// parseModel event is essential for src.js to hook into embedded loaded models
xrf.parseModel = function(model,url){
let file = xrf.getFile(url)
model.file = file
model.isXRF = true
model.scene.traverse( (n) => n.isXRF = true ) // mark for deletion during reset()
xrf.emit('parseModel',{model,url,file})
}
xrf.getLastModel = () => xrf.model.last
xrf.reset = () => {
// remove mixers
xrf.mixers.map( (m) => m.stop()) // stop animations *TODO* move to t.js
xrf.mixers = []
const disposeObject = (obj) => {
if (obj.children.length > 0) obj.children.forEach((child) => disposeObject(child));
if (obj.geometry) obj.geometry.dispose();
if (obj.material) {
if (obj.material.map) obj.material.map.dispose();
obj.material.dispose();
}
obj.clear()
obj.removeFromParent()
return true
};
let nodes = []
xrf.scene.traverse( (n) => n.audio && (n.audio.playXRF({x:0})) && (n.audio.remove()) ) // *TODO* move to src/audio.js
xrf.scene.traverse( (child) => child.isXRF && (nodes.push(child)) )
nodes.map( disposeObject ) // leave non-XRF objects intact
xrf.interactive = xrf.interactiveGroup( xrf.THREE, xrf.renderer, xrf.camera)
xrf.add( xrf.interactive )
xrf.layers = 0
// allow others to reset certain events
xrf.emit('reset',{})
// set the player to position 0,0,0
xrf.camera.position.set(0,0,0)
}
xrf.parseUrl = (url) => {
let urlExHash = url.replace(/#.*/,'')
let urlObj,file
let store = {}
try{
urlObj = new URL( urlExHash.match(/:\/\//) ? urlExHash : String(`https://fake.com/${url}`).replace(/\/\//,'/') )
file = urlObj.pathname.substring(urlObj.pathname.lastIndexOf('/') + 1);
let search = urlObj.search.substr(1).split("&")
for( let i in search ) store[ (search[i].split("=")[0]) ] = search[i].split("=")[1] || ''
}catch(e){ }
let hashmap = url.match("#") ? url.replace(/.*#/,'').split("&") : []
for( let i in hashmap ) store[ (hashmap[i].split("=")[0]) ] = hashmap[i].split("=")[1] || ''
let dir = url.substring(0, url.lastIndexOf('/') + 1)
const hash = url.match(/#/) ? url.replace(/.*#/,'') : ''
const ext = file.split('.').pop()
return {urlObj,dir,file,hash,ext,store}
}
xrf.add = (object) => {
object.isXRF = true // mark for easy deletion when replacing scene
xrf.scene.add(object)
}
xrf.hasNoMaterial = (mesh) => {
const hasTexture = mesh.material && mesh.material.map
const hasMaterialName = mesh.material && mesh.material.name.length > 0
return mesh.geometry && !hasMaterialName && !hasTexture
}
xrf.navigator = {}
xrf.navigator.to = (url,flags,loader,data) => {
if( !url ) throw 'xrf.navigator.to(..) no url given'
let {urlObj,dir,file,hash,ext} = xrf.parseUrl(url)
let hashChange = (!file && hash) || !data && xrf.model.file == file
let hasPos = String(hash).match(/pos=/)
let hashbus = xrf.hashbus
return new Promise( (resolve,reject) => {
xrf
.emit('navigate', {url,loader,data})
.then( () => {
if( ext && !loader ){
const Loader = xrf.loaders[ext]
if( !Loader ) return resolve()
loader = loader || new Loader().setPath( dir )
}
if( !hash && !file && !ext ) return resolve(xrf.model) // nothing we can do here
if( hashChange && !hasPos ){
hashbus.pub( url, xrf.model, flags ) // eval local URI XR fragments
xrf.navigator.updateHash(hash) // which don't require
return resolve(xrf.model) // positional navigation
}
xrf
.emit('navigateLoading', {url,loader,data})
.then( () => {
if( hashChange && hasPos ){ // we're already loaded
hashbus.pub( url, xrf.model, flags ) // and eval local URI XR fragments
xrf.navigator.updateHash(hash)
xrf.emit('navigateLoaded',{url})
return resolve(xrf.model)
}
// clear xrf objects from scene
if( xrf.model && xrf.model.scene ) xrf.model.scene.visible = false
xrf.reset()
// force relative path for files which dont include protocol or relative path
if( dir ) dir = dir[0] == '.' || dir.match("://") ? dir : `.${dir}`
url = url.replace(dir,"")
loader = loader || new Loader().setPath( dir )
const onLoad = (model) => {
model.file = file
// only change url when loading *another* file
if( xrf.model ) xrf.navigator.pushState( `${dir}${file}`, hash )
xrf.model = model
if( !model.isXRF ) xrf.emit('parseModel',{model,url,file}) // loader.load() does this automatically (but not loader.parse)
if(xrf.debug ) model.animations.map( (a) => console.log("anim: "+a.name) )
// spec: 2. init metadata inside model for non-SRC data
if( !model.isSRC ){
model.scene.traverse( (mesh) => xrf.hashbus.pub.mesh(mesh,model) )
}
// spec: 1. generate the XRWG
xrf.XRWG.generate({model,scene:model.scene})
// spec: 1. execute the default predefined view '#' (if exist) (https://xrfragment.org/#predefined_view)
xrf.frag.defaultPredefinedViews({model,scene:model.scene})
// spec: predefined view(s) & objects-of-interest-in-XRWG from URL (https://xrfragment.org/#predefined_view)
let frag = xrf.hashbus.pub( url, model) // and eval URI XR fragments
xrf.add( model.scene )
if( hash ) xrf.navigator.updateHash(hash)
xrf.emit('navigateLoaded',{url,model})
resolve(model)
}
if( data ){ // file upload
loader.parse(data, "", onLoad )
}else loader.load(url, onLoad )
})
})
})
}
xrf.navigator.init = () => {
if( xrf.navigator.init.inited ) return
window.addEventListener('popstate', function (event){
if( !xrf.navigator.updateHash.active ){ // ignore programmatic hash updates (causes infinite recursion)
xrf.navigator.to( document.location.search.substr(1) + document.location.hash )
}
})
window.addEventListener('hashchange', function (e){
xrf.emit('hash', {hash: document.location.hash })
})
xrf.navigator.setupNavigateFallbacks()
// this allows selectionlines to be updated according to the camera (renderloop)
xrf.focusLine = new xrf.THREE.Group()
xrf.focusLine.material = new xrf.THREE.LineDashedMaterial({color:0xFF00FF,linewidth:3, scale: 1, dashSize: 0.2, gapSize: 0.1,opacity:0.3, transparent:true})
xrf.focusLine.isXRF = true
xrf.focusLine.position.set(0,0,-0.5);
xrf.focusLine.points = []
xrf.focusLine.lines = []
xrf.camera.add(xrf.focusLine)
xrf.navigator.init.inited = true
}
xrf.navigator.setupNavigateFallbacks = () => {
xrf.addEventListener('navigate', (opts) => {
let {url} = opts
let {urlObj,dir,file,hash,ext} = xrf.parseUrl(url)
// handle http links
if( url.match(/^http/) && !xrf.loaders[ext] ){
let inIframe
try { inIframe = window.self !== window.top; } catch (e) { inIframe = true; }
return inIframe ? window.parent.postMessage({ url }, '*') : window.open( url, '_blank')
// in case you're running in an iframe, then use this in the parent page:
//
// window.addEventListener("message", (e) => {
// if (e.data && e.data.url){
// window.open( e.data.url, '_blank')
// }
// },
// false,
// );
}
})
}
xrf.navigator.updateHash = (hash,opts) => {
if( hash.replace(/^#/,'') == document.location.hash.substr(1) || hash.match(/\|/) ) return // skip unnecesary pushState triggers
console.log(`URL: ${document.location.search.substr(1)}#${hash}`)
xrf.navigator.updateHash.active = true // important to prevent recursion
document.location.hash = hash
xrf.navigator.updateHash.active = false
}
xrf.navigator.pushState = (file,hash) => {
if( file == document.location.search.substr(1) ) return // page is in its default state
window.history.pushState({},`${file}#${hash}`, document.location.pathname + `?${file}#${hash}` )
xrf.emit('pushState', {file, hash} )
}
xrf.addEventListener('env', (opts) => {
let { frag, mesh, model, camera, scene, renderer, THREE} = opts
if( frag.env && !scene.environment ){
//let env = scene.getObjectByName(frag.env.string)
//if( !env ) env = xrf.scene.getObjectByName(frag.env.string) // repurpose from parent scene
//if( !env ) return console.warn("xrf.env "+frag.env.string+" not found")
//env.material.map.mapping = THREE.EquirectangularReflectionMapping;
//scene.environment = env.material.map
//scene.texture = env.material.map
// renderer.toneMapping = THREE.ACESFilmicToneMapping;
// renderer.toneMappingExposure = 2;
// console.log(` └ applied image '${frag.env.string}' as environment map`)
}
})
/**
*
* navigation, portals & mutations
*
* | fragment | type | scope | example value |
* |`href`| string (uri or predefined view) | 🔒 |`#pos=1,1,0`<br>`#pos=1,1,0&rot=90,0,0`<br>`#pos=pyramid`<br>`#pos=lastvisit|pyramid`<br>`://somefile.gltf#pos=1,1,0`<br> |
*
* [[» example implementation|https://github.com/coderofsalvation/xrfragment/blob/main/src/3rd/three/xrf/href.js]]<br>
* [[» example 3D asset|https://github.com/coderofsalvation/xrfragment/blob/main/example/assets/href.gltf#L192]]<br>
* [[» discussion|https://github.com/coderofsalvation/xrfragment/issues/1]]<br>
*
* [img[xrfragment.jpg]]
*
*
* !!!spec 1.0
*
* 1. an ''external''- or ''file URI'' fully replaces the current scene and assumes `pos=0,0,0&rot=0,0,0` by default (unless specified)
*
* 2. navigation should not happen when queries (`q=`) are present in local url: queries will apply (`pos=`, `rot=` e.g.) to the targeted object(s) instead.
*
* 3. navigation should not happen ''immediately'' when user is more than 2 meter away from the portal/object containing the href (to prevent accidental navigation e.g.)
*
* 4. URL navigation should always be reflected in the client (in case of javascript: see [[here|https://github.com/coderofsalvation/xrfragment/blob/dev/src/3rd/three/navigator.js]] for an example navigator).
*
* 5. In XR mode, the navigator back/forward-buttons should be always visible (using a wearable e.g., see [[here|https://github.com/coderofsalvation/xrfragment/blob/dev/example/aframe/sandbox/index.html#L26-L29]] for an example wearable)
*
* [img[navigation.png]]
*
*/
xrf.frag.href = function(v, opts){
let { frag, mesh, model, camera, scene, renderer, THREE} = opts
if( mesh.userData.XRF.href.exec ) return // mesh already initialized
let click = mesh.userData.XRF.href.exec = (e) => {
let lastPos = `pos=${camera.position.x.toFixed(2)},${camera.position.y.toFixed(2)},${camera.position.z.toFixed(2)}`
xrf
.emit('href',{click:true,mesh,xrf:v}) // let all listeners agree
.then( () => {
let {urlObj,dir,file,hash,ext} = xrf.parseUrl(v.string)
const isLocal = v.string[0] == '#'
const hasPos = isLocal && v.string.match(/pos=/)
const flags = isLocal ? xrf.XRF.PV_OVERRIDE : undefined
let toFrag = xrf.URI.parse( v.string, xrf.XRF.NAVIGATOR | xrf.XRF.PV_OVERRIDE | xrf.XRF.METADATA )
// always commit current location in case of teleport (keep a trail of last positions before we navigate)
//if( isLocal && !hasPos ){
// xrf.hashbus.pub( v.string, xrf.model ) // publish to hashbus
//}else{
//if( !e.nocommit && !document.location.hash.match(lastPos) ) xrf.navigator.updateHash(`#${lastPos}`)
xrf.navigator.to(v.string) // let's surf
//}
})
.catch( console.error )
}
let selected = mesh.userData.XRF.href.selected = (state) => () => {
if( mesh.selected == state ) return // nothing changed
xrf.interactive.objects.map( (o) => {
let newState = o.name == mesh.name ? state : false
if( o.material ){
if( o.material.uniforms ) o.material.uniforms.selected.value = newState
//if( o.material.emissive ) o.material.emissive.r = o.material.emissive.g = o.material.emissive.b = newState ? 2.0 : 1.0
if( o.material.emissive ){
if( !o.material.emissive.original ) o.material.emissive.original = o.material.emissive.clone()
o.material.emissive.r = o.material.emissive.g = o.material.emissive.b =
newState ? o.material.emissive.original.r + 0.5 : o.material.emissive.original.r
}
}
})
// update mouse cursor
if( !renderer.domElement.lastCursor )
renderer.domElement.lastCursor = renderer.domElement.style.cursor
renderer.domElement.style.cursor = state ? 'pointer' : renderer.domElement.lastCursor
xrf
.emit('href',{selected:state,mesh,xrf:v}) // let all listeners agree
.then( () => mesh.selected = state )
}
mesh.addEventListener('click', click )
mesh.addEventListener('mousemove', selected(true) )
mesh.addEventListener('mouseenter', selected(true) )
mesh.addEventListener('mouseleave', selected(false) )
if( mesh.material ) mesh.material = mesh.material.clone() // clone, so we can individually highlight meshes
// lazy add mesh (because we're inside a recursive traverse)
setTimeout( (mesh) => {
xrf.interactive.add(mesh)
xrf.emit('interactionReady', {mesh,xrf:v,clickHandler: mesh.userData.XRF.href.exec })
}, 0, mesh )
}
/**
* > above solutions were abducted from [[this|https://i.imgur.com/E3En0gJ.png]] and [[this|https://i.imgur.com/lpnTz3A.png]] survey result
*
* !!!Demo
*
* <$videojs controls="controls" aspectratio="16:9" preload="auto" poster="" fluid="fluid" class="vjs-big-play-centered">
* <source src="https://coderofsalvation.github.io/xrfragment.media/href.mp4" type="video/mp4"/>
* </$videojs>
*
* > capture of <a href="./example/aframe/sandbox" target="_blank">aframe/sandbox</a>
*/
xrf.frag.pos = function(v, opts){
let { frag, mesh, model, camera, scene, renderer, THREE} = opts
let pos = v
// spec: indirect coordinate using objectname: https://xrfragment.org/#navigating%203D
if( pos.x == undefined ){
let obj = scene.getObjectByName(v.string)
if( !obj ) return
pos = obj.position.clone()
obj.getWorldPosition(pos)
camera.position.copy(pos)
}else{
// spec: direct coordinate: https://xrfragment.org/#navigating%203D
camera.position.x = pos.x
camera.position.y = pos.y
camera.position.z = pos.z
}
xrf.frag.pos.last = pos // remember
camera.updateMatrixWorld()
}
xrf.frag.rot = function(v, opts){
let { frag, mesh, model, camera, scene, renderer, THREE} = opts
console.log(" └ setting camera rotation to "+v.string)
if( !model.isSRC ){
camera.rotation.set(
v.x * Math.PI / 180,
v.y * Math.PI / 180,
v.z * Math.PI / 180
)
camera.rotation.offset = camera.rotation.clone() // remember
//camera.updateProjectionMatrix()
}else{
obj = model.scene.isReparented ? model.scene.children[0] : model.scene
obj.rotation.set(
v.x * Math.PI / 180,
v.y * Math.PI / 180,
v.z * Math.PI / 180
)
}
}
// *TODO* use webgl instancing
xrf.frag.src = function(v, opts){
opts.embedded = v // indicate embedded XR fragment
let { mesh, model, camera, scene, renderer, THREE, hashbus, frag} = opts
let url = v.string
let srcFrag = opts.srcFrag = xrfragment.URI.parse(url)
opts.isLocal = v.string[0] == '#'
opts.isPortal = xrf.frag.src.renderAsPortal(mesh)
opts.isSRC = true
if( opts.isLocal ){
xrf.frag.src.localSRC(url,srcFrag,opts) // local
}else xrf.frag.src.externalSRC(url,srcFrag,opts) // external file
}
xrf.frag.src.addModel = (model,url,frag,opts) => {
let {mesh} = opts
let scene = model.scene
scene = xrf.frag.src.filterScene(scene,{...opts,frag}) // get filtered scene
if( mesh.material && mesh.userData.src ) mesh.material.visible = false // hide placeholder object
//enableSourcePortation(scene)
if( xrf.frag.src.renderAsPortal(mesh) ){
// only add remote objects, because
// local scene-objects are already added to scene
xrf.portalNonEuclidian({...opts,model,scene:model.scene})
if( !opts.isLocal ) xrf.scene.add(scene)
}else{
xrf.frag.src.scale( scene, opts, url ) // scale scene
mesh.add(scene)
xrf.emit('parseModel', {...opts, scene, model})
}
// flag everything isSRC & isXRF
mesh.traverse( (n) => { n.isSRC = n.isXRF = n[ opts.isLocal ? 'isSRCLocal' : 'isSRCExternal' ] = true })
}
xrf.frag.src.renderAsPortal = (mesh) => {
// *TODO* should support better isFlat(mesh) check
const isPlane = mesh.geometry && mesh.geometry.attributes.uv && mesh.geometry.attributes.uv.count == 4
return xrf.hasNoMaterial(mesh) && isPlane
}
xrf.frag.src.enableSourcePortation = (src) => {
// show sourceportation clickable plane
if( srcFrag.href || v.string[0] == '#' ) return
let scale = new THREE.Vector3()
let size = new THREE.Vector3()
mesh.getWorldScale(scale)
new THREE.Box3().setFromObject(src).getSize(size)
const geo = new THREE.SphereGeometry( Math.max(size.x, size.y, size.z) / scale.x, 10, 10 )
const mat = new THREE.MeshBasicMaterial()
mat.transparent = true
mat.roughness = 0.05
mat.metalness = 1
mat.opacity = 0
const cube = new THREE.Mesh( geo, mat )
// *TODO* sourceportate?
return xrf.frag.src
}
xrf.frag.src.externalSRC = (url,frag,opts) => {
fetch(url, { method: 'HEAD' })
.then( (res) => {
let mimetype = res.headers.get('Content-type')
if( url.replace(/#.*/,'').match(/\.(gltf|glb)$/) ) mimetype = 'gltf'
//if( url.match(/\.(fbx|stl|obj)$/) ) mimetype =
opts = { ...opts, frag, mimetype }
return xrf.frag.src.type[ mimetype ] ? xrf.frag.src.type[ mimetype ](url,opts) : xrf.frag.src.type.unknown(url,opts)
})
.then( (model) => {
if( model && model.scene ) xrf.frag.src.addModel(model, url, frag, opts )
})
.finally( () => { })
.catch( console.error )
return xrf.frag.src
}
xrf.frag.src.localSRC = (url,frag,opts) => {
let {model,mesh,scene} = opts
setTimeout( () => {
if( mesh.material ) mesh.material = mesh.material.clone() // clone, so we can individually highlight meshes
let _model = {
animations: model.animations,
scene: scene.clone() // *TODO* opts.isPortal ? scene : scene.clone()
}
_model.scenes = [_model.scene]
xrf.frag.src.addModel(_model,url,frag, opts) // current file
},500 )
}
// scale embedded XR fragments https://xrfragment.org/#scaling%20of%20instanced%20objects
xrf.frag.src.scale = function(scene, opts, url){
let { mesh, model, camera, renderer, THREE} = opts
// remove invisible objects (hidden by selectors) which might corrupt boundingbox size-detection
let cleanScene = scene.clone()
if( !cleanScene ) debugger
let remove = []
const notVisible = (n) => !n.visible || (n.material && !n.material.visible)
cleanScene.traverse( (n) => notVisible(n) && n.children.length == 0 && (remove.push(n)) )
remove.map( (n) => n.removeFromParent() )
let restrictTo3DBoundingBox = mesh.geometry
if( restrictTo3DBoundingBox ){
// spec 3 of https://xrfragment.org/#src
// spec 1 of https://xrfragment.org/#scaling%20of%20instanced%20objects
// normalize instanced objectsize to boundingbox
let sizeFrom = new THREE.Vector3()
let sizeTo = new THREE.Vector3()
let empty = new THREE.Object3D()
new THREE.Box3().setFromObject(mesh).getSize(sizeTo)
new THREE.Box3().setFromObject(cleanScene).getSize(sizeFrom)
let ratio = sizeFrom.divide(sizeTo)
scene.scale.multiplyScalar( 1.0 / Math.max(ratio.x, ratio.y, ratio.z));
}else{
// spec 4 of https://xrfragment.org/#src
// spec 2 of https://xrfragment.org/#scaling%20of%20instanced%20objects
scene.scale.multiply( mesh.scale )
}
scene.isXRF = model.scene.isSRC = true
}
xrf.frag.src.filterScene = (scene,opts) => {
let { mesh, model, camera, renderer, THREE, hashbus, frag} = opts
scene = xrf.filter.scene({scene,frag,reparent:true}) // *TODO* ,copyScene: opts.isPortal})
if( !opts.isLocal ){
scene.traverse( (m) => {
if( m.userData && (m.userData.src || m.userData.href) ) return ; // prevent infinite recursion
hashbus.pub.mesh(m,{scene,recursive:true}) // cool idea: recursion-depth based distance between face & src
})
}
return scene
}
/*
* replace the src-mesh with the contents of the src
*/
xrf.frag.src.type = {}
/*
* mimetype: unknown
*/
xrf.frag.src.type['unknown'] = function( url, opts ){
return new Promise( (resolve,reject) => {
reject(`${url} mimetype '${opts.mimetype}' not found or supported (yet)`)
})
}
xrf.frag.t = function(v, opts){
let { frag, mesh, model, camera, scene, renderer, THREE} = opts
if( !model.mixer ) return
if( !model.animations || model.animations[0] == undefined ){
console.warn('no animations found in model')
return xrf.emit( v.x == 0 ? 'stop' : 'play',{isPlaying: v.x != 0 })
}
xrf.mixers.map ( (mixer) => {
mixer.t = v
// update speed
mixer.timeScale = mixer.loop.speed = v.x
mixer.loop.speedAbs = Math.abs(v.x)
if( v.y != undefined || v.z != undefined ) mixer.updateLoop( v )
// play animations
mixer.play( v )
})
}
xrf.frag.t.default = {
x:0, // (play from) offset (in seconds)
y:0 // optional: (stop at) offset (in seconds)
}
// setup animation mixer for global scene & src scenes
xrf.addEventListener('parseModel', (opts) => {
let {model} = opts
let mixer = model.mixer = new xrf.THREE.AnimationMixer(model.scene)
mixer.model = model
mixer.loop = {timeStart:0,timeStop:0}
mixer.i = xrf.mixers.length
mixer.actions = []
model.animations.map( (anim) => {
anim.optimize()
if( xrf.debug ) console.log("action: "+anim.name)
mixer.actions.push( mixer.clipAction( anim, model.scene ) )
})
mixer.checkZombies = (animations) => {
if( mixer.zombieCheck ) return // fire only once
animations.map( (anim) => {
// collect zombie animations and warn user
let zombies = anim.tracks.map( (t) => {
let name = t.name.replace(/\..*/,'')
let obj = model.scene.getObjectByName(name)
return !model.scene.getObjectByName(name) ? {anim:anim.name,obj:name} : undefined
})
if( zombies.length > 0 && mixer.i == 0 ){ // only warn for zombies in main scene (because src-scenes might be filtered anyways)
zombies
.filter( (z) => z ) // filter out undefined
.map( (z) => console.warn(`gltf: object '${z.obj}' not found (anim: '${z.anim}'`) )
console.warn(`TIP: remove dots in objectnames in blender (which adds dots when duplicating)`)
}
})
mixer.zombieCheck = true
}
mixer.play = (t) => {
mixer.isPlaying = t.x != 0
mixer.updateLoop(t)
xrf.emit( mixer.isPlaying === false ? 'stop' : 'play',{isPlaying: mixer.isPlaying})
}
mixer.stop = () => {
mixer.play(false)
}
mixer.updateLoop = (t) => {
mixer.loop.timeStart = t.y != undefined ? t.y : mixer.loop.timeStart
mixer.loop.timeStop = t.z != undefined ? t.z : mixer.loop.timeStop
mixer.actions.map( (action) => {
if( mixer.loop.timeStart != undefined ){
action.time = mixer.loop.timeStart
action.setLoop( xrf.THREE.LoopOnce, )
action.timeScale = mixer.timeScale
action.enabled = true
if( t.x != 0 ){
action.play()
}
}
})
mixer.setTime(mixer.loop.timeStart)
mixer.time = Math.abs( mixer.loop.timeStart )
mixer.update(0)
mixer.checkZombies( model.animations)
}
// update loop when needed
if( !mixer.update.patched ){
let update = mixer.update
mixer.update = function(time){
mixer.time = Math.abs(mixer.time)
if( time == 0 ) return update.call(this,time)
// loop jump
if( mixer.loop.speed > 0.0 && (mixer.loop.timeStop > 0 && mixer.time > mixer.loop.timeStop) ){
setTimeout( (time,anims) => mixer.updateLoop(time), 0, mixer.loop.timeStart ) // prevent recursion
}
return update.call( this, time )
}
mixer.update.patched = true
}
// calculate total duration/frame based on longest animation
mixer.duration = 0
if( model.animations.length ){
model.animations.map( (a) => mixer.duration = ( a.duration > mixer.duration ) ? a.duration : mixer.duration )
}
xrf.mixers.push(mixer)
})
if( document.location.hash.match(/t=/) ){
let url = document.location.href
let playAfterUserGesture = () => {
xrf.hashbus.pub(url) // re-post t fragment on the hashbus again
window.removeEventListener('click',playAfterUserGesture)
window.removeEventListener('touchstart',playAfterUserGesture)
}
window.addEventListener('click', playAfterUserGesture )
window.addEventListener('touchstart', playAfterUserGesture )
}
xrf.addEventListener('render', (opts) => {
let model = xrf.model
let {time} = opts
if( !model ) return
if( xrf.mixers.length ){
xrf.mixers.map( (m) => m.isPlaying && (m.update( time )) )
// update active camera in case selected by dynamicKey in URI
if( xrf.model.camera && model.mixer.isPlaying ){
let cam = xrf.camera.getCam()
// cam.fov = model.cameras[0].fov (why is blender not exporting radians?)
cam.far = model.cameras[0].far
cam.near = model.cameras[0].near
let rig = xrf.camera
rig.position.copy( model.cameras[0].position )
rig.position.y -= rig.offsetY // VR/AR compensate camera rig
//rig.rotation.copy( model.cameras[0].rotation )
rig.updateProjectionMatrix()
}
}
})
xrf.addEventListener('dynamicKey', (opts) => {
// select active camera if any
let {id,match,v} = opts
match.map( (w) => {
w.nodes.map( (node) => {
if( node.isCamera ){
console.log("setting camera to "+node.name)
xrf.model.camera = node
}
})
})
})
xrf.getCollisionMeshes = () => {
let meshes = []
xrf.scene.traverse( (n) => {
if( !n.userData.href && !n.userData.src && xrf.hasNoMaterial(n) ){
meshes.push(n)
}
})
return meshes
}
// wrapper to survive in/outside modules
xrf.interactiveGroup = function(THREE,renderer,camera){
let {
Group,
Matrix4,
Raycaster,
Vector2
} = THREE
const _pointer = new Vector2();
const _event = { type: '', data: _pointer };
let object = {selected:false}
class interactive extends Group {
constructor( renderer, camera ) {
super();
if( !renderer || !camera ) return
// extract camera when camera-rig is passed
camera.traverse( (n) => String(n.type).match(/Camera/) ? camera = n : null )
const scope = this;
scope.objects = []
const raycaster = new Raycaster();
const tempMatrix = new Matrix4();
// Pointer Events
const element = renderer.domElement;
function onPointerEvent( event ) {
//event.stopPropagation();
const rect = renderer.domElement.getBoundingClientRect();
_pointer.x = ( event.clientX - rect.left ) / rect.width * 2 - 1;
_pointer.y = - ( event.clientY - rect.top ) / rect.height * 2 + 1;
raycaster.setFromCamera( _pointer, camera );
const intersects = raycaster.intersectObjects( scope.objects, false );
if ( intersects.length > 0 ) {
const intersection = intersects[ 0 ];
object = intersection.object;
const uv = intersection.uv;
_event.type = event.type;
_event.data.set( uv.x, 1 - uv.y );
object.dispatchEvent( _event );
}else{
if( object.selected ) {
_event.type = 'mouseleave'
object.dispatchEvent(_event)
}
}
}
element.addEventListener( 'pointerdown', onPointerEvent );
element.addEventListener( 'pointerup', onPointerEvent );
element.addEventListener( 'pointermove', onPointerEvent );
element.addEventListener( 'mousedown', onPointerEvent );
element.addEventListener( 'mousemove', onPointerEvent );
element.addEventListener( 'click', onPointerEvent );
element.addEventListener( 'mouseup', onPointerEvent );
// WebXR Controller Events
// TODO: Dispatch pointerevents too
const events = {
'move': 'mousemove',
'select': 'click',
'selectstart': 'mousedown',
'selectend': 'mouseup'
};
function onXRControllerEvent( event ) {
const controller = event.target;
tempMatrix.identity().extractRotation( controller.matrixWorld );
raycaster.ray.origin.setFromMatrixPosition( controller.matrixWorld );
raycaster.ray.direction.set( 0, 0, - 1 ).applyMatrix4( tempMatrix );
const intersections = raycaster.intersectObjects( scope.objects, false );
if ( intersections.length > 0 ) {
const intersection = intersections[ 0 ];
object = intersection.object;
const uv = intersection.uv;
_event.type = events[ event.type ];
_event.data.set( uv.x, 1 - uv.y );
object.dispatchEvent( _event );
}else{
if( object.selected ) {
_event.type = 'mouseleave'
object.dispatchEvent(_event)
}
}
}
const controller1 = renderer.xr.getController( 0 );
controller1.addEventListener( 'move', onXRControllerEvent );
controller1.addEventListener( 'select', onXRControllerEvent );
controller1.addEventListener( 'selectstart', onXRControllerEvent );
controller1.addEventListener( 'selectend', onXRControllerEvent );
const controller2 = renderer.xr.getController( 1 );
controller2.addEventListener( 'move', onXRControllerEvent );
controller2.addEventListener( 'select', onXRControllerEvent );
controller2.addEventListener( 'selectstart', onXRControllerEvent );
controller2.addEventListener( 'selectend', onXRControllerEvent );
}
add(obj, unparent){
if( unparent ) Group.prototype.add.call( this, obj )
this.objects.push(obj)
}
}
return new interactive(renderer,camera)
}
/*
* TODO: refactor/fix this (queries are being refactored to filters)
*/
xrf.addEventListener('dynamicKey', (opts) => {
let {scene,id,match,v} = opts
if( v.filter ){
let frags = {}
frags[ v.filter.key ] = v
xrf.filter.scene({frag:frags,scene})
}
})
// spec: https://xrfragment.org/#filters
xrf.filter = function(query, cb){
let result = []
if( !query ) return result
if( query[0] != '#' ) query = '#'+query
// *TODO* jquery like utility func
return result
}
xrf.filter.scene = function(opts){
let {scene,frag} = opts
scene = xrf.filter
.sort(frag) // get (sorted) filters from XR Fragments
.process(frag,scene,opts) // show/hide things
scene.visible = true // always enable scene
return scene
}
xrf.filter.sort = function(frag){
// get all filters from XR Fragments
frag.filters = Object.values(frag)
.filter( (v) => v.filter ? v : null )
.sort( (a,b) => a.index > b.index )
return xrf.filter
}
// opts = {copyScene:true} in case you want a copy of the scene (not filter the current scene inplace)
xrf.filter.process = function(frag,scene,opts){
const cleanupKey = (k) => k.replace(/[-\*\/]/g,'')
let firstFilter = frag.filters.length ? frag.filters[0].filter.get() : false
const hasName = (m,name,filter) => m.name == name
const hasNameOrTag = (m,name_or_tag,filter) => hasName(m,name_or_tag) ||
String(m.userData['tag']).match( new RegExp("(^| )"+name_or_tag) )
// utility functions
const getOrCloneMaterial = (o) => {
if( o.material ){
if( o.material.isXRF ) return o.material
o.material = o.material.clone()
o.material.isXRF = true
return o.material
}
return {}
}
const setVisible = (n,visible,filter,processed) => {
if( processed && processed[n.uuid] ) return
getOrCloneMaterial(n).visible = visible
if( filter.deep ) n.traverse( (m) => getOrCloneMaterial(m).visible = visible )
if( processed ) processed[n.uuid] == true
}
// spec 2: https://xrfragment.org/doc/RFC_XR_Macros.html#embedding-xr-content-using-src
// reparent scene based on objectname in case it matches a (non-negating) selector
if( opts.reparent && firstFilter && !firstFilter.value && firstFilter.show === true ){
let obj
frag.target = firstFilter
scene.traverse( (n) => hasName(n, firstFilter.key,firstFilter) && (obj = n) )
if( xrf.debug ) console.log("reparent "+firstFilter.key+" "+((opts.copyScene)?"copy":"inplace"))
if(obj ){
obj.position.set(0,0,0)
if( opts.copyScene ) {
opts.copyScene = new xrf.THREE.Scene()
opts.copyScene.children[0] = obj // we dont use .add() as that reparents it from the original scene
}else{
// empty current scene and add obj
while( scene.children.length > 0 ) scene.children[0].removeFromParent()
scene.add( obj )
}
}else{
console.warn("could not reparent scene to object "+firstFilter.key+" (not found)")
opts.copyScene = new xrf.THREE.Scene() // return empty scene
}
if( opts.copyScene ) scene = opts.copyScene
if( obj ) obj.isReparented = true
}
// then show/hide things based on secondary selectors
// we don't use the XRWG (everything) because we process only the given (sub)scene
frag.filters.map( (v) => {
const filter = v.filter.get()
const name_or_tag = cleanupKey(v.fragment)
let processed = {}
let extembeds = {}
// hide external objects temporarely
scene.traverse( (m) => {
if( m.isSRCExternal ){
m.traverse( (n) => (extembeds[ n.uuid ] = m) && (m.visible = false) )
}
})
scene.traverseVisible( (m) => {
// filter on value(expression) #foo=>3 e.g. *TODO* do this in XRWG
if( filter.value && m.userData[filter.key] ){
const visible = v.filter.testProperty(filter.key, m.userData[filter.key], filter.show === false )
setVisible(m,visible,filter,processed)
return
}
if( hasNameOrTag(m,name_or_tag,filter ) ){
setVisible(m,filter.show,filter)
}
})
// show external objects again
for ( let i in extembeds ) extembeds[i].visible = true
})
return scene
}
xrf.frag.defaultPredefinedViews = (opts) => {
let {scene,model} = opts;
scene.traverse( (n) => {
if( n.userData && n.userData['#'] ){
let frag = xrf.URI.parse( n.userData['#'] )
if( !n.parent && document.location.hash.length < 2){
xrf.navigator.to( n.userData['#'] ) // evaluate static XR fragments
}else{
xrf.hashbus.pub( n.userData['#'] ) // evaluate static XR fragments
}
}
})
}
xrf.addEventListener('dynamicKeyValue', (opts) => {
let {scene,match,v} = opts
let objname = v.fragment
let autoscroll = v.z > 0 || v.w > 0
return // DISABLED
scene.traverse( (mesh) => {
if( mesh.name == objname ){
if( !mesh.geometry ) return console.warn(`mesh '${objname}' has no uvcoordinates to offset`)
let uv = mesh.geometry.getAttribute("uv")
if( !uv.old ) uv.old = uv.clone()
for( let i = 0; i < uv.count; i++ ){
uv.setXY(i, uv.old.getX(i) + v.x, uv.old.getY(i) + v.y )
}
if( autoscroll ){
if( mesh.removeUVListener ) mesh.removeUVListener()
mesh.removeUVListener = xrf.addEventListener('render', (opts) => {
let {time} = opts
for( let i = 0; i < uv.count; i++ ){
uv.setXY(i, uv.getX(i) + v.z * time, uv.getY(i) + v.w * time)
}
uv.needsUpdate = true
})
}
uv.needsUpdate = true
}
})
})
xrf.addEventListener('dynamicKey', (opts) => {
let {scene,id,match,v} = opts
if( !scene ) return
let remove = []
// erase previous lines
xrf.focusLine.lines.map( (line) => line.parent && (line.parent.remove(line)) )
xrf.focusLine.points = []
xrf.focusLine.lines = []
// drawlines
match.map( (w) => {
w.nodes.map( (mesh) => xrf.drawLineToMesh({ ...opts, mesh}) )
})
})
xrf.drawLineToMesh = (opts) => {
let {scene,mesh,frag,id} = opts
const THREE = xrf.THREE
let oldSelection
// Selection of Interest if predefined_view matches object name
if( mesh.visible && mesh.material){
xrf.emit('focus',{...opts,frag})
.then( () => {
const color = new THREE.Color();
const colors = []
let from = new THREE.Vector3()
let getCenterPoint = (mesh) => {
var geometry = mesh.geometry;
geometry.computeBoundingBox();
var center = new THREE.Vector3();
geometry.boundingBox.getCenter( center );
mesh.localToWorld( center );
return center;
}
let cam = xrf.camera.getCam ? xrf.camera.getCam() : xrf.camera // *FIXME* camerarig/rig are conflicting
cam.updateMatrixWorld(true); // always keeps me diving into the docs :]
cam.getWorldPosition(from)
from.y = 0.5 // originate from the heart chakra! :p
const points = [from, getCenterPoint(mesh) ]
const geometry = new THREE.BufferGeometry().setFromPoints( points );
let line = new THREE.Line( geometry, xrf.focusLine.material );
line.isXRF = true
line.computeLineDistances();
xrf.focusLine.lines.push(line)
xrf.focusLine.points.push(from)
xrf.focusLine.opacity = 1
scene.add(line)
})
}
}
xrf.addEventListener('render', (opts) => {
// update focusline
let {time,model} = opts
if( !xrf.clock ) return
xrf.focusLine.material.color.r = (1.0 + Math.sin( xrf.clock.getElapsedTime()*10 ))/2
xrf.focusLine.material.dashSize = 0.2 + 0.02*Math.sin( xrf.clock.getElapsedTime() )
xrf.focusLine.material.gapSize = 0.1 + 0.02*Math.sin( xrf.clock.getElapsedTime() *3 )
xrf.focusLine.material.opacity = (0.25 + 0.15*Math.sin( xrf.clock.getElapsedTime() * 3 )) * xrf.focusLine.opacity;
if( xrf.focusLine.opacity > 0.0 ) xrf.focusLine.opacity -= time*0.2
if( xrf.focusLine.opacity < 0.0 ) xrf.focusLine.opacity = 0
})
/*
* mimetype: audio/aac
* mimetype: audio/mpeg
* mimetype: audio/ogg
* mimetype: audio/weba
* mimetype: audio/wav
*/
let loadAudio = (mimetype) => function(url,opts){
let {mesh,src,camera,THREE} = opts
let {urlObj,dir,file,hash,ext} = xrf.parseUrl(url)
let frag = xrf.URI.parse( url )
/* WebAudio: setup context via THREEjs */
if( !camera.listener ){
camera.listener = new THREE.AudioListener();
// *FIXME* camera vs camerarig conflict
(camera.getCam ? camera.getCam() : camera).add( camera.listener );
}
let isPositionalAudio = !(mesh.position.x == 0 && mesh.position.y == 0 && mesh.position.z == 0)
const audioLoader = new THREE.AudioLoader();
let sound = isPositionalAudio ? new THREE.PositionalAudio( camera.listener)
: new THREE.Audio( camera.listener )
mesh.audio = {}
audioLoader.load( url.replace(/#.*/,''), function( buffer ) {
sound.setBuffer( buffer );
sound.setLoop(false);
sound.setVolume(1.0);
if( isPositionalAudio ){
sound.setRefDistance( mesh.scale.x);
sound.setRolloffFactor(20.0)
//sound.setDirectionalCone( 360, 360, 0.01 );
}
sound.playXRF = (t) => {
mesh.add(sound)
try{
if( sound.isPlaying && t.y != undefined ) sound.stop()
if( sound.isPlaying && t.y == undefined ) sound.pause()
let hardcodedLoop = frag.t != undefined
t = hardcodedLoop ? { ...frag.t, x: t.x} : t // override with hardcoded metadata except playstate (x)
if( t && t.x != 0 ){
// *TODO* https://stackoverflow.com/questions/12484052/how-can-i-reverse-playback-in-web-audio-api-but-keep-a-forward-version-as-well
t.x = Math.abs(t.x)
sound.setPlaybackRate( t.x ) // WebAudio does not support negative playback
// setting loop
if( t.z ) sound.setLoop( true )
// apply embedded audio/video samplerate/fps or global mixer fps
let loopStart = hardcodedLoop ? t.y : t.y * buffer.sampleRate;
let loopEnd = hardcodedLoop ? t.z : t.z * buffer.sampleRate;
let timeStart = loopStart > 0 ? loopStart : (t.y == undefined ? xrf.model.mixer.time : t.y)
if( t.z > 0 ) sound.setLoopEnd( loopEnd )
if( t.y != undefined ){
sound.setLoopStart( loopStart )
sound.offset = loopStart
}
sound.play()
}
}catch(e){ console.warn(e) }
}
// autoplay if user already requested play
let autoplay = mesh.audio && mesh.audio.autoplay
mesh.audio = sound
if( autoplay ) xrf.hashbus.pub(mesh.audio.autoplay)
});
}
let audioMimeTypes = [
'audio/wav',
'audio/mpeg',
'audio/mp3',
'audio/weba',
'audio/aac',
'application/ogg'
]
audioMimeTypes.map( (mimetype) => xrf.frag.src.type[ mimetype ] = loadAudio(mimetype) )
// listen to t XR fragment changes
xrf.addEventListener('t', (opts) => {
let t = opts.frag.t
xrf.scene.traverse( (n) => {
if( !n.audio ) return
if( !n.audio.playXRF ) n.audio.autoplay = t
else n.audio.playXRF(t)
})
})
/*
* mimetype: model/gltf+json
*/
xrf.frag.src.type['gltf'] = function( url, opts ){
return new Promise( (resolve,reject) => {
let {mesh,src} = opts
let {urlObj,dir,file,hash,ext} = xrf.parseUrl(url)
let loader
const Loader = xrf.loaders[ext]
if( !Loader ) throw 'xrfragment: no loader passed to xrfragment for extension .'+ext
if( !dir.match("://") ){ // force relative path
dir = dir[0] == './' ? dir : `./${dir}`
loader = new Loader().setPath( dir )
}else loader = new Loader()
loader.load(url, (model) => {
model.isSRC = true
resolve(model)
})
})
}
let loadHTML = (mimetype) => function(url,opts){
let {mesh,src,camera} = opts
let {urlObj,dir,file,hash,ext} = xrf.parseUrl(url)
let frag = xrf.URI.parse( url )
console.warn("todo: html viewer for src not implemented")
}
let htmlMimeTypes = [
'text/html'
]
htmlMimeTypes.map( (mimetype) => xrf.frag.src.type[ mimetype ] = loadHTML(mimetype) )
/*
* mimetype: image/png
* mimetype: image/jpg
* mimetype: image/gif
*/
xrf.frag.src.type['image/png'] = function(url,opts){
let {mesh,THREE} = opts
let restrictTo3DBoundingBox = mesh.geometry
mesh.material = new xrf.THREE.MeshBasicMaterial({
map: null,
transparent: url.match(/\.(png|gif)/) ? true : false,
side: THREE.DoubleSide,
color: 0xFFFFFF,
opacity:1
});
let renderImage = (texture) => {
let img = {w: texture.source.data.width, h: texture.source.data.height}
// stretch image by pinning uv-coordinates to corners
if( mesh.geometry ){
if( mesh.geometry.attributes.uv ){ // buffergeometries
let uv = mesh.geometry.attributes.uv;
}else {
console.warn("xrfragment: uv's of ${url} might be off for non-buffer-geometries *TODO*")
//if( geometry.faceVertexUvs ){
// *TODO* force uv's of dynamically created geometries (in threejs)
//}
}
}
mesh.material.map = texture
mesh.material.needsUpdate = true
mesh.needsUpdate = true
}
let onLoad = (texture) => {
texture.colorSpace = THREE.SRGBColorSpace;
texture.wrapS = THREE.RepeatWrapping;
texture.wrapT = THREE.RepeatWrapping;
renderImage(texture)
}
new THREE.TextureLoader().load( url, onLoad, null, console.error );
}
xrf.frag.src.type['image/gif'] = xrf.frag.src.type['image/png']
xrf.frag.src.type['image/jpeg'] = xrf.frag.src.type['image/png']
// spec 8: https://xrfragment.org/doc/RFC_XR_Macros.html#embedding-xr-content-using-src
xrf.portalNonEuclidian = function(opts){
let { frag, mesh, model, camera, scene, renderer} = opts
mesh.portal = {
pos: mesh.position.clone(),
posWorld: new xrf.THREE.Vector3(),
posWorldCamera: new xrf.THREE.Vector3(),
stencilRef: xrf.portalNonEuclidian.stencilRef,
needUpdate: false,
stencilObject: false,
cameraDirection: new xrf.THREE.Vector3(),
cameraPosition: new xrf.THREE.Vector3(),
raycaster: new xrf.THREE.Raycaster(),
isLocal: opts.isLocal,
isLens: false,
isInside: false,
setStencil: (stencilRef) => mesh.portal.stencilObjects.traverse( (n) => showPortal(n, stencilRef == 0) && n.stencil && n.stencil(stencilRef) ),
positionObjectsIfNeeded: (pos,scale) => !mesh.portal.isLens && mesh.portal.stencilObjects.traverse( (n) => n.positionAtStencil && (n.positionAtStencil(pos,scale)) )
}
// allow objects to flip between original and stencil position (which puts them behind stencilplane)
const addStencilFeature = (n) => {
if( n.stencil ) return n // run once
n.stencil = (sRef ) => xrf.portalNonEuclidian.selectStencil(n, sRef )
n.positionAtStencil = (pos,scale) => (newPos,newScale) => {
n.position.copy( newPos || pos )
n.scale.copy( scale )
n.updateMatrixWorld(true)
}
// curry function
n.positionAtStencil = n.positionAtStencil( n.position.clone(), n.scale.clone() )
return n
}
this.setupStencilObjects = (scene,opts) => {
// collect related objects to render inside stencilplane
let stencilObject = scene
if( opts.srcFrag.target ){
stencilObject = scene.getObjectByName( opts.srcFrag.target.key )
// spec: if src-object is child of portal (then portal is lens, and should include all children )
mesh.traverse( (n) => n.name == opts.srcFrag.target.key && (stencilObject = n) && (mesh.portal.isLens = true) )
}
if( !stencilObject ) return console.warn(`no objects were found (src:${mesh.userData.src}) for (portal)object name '${mesh.name}'`)
mesh.portal.stencilObject = stencilObject
// spec: if src points to child, act as lens
if( !mesh.portal.isLocal || mesh.portal.isLens ) stencilObject.visible = false
let stencilObjects = [stencilObject]
stencilObjects = stencilObjects
.filter( (n) => !n.portal ) // filter out (self)references to portals (prevent recursion)
.map(addStencilFeature)
// put it into a scene (without .add() because it reparents objects) so we can render it separately
mesh.portal.stencilObjects = new xrf.THREE.Scene()
mesh.portal.stencilObjects.children = stencilObjects
xrf.portalNonEuclidian.stencilRef += 1 // each portal has unique stencil id
console.log(`enabling portal for object '${mesh.name}' (stencilRef:${mesh.portal.stencilRef})`)
return this
}
// enable the stencil-material of the stencil objects to prevent stackoverflow (portal in portal rendering)
const showPortal = (n,show) => {
if( n.portal ) n.visible = show
return true
}
this.setupListeners = () => {
mesh.onAfterRender = function(renderer, scene, camera, geometry, material, group ){
mesh.portal.needUpdate = true
}
xrf.addEventListener('renderPost', (opts) => {
let {scene,camera,time,render,renderer} = opts
if( mesh.portal.needUpdate && mesh.portal && mesh.portal.stencilObjects ){
let cameraDirection = mesh.portal.cameraDirection
let cameraPosition = mesh.portal.cameraPosition
let stencilRef = mesh.portal.stencilRef
let newPos = mesh.portal.posWorld
let stencilObject = mesh.portal.stencilObject
let newScale = mesh.scale
let raycaster = mesh.portal.raycaster
let cam = xrf.camera.getCam ? xrf.camera.getCam() : camera
cam.getWorldPosition(cameraPosition)
cam.getWorldDirection(cameraDirection)
if( cameraPosition.distanceTo(newPos) > 10.0 ) return // dont render far portals
// init
if( !mesh.portal.isLocal || mesh.portal.isLens ) stencilObject.visible = true
mesh.portal.setStencil(stencilRef)
renderer.autoClear = false
renderer.autoClearDepth = false
renderer.autoClearColor = false
renderer.autoClearStencil = false
// render
render( mesh.portal.stencilObjects, camera )
// de-init
renderer.autoClear = true
renderer.autoClearDepth = true
renderer.autoClearColor = true
renderer.autoClearStencil = true
mesh.portal.setStencil(0)
if( !mesh.portal.isLocal || mesh.portal.isLens ) stencilObject.visible = false
// trigger href upon camera collide
if( mesh.userData.XRF.href ){
raycaster.far = 0.35
raycaster.set(cameraPosition, cameraDirection )
intersects = raycaster.intersectObjects([mesh], false)
if (intersects.length > 0 && !mesh.portal.teleporting ){
mesh.portal.teleporting = true
mesh.userData.XRF.href.exec({nocommit:true})
setTimeout( () => mesh.portal.teleporting = false, 500) // dont flip back and forth
}
}
}
mesh.portal.needUpdate = false
})
return this
}
// turn mesh into stencilplane
xrf
.portalNonEuclidian
.setMaterial(mesh)
.getWorldPosition(mesh.portal.posWorld)
this
.setupListeners()
.setupStencilObjects(scene,opts)
// move portal objects to portalposition
if( mesh.portal.stencilObjects ) mesh.portal.positionObjectsIfNeeded(mesh.portal.posWorld, mesh.scale)
}
xrf.portalNonEuclidian.selectStencil = (n, stencilRef, nested) => {
if( n.material ){
n.material.stencilRef = stencilRef
n.material.stencilWrite = stencilRef > 0
n.material.stencilFunc = xrf.THREE.EqualStencilFunc;
}
if( n.children && !nested ) n.traverse( (m) => !m.portal && (xrf.portalNonEuclidian.selectStencil(m,stencilRef,true)) )
}
xrf.portalNonEuclidian.setMaterial = function(mesh){
mesh.material = new xrf.THREE.MeshBasicMaterial({ color: 'orange' });
mesh.material.depthWrite = false;
mesh.material.colorWrite = false;
mesh.material.stencilWrite = true;
mesh.material.stencilRef = xrf.portalNonEuclidian.stencilRef;
// mesh.renderOrder = 0;//xrf.portalNonEuclidian.stencilRef;
mesh.material.stencilFunc = xrf.THREE.AlwaysStencilFunc;
mesh.material.stencilZPass = xrf.THREE.ReplaceStencilOp;
mesh.material.stencilZFail = xrf.THREE.ReplaceStencilOp;
//n.material.depthFunc = stencilRef > 0 ? xrf.THREE.AlwaysDepth : xrf.THREE.LessEqualDepth
//mesh.material.depthTest = false;
return mesh
}
xrf.addEventListener('parseModel',(opts) => {
const scene = opts.model.scene
//for( let i in scene.children ) scene.children[i].renderOrder = 10 // render outer layers last (worldspheres e.g.)
})
// (re)set portalObjects when entering/leaving a portal
let updatePortals = (opts) => {
xrf.scene.traverse( (n) => {
if( !n.portal ) return
// move objects back to the portal
if( n.portal.isInside ) n.portal.positionObjectsIfNeeded( n.portal.posWorld, n.scale )
n.portal.isInside = false
})
if( opts.mesh && opts.mesh.portal && opts.click ){
opts.mesh.portal.isInside = true
opts.mesh.portal.positionObjectsIfNeeded() // move objects back to original pos (since we are teleporting there)
}
}
xrf.addEventListener('href', (opts) => opts.click && updatePortals(opts) )
xrf.addEventListener('navigate', updatePortals )
xrf.portalNonEuclidian.stencilRef = 1
let loadVideo = (mimetype) => function(url,opts){
let {mesh,src,camera} = opts
let {urlObj,dir,file,hash,ext} = xrf.parseUrl(url)
const THREE = xrf.THREE
let frag = xrf.URI.parse( url )
let video = mesh.video = document.createElement('video')
video.setAttribute("crossOrigin","anonymous")
video.setAttribute("playsinline",'')
video.addEventListener('loadedmetadata', function(){
let texture = new THREE.VideoTexture( video );
texture.colorSpace = THREE.SRGBColorSpace;
let mat = new xrf.THREE.MeshBasicMaterial()
mat.map = texture
mesh.material = mat
// set range
//video.addEventListener('timeupdate', function timeupdate() {
// if (frag.t && video.currentTime < frag.t.y || video.currentTime >= frag.t.z ) {
// video.currentTime = frag.t.y
// }
//},false)
})
video.src = url
video.playXRF = (t) => {
video.t = t
if( t.x == 0 ) video.pause()
else{
video.playbackRate = Math.abs( t.x ) // html5 video does not support reverseplay :/
video.play()
}
if( t.y != undefined ) video.time = t.y
}
}
let videoMimeTypes = [
'video/ogg',
'video/mp4'
]
videoMimeTypes.map( (mimetype) => xrf.frag.src.type[ mimetype ] = loadVideo(mimetype) )
// listen to t XR fragment changes
xrf.addEventListener('t', (opts) => {
let t = opts.frag.t
xrf.scene.traverse( (n) => n.video && (n.video.playXRF(t)) )
})
window.AFRAME.registerComponent('xrf', {
schema: {
http: { type:'string'},
https: { type:'string'},
},
init: function () {
// override this.data when URL has passed (`://....com/?https://foo.com/index.glb` e.g.)
if( typeof this.data == "string" ){
let searchIsUri = document.location.search &&
!document.location.search.match(/=/) &&
document.location.search.match("://")
if( searchIsUri || document.location.hash.length > 1 ){ // override url
this.data = `${document.location.search.substr(1)}${document.location.hash}`
}
}
if( !AFRAME.XRF ){
let camera = document.querySelector('[camera]')
// start with black
camera.setAttribute('xrf-fade','')
AFRAME.fade = camera.components['xrf-fade']
let aScene = AFRAME.scenes[0]
// enable XR fragments
let XRF = AFRAME.XRF = xrf.init({
THREE,
camera: aScene.camera,
scene: aScene.object3D,
renderer: aScene.renderer,
loaders: {
gltf: THREE.GLTFLoader, // which 3D assets (exts) to check for XR fragments?
glb: THREE.GLTFLoader,
obj: THREE.OBJLoader
}
})
aScene.renderer.toneMapping = THREE.ACESFilmicToneMapping;
aScene.renderer.toneMappingExposure = 1.5;
if( !XRF.camera ) throw 'xrfragment: no camera detected, please declare <a-entity camera..> ABOVE entities with xrf-attributes'
// this is just for convenience (not part of spec): hide/show stuff based on VR/AR tags in 3D model
ARbutton = document.querySelector('.a-enter-ar-button')
VRbutton = document.querySelector('.a-enter-vr-button')
if( ARbutton ) ARbutton.addEventListener('click', () => AFRAME.XRF.hashbus.pub( '#AR' ) )
if( VRbutton ) VRbutton.addEventListener('click', () => AFRAME.XRF.hashbus.pub( '#VR' ) )
aScene.addEventListener('enter-vr', () => {
// sometimes AFRAME resets the user position to 0,0,0 when entering VR (not sure why)
let pos = xrf.frag.pos.last
if( pos ){ AFRAME.XRF.camera.position.set(pos.x, pos.y, pos.z) }
})
xrf.addEventListener('navigateLoaded', (opts) => {
setTimeout( () => AFRAME.fade.out(),500)
let isLocal = opts.url.match(/^#/)
if( isLocal ) return
// *TODO* this does not really belong here perhaps
let blinkControls = document.querySelector('[blink-controls]')
if( blinkControls ){
let els = xrf.getCollisionMeshes()
let invisible = false
els.map( (mesh) => {
if( !invisible ){
invisible = mesh.material.clone()
invisible.visible = false
}
mesh.material = invisible
let el = document.createElement("a-entity")
el.setAttribute("xrf-get", mesh.name )
el.setAttribute("class","floor")
$('a-scene').appendChild(el)
})
let com = blinkControls.components['blink-controls']
if( com ) com.update({collisionEntities:true})
else console.warn("xrfragments: blink-controls is not mounted, please run manually: $('[blink-controls]).components['blink-controls'].update({collisionEntities:true})")
}
// give headset users way to debug without a cumbersome usb-tapdance
if( xrf.debug || document.location.hostname.match(/^(localhost|[1-9])/) && !aScene.getAttribute("vconsole") ){
aScene.setAttribute('vconsole','')
}
})
xrf.addEventListener('navigateLoading', (opts) => {
let p = opts.promise()
let url = opts.url
let isLocal = url.match(/^#/)
let hasPos = url.match(/pos=/)
let fastFadeMs = 200
if( isLocal ){
if( hasPos ){
// local teleports only
AFRAME.fade.in(fastFadeMs)
setTimeout( () => {
p.resolve()
}, fastFadeMs)
}
}else{
AFRAME.fade.in(fastFadeMs)
setTimeout( () => {
p.resolve()
}, AFRAME.fade.data.fadetime )
}
},{weight:-1000})
// convert href's to a-entity's so AFRAME
// raycaster can find & execute it
AFRAME.XRF.clickableMeshToEntity = (opts) => {
let {mesh,clickHandler} = opts;
let el = document.createElement("a-entity")
el.setAttribute("xrf-get",mesh.name ) // turn into AFRAME entity
el.setAttribute("class","ray") // expose to raycaster
el.setAttribute("pressable", '') // detect hand-controller click
// respond to cursor via laser-controls (https://aframe.io/docs/1.4.0/components/laser-controls.html)
el.addEventListener("click", clickHandler )
el.addEventListener("mouseenter", mesh.userData.XRF.href.selected(true) )
el.addEventListener("mouseleave", mesh.userData.XRF.href.selected(false) )
el.addEventListener("pressedstarted", clickHandler )
$('a-scene').appendChild(el)
}
xrf.addEventListener('interactionReady', AFRAME.XRF.clickableMeshToEntity )
// cleanup xrf-get objects when resetting scene
xrf.addEventListener('reset', (opts) => {
let els = [...document.querySelectorAll('[xrf-get]')]
els.map( (el) => document.querySelector('a-scene').removeChild(el) )
})
if( typeof this.data === 'string' || this.data.http || this.data.https ){
let url
if( typeof this.data === 'string' ) url = this.data
if( this.data.http ) url = `http:${this.data.http}`
if( this.data.https ) url = `https:${this.data.https}`
AFRAME.XRF.navigator.to( url )
.then( (model) => {
let gets = [ ...document.querySelectorAll('[xrf-get]') ]
gets.map( (g) => g.emit('update') )
})
}
aScene.emit('XRF',{})
// enable gaze-click on Mobile VR
aScene.setAttribute('xrf-gaze','')
}
},
})
// look-controls turns off autoUpdateMatrix (of player) which
// will break teleporting and other stuff
// overriding this is easier then adding updateMatrixWorld() everywhere else
//AFRAME.components['look-controls'].Component.prototype.onEnterVR = function () {}
//AFRAME.components['look-controls'].Component.prototype.onExitVR = function () {}
AFRAME.components['look-controls'].Component.prototype.onEnterVR = function () {
var sceneEl = this.el.sceneEl;
if (!sceneEl.checkHeadsetConnected()) { return; }
this.saveCameraPose();
this.el.object3D.position.set(0, 0, 0);
this.el.object3D.rotation.set(0, 0, 0);
if (sceneEl.hasWebXR) {
// this.el.object3D.matrixAutoUpdate = false;
this.el.object3D.updateMatrix();
}
}
/**
* Restore the pose.
*/
AFRAME.components['look-controls'].Component.prototype.onExitVR = function () {
if (!this.el.sceneEl.checkHeadsetConnected()) { return; }
this.restoreCameraPose();
this.previousHMDPosition.set(0, 0, 0);
this.el.object3D.matrixAutoUpdate = true;
}
// it also needs to apply the offset (in case the #rot was used in URLS)
AFRAME.components['look-controls'].Component.prototype.updateOrientation = function () {
var object3D = this.el.object3D;
var pitchObject = this.pitchObject;
var yawObject = this.yawObject;
var sceneEl = this.el.sceneEl;
// In VR or AR mode, THREE is in charge of updating the camera pose.
if ((sceneEl.is('vr-mode') || sceneEl.is('ar-mode')) && sceneEl.checkHeadsetConnected()) {
// With WebXR THREE applies headset pose to the object3D internally.
return;
}
this.updateMagicWindowOrientation();
let offsetX = object3D.rotation.offset ? object3D.rotation.offset.x : 0
let offsetY = object3D.rotation.offset ? object3D.rotation.offset.y : 0
// On mobile, do camera rotation with touch events and sensors.
object3D.rotation.x = this.magicWindowDeltaEuler.x + offsetX + pitchObject.rotation.x;
object3D.rotation.y = this.magicWindowDeltaEuler.y + offsetY + yawObject.rotation.y;
object3D.rotation.z = this.magicWindowDeltaEuler.z;
object3D.matrixAutoUpdate = true
}
window.AFRAME.registerComponent('xrf-button', {
schema: {
label: {
default: 'label'
},
width: {
default: 0.11
},
toggable: {
default: false
},
textSize: {
default: 0.66
},
color:{
default: '#111'
},
textColor:{
default: '#fff'
},
hicolor:{
default: '#555555'
},
action:{
default: ''
}
},
init: function() {
var el = this.el;
var labelEl = this.labelEl = document.createElement('a-entity');
this.color = this.data.color
el.setAttribute('geometry', {
primitive: 'box',
width: this.data.width,
height: 0.05,
depth: 0.005
});
el.setAttribute('material', {
color: this.color,
transparent:true,
opacity:0.3
});
el.setAttribute('pressable', '');
labelEl.setAttribute('position', '0 0 0.01');
labelEl.setAttribute('text', {
value: this.data.label,
color: this.data.textColor,
align: 'center'
});
labelEl.setAttribute('scale', `${this.data.textSize} ${this.data.textSize} ${this.data.textSize}`);
this.el.appendChild(labelEl);
this.bindMethods();
this.el.addEventListener('stateadded', this.stateChanged);
this.el.addEventListener('stateremoved', this.stateChanged);
this.el.addEventListener('pressedstarted', this.onPressedStarted);
this.el.addEventListener('pressedended', this.onPressedEnded);
this.el.addEventListener('mouseenter', (e) => this.onMouseEnter(e) );
this.el.addEventListener('mouseleave', (e) => this.onMouseLeave(e) );
if( this.data.action ){
this.el.addEventListener('click', new Function(this.data.action) )
}
},
bindMethods: function() {
this.stateChanged = this.stateChanged.bind(this);
this.onPressedStarted = this.onPressedStarted.bind(this);
this.onPressedEnded = this.onPressedEnded.bind(this);
},
update: function(oldData) {
if (oldData.label !== this.data.label) {
this.labelEl.setAttribute('text', 'value', this.data.label);
}
},
stateChanged: function() {
var color = this.el.is('pressed') ? this.data.hicolor : this.color;
this.el.setAttribute('material', {
color: color
});
},
onMouseEnter: function(){
this.el.setAttribute('material', { color: this.data.hicolor });
},
onMouseLeave: function(){
this.el.setAttribute('material', { color: this.color });
},
onPressedStarted: function() {
var el = this.el;
el.setAttribute('material', {
color: this.data.hicolor
});
el.emit('click');
if (this.data.togabble) {
if (el.is('pressed')) {
el.removeState('pressed');
} else {
el.addState('pressed');
}
}
},
onPressedEnded: function() {
if (this.el.is('pressed')) {
return;
}
this.el.setAttribute('material', {
color: this.color
});
}
});
AFRAME.registerComponent('vconsole', {
init: function () {
//AFRAME.XRF.navigator.to("https://coderofsalvation.github.io/xrsh-media/assets/background.glb")
document.head.innerHTML += `
<style type="text/css">
.vc-panel {
right:unset !important;
width:100%;
max-width:900px;
z-index:100 !important;
}
.vc-mask{ display:none !important; }
</style>
`
let script = document.createElement("script")
script.src = "https://unpkg.com/vconsole@latest/dist/vconsole.min.js"
script.setAttribute('async','true')
script.onload = function(){
this.vConsole = new window.VConsole()
document.querySelector('.vc-switch').style.right = 'unset'
document.querySelector('.vc-switch').style.left = '20px'
}
document.body.appendChild(script)
}
});
AFRAME.registerComponent('xrf-fade', {
schema:{
fadetime:{type:"number", default: 1000},
color:{type:"color", default:"black"},
opacity:{type:"float",default:1.0}
},
init: function(){
let fb = this.fb = document.createElement("a-box")
fb.setAttribute("scale", "1 1 1")
fb.setAttribute("material", `color: ${this.data.color}; transparent: true; side: back; shader: flat; opacity:1`)
this.el.appendChild(fb)
},
out: function(fadetime){
if( fadetime != undefined ) this.data.fadetime = fadetime
if( this.data.opacity == 0 ) return
this.data.opacity = 0.0
this.fb.setAttribute("animation", `property: components.material.material.opacity; dur: ${this.data.fadetime}; from: 1; to: ${this.data.opacity}`)
setTimeout( () => this.fb.object3D.visible = false, this.data.fadetime )
},
"in": function(fadetime){
if( fadetime != undefined ) this.data.fadetime = fadetime
if( this.data.opacity == 1 ) return
this.data.opacity = 1.0
this.fb.object3D.visible = true
this.fb.setAttribute("animation", `property: components.material.material.opacity; dur: ${this.data.fadetime}; from: 0; to: ${this.data.opacity}`)
}
});
// gaze click on mobile VR
AFRAME.registerComponent('xrf-gaze',{
schema:{
spawn:{type:'boolean',default:false},
},
setGazer: function(state){
let cam = document.querySelector("[camera]")
if( state ){
if( cam.innerHTML.match(/cursor/) ) return; // avoid duplicate calls
cam.innerHTML = `<a-entity id="cursor" cursor="fuse: true; fuseTimeout: 1500"
animation__click="property: scale; startEvents: click; easing: easeInCubic; dur: 150; from: 0.1 0.1 0.1; to: 1 1 1"
animation__fusing="property: scale; startEvents: fusing; easing: easeInCubic; dur: 1500; from: 1 1 1; to: 0.1 0.1 0.1"
animation__mouseleave="property: scale; startEvents: mouseleave; easing: easeInCubic; dur: 500; to: 1 1 1"
raycaster="objects: .ray"
visible="true"
position="0 0 -1"
geometry="primitive: ring; radiusInner: 0.02; radiusOuter: 0.03"
material="color: #BBBBBB; shader: flat">
</a-entity>`
}else{
if( document.querySelector('[cursor]') ) {
document.querySelector('[cursor]').setAttribute("visible",false)
}
}
},
init:function(data){
let enabled = () => AFRAME.utils.device.isMobile()
let setVisible = (state) => {
if( enabled() ) this.setGazer(state)
}
setVisible(false);
document.querySelector("a-scene").addEventListener('exit-vr', () => setVisible(false) )
document.querySelector("a-scene").addEventListener('enter-vr', () => setVisible(true) )
document.querySelector("a-scene").addEventListener('exit-ar', () => setVisible(false) )
document.querySelector("a-scene").addEventListener('enter-ar', () => setVisible(true) )
let highlightMesh = (state) => (e) => {
if( !e.target.object3D ) return
let obj = e.target.object3D.children[0]
if( obj && obj.userData && obj.userData.XRF && obj.userData.XRF.href )
obj.userData.XRF.href.selected( state )()
}
this.el.addEventListener("mouseenter", highlightMesh(true) )
this.el.addEventListener("mouseleave", highlightMesh(false ) )
}
});
window.AFRAME.registerComponent('xrf-get', {
schema: {
name: {type: 'string'},
clone: {type: 'boolean', default:false},
reparent: {type: 'boolean', default:false}
},
init: function () {
var el = this.el;
var meshname = this.data.name || this.data;
this.el.addEventListener('update', (evt) => {
setTimeout( () => {
if( !this.mesh ){
let scene = AFRAME.XRF.scene
let mesh = this.mesh = scene.getObjectByName(meshname);
if( !this.el.className.match(/ray/) ) this.el.className += " ray"
if (!mesh){
console.error("mesh with name '"+meshname+"' not found in model")
return;
}
// we don't want to re-parent gltf-meshes
mesh.isXRF = true // mark for deletion by xrf
if( this.data.reparent ){
const world = {
pos: new THREE.Vector3(),
scale: new THREE.Vector3(),
quat: new THREE.Quaternion()
}
mesh.getWorldPosition(world.pos)
mesh.getWorldScale(world.scale)
mesh.getWorldQuaternion(world.quat);
mesh.position.copy(world.pos)
mesh.scale.copy(world.scale)
mesh.setRotationFromQuaternion(world.quat);
}else{
// lets create a dummy add function so that the mesh won't get reparented
this.el.object3D.add = (a) => a
}
this.el.setObject3D('mesh',mesh)
if( !this.el.id ) this.el.setAttribute("id",`xrf-${mesh.name}`)
}else console.warn("xrf-get ignore: "+JSON.stringify(this.data))
}, evt && evt.timeout ? evt.timeout: 500)
})
this.el.emit("update",{timeout:0})
AFRAME.XRF.addEventListener('reset', () => {
try{
if( this.el ) this.el.remove()
}catch(e){}
})
}
});
window.AFRAME.registerComponent('xrf-wear', {
schema:{
el: {type:"selector"},
position: {type:"vec3"},
rotation: {type:"vec3"}
},
init: function(){
$('a-scene').addEventListener('enter-vr', (e) => this.wear(e) )
$('a-scene').addEventListener('exit-vr', (e) => this.unwear(e) )
},
wear: function(){
if( !this.wearable ){
let d = this.data
this.wearable = new THREE.Group()
this.el.object3D.children.map( (c) => this.wearable.add(c) )
this.wearable.position.set( d.position.x, d.position.y, d.position.z)
this.wearable.rotation.set( d.rotation.x, d.rotation.y, d.rotation.z)
}
this.data.el.object3D.add(this.wearable)
},
unwear: function(){
this.data.el.remove(this.wearable)
this.wearable.children.map( (c) => this.el.object3D.add(c) )
delete this.wearable
}
})
// https://github.com/yyx990803/QR.js
//
window.QR = (function () {
// alignment pattern
adelta = [
0, 11, 15, 19, 23, 27, 31, // force 1 pat
16, 18, 20, 22, 24, 26, 28, 20, 22, 24, 24, 26, 28, 28, 22, 24, 24,
26, 26, 28, 28, 24, 24, 26, 26, 26, 28, 28, 24, 26, 26, 26, 28, 28
];
// version block
vpat = [
0xc94, 0x5bc, 0xa99, 0x4d3, 0xbf6, 0x762, 0x847, 0x60d,
0x928, 0xb78, 0x45d, 0xa17, 0x532, 0x9a6, 0x683, 0x8c9,
0x7ec, 0xec4, 0x1e1, 0xfab, 0x08e, 0xc1a, 0x33f, 0xd75,
0x250, 0x9d5, 0x6f0, 0x8ba, 0x79f, 0xb0b, 0x42e, 0xa64,
0x541, 0xc69
];
// final format bits with mask: level << 3 | mask
fmtword = [
0x77c4, 0x72f3, 0x7daa, 0x789d, 0x662f, 0x6318, 0x6c41, 0x6976, //L
0x5412, 0x5125, 0x5e7c, 0x5b4b, 0x45f9, 0x40ce, 0x4f97, 0x4aa0, //M
0x355f, 0x3068, 0x3f31, 0x3a06, 0x24b4, 0x2183, 0x2eda, 0x2bed, //Q
0x1689, 0x13be, 0x1ce7, 0x19d0, 0x0762, 0x0255, 0x0d0c, 0x083b //H
];
// 4 per version: number of blocks 1,2; data width; ecc width
eccblocks = [
1, 0, 19, 7, 1, 0, 16, 10, 1, 0, 13, 13, 1, 0, 9, 17,
1, 0, 34, 10, 1, 0, 28, 16, 1, 0, 22, 22, 1, 0, 16, 28,
1, 0, 55, 15, 1, 0, 44, 26, 2, 0, 17, 18, 2, 0, 13, 22,
1, 0, 80, 20, 2, 0, 32, 18, 2, 0, 24, 26, 4, 0, 9, 16,
1, 0, 108, 26, 2, 0, 43, 24, 2, 2, 15, 18, 2, 2, 11, 22,
2, 0, 68, 18, 4, 0, 27, 16, 4, 0, 19, 24, 4, 0, 15, 28,
2, 0, 78, 20, 4, 0, 31, 18, 2, 4, 14, 18, 4, 1, 13, 26,
2, 0, 97, 24, 2, 2, 38, 22, 4, 2, 18, 22, 4, 2, 14, 26,
2, 0, 116, 30, 3, 2, 36, 22, 4, 4, 16, 20, 4, 4, 12, 24,
2, 2, 68, 18, 4, 1, 43, 26, 6, 2, 19, 24, 6, 2, 15, 28,
4, 0, 81, 20, 1, 4, 50, 30, 4, 4, 22, 28, 3, 8, 12, 24,
2, 2, 92, 24, 6, 2, 36, 22, 4, 6, 20, 26, 7, 4, 14, 28,
4, 0, 107, 26, 8, 1, 37, 22, 8, 4, 20, 24, 12, 4, 11, 22,
3, 1, 115, 30, 4, 5, 40, 24, 11, 5, 16, 20, 11, 5, 12, 24,
5, 1, 87, 22, 5, 5, 41, 24, 5, 7, 24, 30, 11, 7, 12, 24,
5, 1, 98, 24, 7, 3, 45, 28, 15, 2, 19, 24, 3, 13, 15, 30,
1, 5, 107, 28, 10, 1, 46, 28, 1, 15, 22, 28, 2, 17, 14, 28,
5, 1, 120, 30, 9, 4, 43, 26, 17, 1, 22, 28, 2, 19, 14, 28,
3, 4, 113, 28, 3, 11, 44, 26, 17, 4, 21, 26, 9, 16, 13, 26,
3, 5, 107, 28, 3, 13, 41, 26, 15, 5, 24, 30, 15, 10, 15, 28,
4, 4, 116, 28, 17, 0, 42, 26, 17, 6, 22, 28, 19, 6, 16, 30,
2, 7, 111, 28, 17, 0, 46, 28, 7, 16, 24, 30, 34, 0, 13, 24,
4, 5, 121, 30, 4, 14, 47, 28, 11, 14, 24, 30, 16, 14, 15, 30,
6, 4, 117, 30, 6, 14, 45, 28, 11, 16, 24, 30, 30, 2, 16, 30,
8, 4, 106, 26, 8, 13, 47, 28, 7, 22, 24, 30, 22, 13, 15, 30,
10, 2, 114, 28, 19, 4, 46, 28, 28, 6, 22, 28, 33, 4, 16, 30,
8, 4, 122, 30, 22, 3, 45, 28, 8, 26, 23, 30, 12, 28, 15, 30,
3, 10, 117, 30, 3, 23, 45, 28, 4, 31, 24, 30, 11, 31, 15, 30,
7, 7, 116, 30, 21, 7, 45, 28, 1, 37, 23, 30, 19, 26, 15, 30,
5, 10, 115, 30, 19, 10, 47, 28, 15, 25, 24, 30, 23, 25, 15, 30,
13, 3, 115, 30, 2, 29, 46, 28, 42, 1, 24, 30, 23, 28, 15, 30,
17, 0, 115, 30, 10, 23, 46, 28, 10, 35, 24, 30, 19, 35, 15, 30,
17, 1, 115, 30, 14, 21, 46, 28, 29, 19, 24, 30, 11, 46, 15, 30,
13, 6, 115, 30, 14, 23, 46, 28, 44, 7, 24, 30, 59, 1, 16, 30,
12, 7, 121, 30, 12, 26, 47, 28, 39, 14, 24, 30, 22, 41, 15, 30,
6, 14, 121, 30, 6, 34, 47, 28, 46, 10, 24, 30, 2, 64, 15, 30,
17, 4, 122, 30, 29, 14, 46, 28, 49, 10, 24, 30, 24, 46, 15, 30,
4, 18, 122, 30, 13, 32, 46, 28, 48, 14, 24, 30, 42, 32, 15, 30,
20, 4, 117, 30, 40, 7, 47, 28, 43, 22, 24, 30, 10, 67, 15, 30,
19, 6, 118, 30, 18, 31, 47, 28, 34, 34, 24, 30, 20, 61, 15, 30
];
// Galois field log table
glog = [
0xff, 0x00, 0x01, 0x19, 0x02, 0x32, 0x1a, 0xc6, 0x03, 0xdf, 0x33, 0xee, 0x1b, 0x68, 0xc7, 0x4b,
0x04, 0x64, 0xe0, 0x0e, 0x34, 0x8d, 0xef, 0x81, 0x1c, 0xc1, 0x69, 0xf8, 0xc8, 0x08, 0x4c, 0x71,
0x05, 0x8a, 0x65, 0x2f, 0xe1, 0x24, 0x0f, 0x21, 0x35, 0x93, 0x8e, 0xda, 0xf0, 0x12, 0x82, 0x45,
0x1d, 0xb5, 0xc2, 0x7d, 0x6a, 0x27, 0xf9, 0xb9, 0xc9, 0x9a, 0x09, 0x78, 0x4d, 0xe4, 0x72, 0xa6,
0x06, 0xbf, 0x8b, 0x62, 0x66, 0xdd, 0x30, 0xfd, 0xe2, 0x98, 0x25, 0xb3, 0x10, 0x91, 0x22, 0x88,
0x36, 0xd0, 0x94, 0xce, 0x8f, 0x96, 0xdb, 0xbd, 0xf1, 0xd2, 0x13, 0x5c, 0x83, 0x38, 0x46, 0x40,
0x1e, 0x42, 0xb6, 0xa3, 0xc3, 0x48, 0x7e, 0x6e, 0x6b, 0x3a, 0x28, 0x54, 0xfa, 0x85, 0xba, 0x3d,
0xca, 0x5e, 0x9b, 0x9f, 0x0a, 0x15, 0x79, 0x2b, 0x4e, 0xd4, 0xe5, 0xac, 0x73, 0xf3, 0xa7, 0x57,
0x07, 0x70, 0xc0, 0xf7, 0x8c, 0x80, 0x63, 0x0d, 0x67, 0x4a, 0xde, 0xed, 0x31, 0xc5, 0xfe, 0x18,
0xe3, 0xa5, 0x99, 0x77, 0x26, 0xb8, 0xb4, 0x7c, 0x11, 0x44, 0x92, 0xd9, 0x23, 0x20, 0x89, 0x2e,
0x37, 0x3f, 0xd1, 0x5b, 0x95, 0xbc, 0xcf, 0xcd, 0x90, 0x87, 0x97, 0xb2, 0xdc, 0xfc, 0xbe, 0x61,
0xf2, 0x56, 0xd3, 0xab, 0x14, 0x2a, 0x5d, 0x9e, 0x84, 0x3c, 0x39, 0x53, 0x47, 0x6d, 0x41, 0xa2,
0x1f, 0x2d, 0x43, 0xd8, 0xb7, 0x7b, 0xa4, 0x76, 0xc4, 0x17, 0x49, 0xec, 0x7f, 0x0c, 0x6f, 0xf6,
0x6c, 0xa1, 0x3b, 0x52, 0x29, 0x9d, 0x55, 0xaa, 0xfb, 0x60, 0x86, 0xb1, 0xbb, 0xcc, 0x3e, 0x5a,
0xcb, 0x59, 0x5f, 0xb0, 0x9c, 0xa9, 0xa0, 0x51, 0x0b, 0xf5, 0x16, 0xeb, 0x7a, 0x75, 0x2c, 0xd7,
0x4f, 0xae, 0xd5, 0xe9, 0xe6, 0xe7, 0xad, 0xe8, 0x74, 0xd6, 0xf4, 0xea, 0xa8, 0x50, 0x58, 0xaf
];
// Galios field exponent table
gexp = [
0x01, 0x02, 0x04, 0x08, 0x10, 0x20, 0x40, 0x80, 0x1d, 0x3a, 0x74, 0xe8, 0xcd, 0x87, 0x13, 0x26,
0x4c, 0x98, 0x2d, 0x5a, 0xb4, 0x75, 0xea, 0xc9, 0x8f, 0x03, 0x06, 0x0c, 0x18, 0x30, 0x60, 0xc0,
0x9d, 0x27, 0x4e, 0x9c, 0x25, 0x4a, 0x94, 0x35, 0x6a, 0xd4, 0xb5, 0x77, 0xee, 0xc1, 0x9f, 0x23,
0x46, 0x8c, 0x05, 0x0a, 0x14, 0x28, 0x50, 0xa0, 0x5d, 0xba, 0x69, 0xd2, 0xb9, 0x6f, 0xde, 0xa1,
0x5f, 0xbe, 0x61, 0xc2, 0x99, 0x2f, 0x5e, 0xbc, 0x65, 0xca, 0x89, 0x0f, 0x1e, 0x3c, 0x78, 0xf0,
0xfd, 0xe7, 0xd3, 0xbb, 0x6b, 0xd6, 0xb1, 0x7f, 0xfe, 0xe1, 0xdf, 0xa3, 0x5b, 0xb6, 0x71, 0xe2,
0xd9, 0xaf, 0x43, 0x86, 0x11, 0x22, 0x44, 0x88, 0x0d, 0x1a, 0x34, 0x68, 0xd0, 0xbd, 0x67, 0xce,
0x81, 0x1f, 0x3e, 0x7c, 0xf8, 0xed, 0xc7, 0x93, 0x3b, 0x76, 0xec, 0xc5, 0x97, 0x33, 0x66, 0xcc,
0x85, 0x17, 0x2e, 0x5c, 0xb8, 0x6d, 0xda, 0xa9, 0x4f, 0x9e, 0x21, 0x42, 0x84, 0x15, 0x2a, 0x54,
0xa8, 0x4d, 0x9a, 0x29, 0x52, 0xa4, 0x55, 0xaa, 0x49, 0x92, 0x39, 0x72, 0xe4, 0xd5, 0xb7, 0x73,
0xe6, 0xd1, 0xbf, 0x63, 0xc6, 0x91, 0x3f, 0x7e, 0xfc, 0xe5, 0xd7, 0xb3, 0x7b, 0xf6, 0xf1, 0xff,
0xe3, 0xdb, 0xab, 0x4b, 0x96, 0x31, 0x62, 0xc4, 0x95, 0x37, 0x6e, 0xdc, 0xa5, 0x57, 0xae, 0x41,
0x82, 0x19, 0x32, 0x64, 0xc8, 0x8d, 0x07, 0x0e, 0x1c, 0x38, 0x70, 0xe0, 0xdd, 0xa7, 0x53, 0xa6,
0x51, 0xa2, 0x59, 0xb2, 0x79, 0xf2, 0xf9, 0xef, 0xc3, 0x9b, 0x2b, 0x56, 0xac, 0x45, 0x8a, 0x09,
0x12, 0x24, 0x48, 0x90, 0x3d, 0x7a, 0xf4, 0xf5, 0xf7, 0xf3, 0xfb, 0xeb, 0xcb, 0x8b, 0x0b, 0x16,
0x2c, 0x58, 0xb0, 0x7d, 0xfa, 0xe9, 0xcf, 0x83, 0x1b, 0x36, 0x6c, 0xd8, 0xad, 0x47, 0x8e, 0x00
];
// Working buffers:
// data input and ecc append, image working buffer, fixed part of image, run lengths for badness
var strinbuf=[], eccbuf=[], qrframe=[], framask=[], rlens=[];
// Control values - width is based on version, last 4 are from table.
var version, width, neccblk1, neccblk2, datablkw, eccblkwid;
var ecclevel = 2;
// set bit to indicate cell in qrframe is immutable. symmetric around diagonal
function setmask(x, y)
{
var bt;
if (x > y) {
bt = x;
x = y;
y = bt;
}
// y*y = 1+3+5...
bt = y;
bt *= y;
bt += y;
bt >>= 1;
bt += x;
framask[bt] = 1;
}
// enter alignment pattern - black to qrframe, white to mask (later black frame merged to mask)
function putalign(x, y)
{
var j;
qrframe[x + width * y] = 1;
for (j = -2; j < 2; j++) {
qrframe[(x + j) + width * (y - 2)] = 1;
qrframe[(x - 2) + width * (y + j + 1)] = 1;
qrframe[(x + 2) + width * (y + j)] = 1;
qrframe[(x + j + 1) + width * (y + 2)] = 1;
}
for (j = 0; j < 2; j++) {
setmask(x - 1, y + j);
setmask(x + 1, y - j);
setmask(x - j, y - 1);
setmask(x + j, y + 1);
}
}
//========================================================================
// Reed Solomon error correction
// exponentiation mod N
function modnn(x)
{
while (x >= 255) {
x -= 255;
x = (x >> 8) + (x & 255);
}
return x;
}
var genpoly = [];
// Calculate and append ECC data to data block. Block is in strinbuf, indexes to buffers given.
function appendrs(data, dlen, ecbuf, eclen)
{
var i, j, fb;
for (i = 0; i < eclen; i++)
strinbuf[ecbuf + i] = 0;
for (i = 0; i < dlen; i++) {
fb = glog[strinbuf[data + i] ^ strinbuf[ecbuf]];
if (fb != 255) /* fb term is non-zero */
for (j = 1; j < eclen; j++)
strinbuf[ecbuf + j - 1] = strinbuf[ecbuf + j] ^ gexp[modnn(fb + genpoly[eclen - j])];
else
for( j = ecbuf ; j < ecbuf + eclen; j++ )
strinbuf[j] = strinbuf[j + 1];
strinbuf[ ecbuf + eclen - 1] = fb == 255 ? 0 : gexp[modnn(fb + genpoly[0])];
}
}
//========================================================================
// Frame data insert following the path rules
// check mask - since symmetrical use half.
function ismasked(x, y)
{
var bt;
if (x > y) {
bt = x;
x = y;
y = bt;
}
bt = y;
bt += y * y;
bt >>= 1;
bt += x;
return framask[bt];
}
//========================================================================
// Apply the selected mask out of the 8.
function applymask(m)
{
var x, y, r3x, r3y;
switch (m) {
case 0:
for (y = 0; y < width; y++)
for (x = 0; x < width; x++)
if (!((x + y) & 1) && !ismasked(x, y))
qrframe[x + y * width] ^= 1;
break;
case 1:
for (y = 0; y < width; y++)
for (x = 0; x < width; x++)
if (!(y & 1) && !ismasked(x, y))
qrframe[x + y * width] ^= 1;
break;
case 2:
for (y = 0; y < width; y++)
for (r3x = 0, x = 0; x < width; x++, r3x++) {
if (r3x == 3)
r3x = 0;
if (!r3x && !ismasked(x, y))
qrframe[x + y * width] ^= 1;
}
break;
case 3:
for (r3y = 0, y = 0; y < width; y++, r3y++) {
if (r3y == 3)
r3y = 0;
for (r3x = r3y, x = 0; x < width; x++, r3x++) {
if (r3x == 3)
r3x = 0;
if (!r3x && !ismasked(x, y))
qrframe[x + y * width] ^= 1;
}
}
break;
case 4:
for (y = 0; y < width; y++)
for (r3x = 0, r3y = ((y >> 1) & 1), x = 0; x < width; x++, r3x++) {
if (r3x == 3) {
r3x = 0;
r3y = !r3y;
}
if (!r3y && !ismasked(x, y))
qrframe[x + y * width] ^= 1;
}
break;
case 5:
for (r3y = 0, y = 0; y < width; y++, r3y++) {
if (r3y == 3)
r3y = 0;
for (r3x = 0, x = 0; x < width; x++, r3x++) {
if (r3x == 3)
r3x = 0;
if (!((x & y & 1) + !(!r3x | !r3y)) && !ismasked(x, y))
qrframe[x + y * width] ^= 1;
}
}
break;
case 6:
for (r3y = 0, y = 0; y < width; y++, r3y++) {
if (r3y == 3)
r3y = 0;
for (r3x = 0, x = 0; x < width; x++, r3x++) {
if (r3x == 3)
r3x = 0;
if (!(((x & y & 1) + (r3x && (r3x == r3y))) & 1) && !ismasked(x, y))
qrframe[x + y * width] ^= 1;
}
}
break;
case 7:
for (r3y = 0, y = 0; y < width; y++, r3y++) {
if (r3y == 3)
r3y = 0;
for (r3x = 0, x = 0; x < width; x++, r3x++) {
if (r3x == 3)
r3x = 0;
if (!(((r3x && (r3x == r3y)) + ((x + y) & 1)) & 1) && !ismasked(x, y))
qrframe[x + y * width] ^= 1;
}
}
break;
}
return;
}
// Badness coefficients.
var N1 = 3, N2 = 3, N3 = 40, N4 = 10;
// Using the table of the length of each run, calculate the amount of bad image
// - long runs or those that look like finders; called twice, once each for X and Y
function badruns(length)
{
var i;
var runsbad = 0;
for (i = 0; i <= length; i++)
if (rlens[i] >= 5)
runsbad += N1 + rlens[i] - 5;
// BwBBBwB as in finder
for (i = 3; i < length - 1; i += 2)
if (rlens[i - 2] == rlens[i + 2]
&& rlens[i + 2] == rlens[i - 1]
&& rlens[i - 1] == rlens[i + 1]
&& rlens[i - 1] * 3 == rlens[i]
// white around the black pattern? Not part of spec
&& (rlens[i - 3] == 0 // beginning
|| i + 3 > length // end
|| rlens[i - 3] * 3 >= rlens[i] * 4 || rlens[i + 3] * 3 >= rlens[i] * 4)
)
runsbad += N3;
return runsbad;
}
// Calculate how bad the masked image is - blocks, imbalance, runs, or finders.
function badcheck()
{
var x, y, h, b, b1;
var thisbad = 0;
var bw = 0;
// blocks of same color.
for (y = 0; y < width - 1; y++)
for (x = 0; x < width - 1; x++)
if ((qrframe[x + width * y] && qrframe[(x + 1) + width * y]
&& qrframe[x + width * (y + 1)] && qrframe[(x + 1) + width * (y + 1)]) // all black
|| !(qrframe[x + width * y] || qrframe[(x + 1) + width * y]
|| qrframe[x + width * (y + 1)] || qrframe[(x + 1) + width * (y + 1)])) // all white
thisbad += N2;
// X runs
for (y = 0; y < width; y++) {
rlens[0] = 0;
for (h = b = x = 0; x < width; x++) {
if ((b1 = qrframe[x + width * y]) == b)
rlens[h]++;
else
rlens[++h] = 1;
b = b1;
bw += b ? 1 : -1;
}
thisbad += badruns(h);
}
// black/white imbalance
if (bw < 0)
bw = -bw;
var big = bw;
count = 0;
big += big << 2;
big <<= 1;
while (big > width * width)
big -= width * width, count++;
thisbad += count * N4;
// Y runs
for (x = 0; x < width; x++) {
rlens[0] = 0;
for (h = b = y = 0; y < width; y++) {
if ((b1 = qrframe[x + width * y]) == b)
rlens[h]++;
else
rlens[++h] = 1;
b = b1;
}
thisbad += badruns(h);
}
return thisbad;
}
function genframe(instring)
{
var x, y, k, t, v, i, j, m;
instring = instring || ''
// find the smallest version that fits the string
t = instring.length;
version = 0;
do {
version++;
k = (ecclevel - 1) * 4 + (version - 1) * 16;
neccblk1 = eccblocks[k++];
neccblk2 = eccblocks[k++];
datablkw = eccblocks[k++];
eccblkwid = eccblocks[k];
k = datablkw * (neccblk1 + neccblk2) + neccblk2 - 3 + (version <= 9);
if (t <= k)
break;
} while (version < 40);
// FIXME - insure that it fits insted of being truncated
width = 17 + 4 * version;
// allocate, clear and setup data structures
v = datablkw + (datablkw + eccblkwid) * (neccblk1 + neccblk2) + neccblk2;
for( t = 0; t < v; t++ )
eccbuf[t] = 0;
strinbuf = instring.slice(0);
for( t = 0; t < width * width; t++ )
qrframe[t] = 0;
for( t = 0 ; t < (width * (width + 1) + 1) / 2; t++)
framask[t] = 0;
// insert finders - black to frame, white to mask
for (t = 0; t < 3; t++) {
k = 0;
y = 0;
if (t == 1)
k = (width - 7);
if (t == 2)
y = (width - 7);
qrframe[(y + 3) + width * (k + 3)] = 1;
for (x = 0; x < 6; x++) {
qrframe[(y + x) + width * k] = 1;
qrframe[y + width * (k + x + 1)] = 1;
qrframe[(y + 6) + width * (k + x)] = 1;
qrframe[(y + x + 1) + width * (k + 6)] = 1;
}
for (x = 1; x < 5; x++) {
setmask(y + x, k + 1);
setmask(y + 1, k + x + 1);
setmask(y + 5, k + x);
setmask(y + x + 1, k + 5);
}
for (x = 2; x < 4; x++) {
qrframe[(y + x) + width * (k + 2)] = 1;
qrframe[(y + 2) + width * (k + x + 1)] = 1;
qrframe[(y + 4) + width * (k + x)] = 1;
qrframe[(y + x + 1) + width * (k + 4)] = 1;
}
}
// alignment blocks
if (version > 1) {
t = adelta[version];
y = width - 7;
for (;;) {
x = width - 7;
while (x > t - 3) {
putalign(x, y);
if (x < t)
break;
x -= t;
}
if (y <= t + 9)
break;
y -= t;
putalign(6, y);
putalign(y, 6);
}
}
// single black
qrframe[8 + width * (width - 8)] = 1;
// timing gap - mask only
for (y = 0; y < 7; y++) {
setmask(7, y);
setmask(width - 8, y);
setmask(7, y + width - 7);
}
for (x = 0; x < 8; x++) {
setmask(x, 7);
setmask(x + width - 8, 7);
setmask(x, width - 8);
}
// reserve mask-format area
for (x = 0; x < 9; x++)
setmask(x, 8);
for (x = 0; x < 8; x++) {
setmask(x + width - 8, 8);
setmask(8, x);
}
for (y = 0; y < 7; y++)
setmask(8, y + width - 7);
// timing row/col
for (x = 0; x < width - 14; x++)
if (x & 1) {
setmask(8 + x, 6);
setmask(6, 8 + x);
}
else {
qrframe[(8 + x) + width * 6] = 1;
qrframe[6 + width * (8 + x)] = 1;
}
// version block
if (version > 6) {
t = vpat[version - 7];
k = 17;
for (x = 0; x < 6; x++)
for (y = 0; y < 3; y++, k--)
if (1 & (k > 11 ? version >> (k - 12) : t >> k)) {
qrframe[(5 - x) + width * (2 - y + width - 11)] = 1;
qrframe[(2 - y + width - 11) + width * (5 - x)] = 1;
}
else {
setmask(5 - x, 2 - y + width - 11);
setmask(2 - y + width - 11, 5 - x);
}
}
// sync mask bits - only set above for white spaces, so add in black bits
for (y = 0; y < width; y++)
for (x = 0; x <= y; x++)
if (qrframe[x + width * y])
setmask(x, y);
// convert string to bitstream
// 8 bit data to QR-coded 8 bit data (numeric or alphanum, or kanji not supported)
v = strinbuf.length;
// string to array
for( i = 0 ; i < v; i++ )
eccbuf[i] = strinbuf.charCodeAt(i);
strinbuf = eccbuf.slice(0);
// calculate max string length
x = datablkw * (neccblk1 + neccblk2) + neccblk2;
if (v >= x - 2) {
v = x - 2;
if (version > 9)
v--;
}
// shift and repack to insert length prefix
i = v;
if (version > 9) {
strinbuf[i + 2] = 0;
strinbuf[i + 3] = 0;
while (i--) {
t = strinbuf[i];
strinbuf[i + 3] |= 255 & (t << 4);
strinbuf[i + 2] = t >> 4;
}
strinbuf[2] |= 255 & (v << 4);
strinbuf[1] = v >> 4;
strinbuf[0] = 0x40 | (v >> 12);
}
else {
strinbuf[i + 1] = 0;
strinbuf[i + 2] = 0;
while (i--) {
t = strinbuf[i];
strinbuf[i + 2] |= 255 & (t << 4);
strinbuf[i + 1] = t >> 4;
}
strinbuf[1] |= 255 & (v << 4);
strinbuf[0] = 0x40 | (v >> 4);
}
// fill to end with pad pattern
i = v + 3 - (version < 10);
while (i < x) {
strinbuf[i++] = 0xec;
// buffer has room if (i == x) break;
strinbuf[i++] = 0x11;
}
// calculate and append ECC
// calculate generator polynomial
genpoly[0] = 1;
for (i = 0; i < eccblkwid; i++) {
genpoly[i + 1] = 1;
for (j = i; j > 0; j--)
genpoly[j] = genpoly[j]
? genpoly[j - 1] ^ gexp[modnn(glog[genpoly[j]] + i)] : genpoly[j - 1];
genpoly[0] = gexp[modnn(glog[genpoly[0]] + i)];
}
for (i = 0; i <= eccblkwid; i++)
genpoly[i] = glog[genpoly[i]]; // use logs for genpoly[] to save calc step
// append ecc to data buffer
k = x;
y = 0;
for (i = 0; i < neccblk1; i++) {
appendrs(y, datablkw, k, eccblkwid);
y += datablkw;
k += eccblkwid;
}
for (i = 0; i < neccblk2; i++) {
appendrs(y, datablkw + 1, k, eccblkwid);
y += datablkw + 1;
k += eccblkwid;
}
// interleave blocks
y = 0;
for (i = 0; i < datablkw; i++) {
for (j = 0; j < neccblk1; j++)
eccbuf[y++] = strinbuf[i + j * datablkw];
for (j = 0; j < neccblk2; j++)
eccbuf[y++] = strinbuf[(neccblk1 * datablkw) + i + (j * (datablkw + 1))];
}
for (j = 0; j < neccblk2; j++)
eccbuf[y++] = strinbuf[(neccblk1 * datablkw) + i + (j * (datablkw + 1))];
for (i = 0; i < eccblkwid; i++)
for (j = 0; j < neccblk1 + neccblk2; j++)
eccbuf[y++] = strinbuf[x + i + j * eccblkwid];
strinbuf = eccbuf;
// pack bits into frame avoiding masked area.
x = y = width - 1;
k = v = 1; // up, minus
/* inteleaved data and ecc codes */
m = (datablkw + eccblkwid) * (neccblk1 + neccblk2) + neccblk2;
for (i = 0; i < m; i++) {
t = strinbuf[i];
for (j = 0; j < 8; j++, t <<= 1) {
if (0x80 & t)
qrframe[x + width * y] = 1;
do { // find next fill position
if (v)
x--;
else {
x++;
if (k) {
if (y != 0)
y--;
else {
x -= 2;
k = !k;
if (x == 6) {
x--;
y = 9;
}
}
}
else {
if (y != width - 1)
y++;
else {
x -= 2;
k = !k;
if (x == 6) {
x--;
y -= 8;
}
}
}
}
v = !v;
} while (ismasked(x, y));
}
}
// save pre-mask copy of frame
strinbuf = qrframe.slice(0);
t = 0; // best
y = 30000; // demerit
// for instead of while since in original arduino code
// if an early mask was "good enough" it wouldn't try for a better one
// since they get more complex and take longer.
for (k = 0; k < 8; k++) {
applymask(k); // returns black-white imbalance
x = badcheck();
if (x < y) { // current mask better than previous best?
y = x;
t = k;
}
if (t == 7)
break; // don't increment i to a void redoing mask
qrframe = strinbuf.slice(0); // reset for next pass
}
if (t != k) // redo best mask - none good enough, last wasn't t
applymask(t);
// add in final mask/ecclevel bytes
y = fmtword[t + ((ecclevel - 1) << 3)];
// low byte
for (k = 0; k < 8; k++, y >>= 1)
if (y & 1) {
qrframe[(width - 1 - k) + width * 8] = 1;
if (k < 6)
qrframe[8 + width * k] = 1;
else
qrframe[8 + width * (k + 1)] = 1;
}
// high byte
for (k = 0; k < 7; k++, y >>= 1)
if (y & 1) {
qrframe[8 + width * (width - 7 + k)] = 1;
if (k)
qrframe[(6 - k) + width * 8] = 1;
else
qrframe[7 + width * 8] = 1;
}
// return image
return qrframe;
}
var _canvas = null,
_size = null;
var api = {
get ecclevel () {
return ecclevel;
},
set ecclevel (val) {
ecclevel = val;
},
get size () {
return _size;
},
set size (val) {
_size = val
},
get canvas () {
return _canvas;
},
set canvas (el) {
_canvas = el;
},
getFrame: function (string) {
return genframe(string);
},
draw: function (string, canvas, size, ecc) {
ecclevel = ecc || ecclevel;
canvas = canvas || _canvas;
if (!canvas) {
console.warn('No canvas provided to draw QR code in!')
return;
}
size = size || _size || Math.min(canvas.width, canvas.height);
var frame = genframe(string),
ctx = canvas.getContext('2d'),
px = Math.round(size / (width + 8));
var roundedSize = px * (width + 8),
offset = Math.floor((size - roundedSize) / 2);
size = roundedSize;
ctx.clearRect(0, 0, canvas.width, canvas.height);
ctx.fillStyle = '#fff';
ctx.fillRect(0, 0, size, size);
ctx.fillStyle = '#000';
for (var i = 0; i < width; i++) {
for (var j = 0; j < width; j++) {
if (frame[j * width + i]) {
ctx.fillRect(px * (4 + i) + offset, px * (4 + j) + offset, px, px);
}
}
}
},
toDataURL: function (string, size, ecc) {
var canvas = document.createElement('canvas');
canvas.width = size || _size || 300;
canvas.height = canvas.width;
api.draw(string, canvas, canvas.width, ecc);
return canvas.toDataURL();
},
makeImage: function (string, size, ecc) {
var img = new Image();
img.src = api.toDataURL(string, size, ecc);
return img;
}
}
return api;
})()
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