Typr库

Typr 库 greasy fork 镜像

Este script no debería instalarse directamente. Es una biblioteca que utilizan otros scripts mediante la meta-directiva de inclusión // @require https://update.greasyfork.org/scripts/466179/1189955/Typr%E5%BA%93.js


var Typr = {};

Typr["parse"] = function(buff)
{
	var readFont = function(data, idx, offset,tmap) {
		var bin = Typr["B"];
		
		var T = Typr["T"];
		var prsr = {
			"cmap":T.cmap,
			"head":T.head,
			"hhea":T.hhea,
			"maxp":T.maxp,
			"hmtx":T.hmtx,
			"name":T.name,
			"OS/2":T.OS2,
			"post":T.post,
			
			"loca":T.loca,
			"kern":T.kern,
			"glyf":T.glyf,
			
			"CFF ":T.CFF,
			/*
			"GPOS",
			"GSUB",
			"GDEF",*/
			
			"SVG ":T.SVG
			//"VORG",
		};
		var obj = {"_data":data, "_index":idx, "_offset":offset};
		
		for(var t in prsr) {
			var tab = Typr["findTable"](data, t, offset);
			if(tab) {
				var off=tab[0], tobj = tmap[off];
				if(tobj==null) tobj = prsr[t].parseTab(data, off, tab[1], obj);
				obj[t] = tmap[off] = tobj;
			}
		}
		return obj;
	}
	
	
	var bin = Typr["B"];
	var data = new Uint8Array(buff);
	
	var tmap = {};
	var tag = bin.readASCII(data, 0, 4);  
	if(tag=="ttcf") {
		var offset = 4;
		var majV = bin.readUshort(data, offset);  offset+=2;
		var minV = bin.readUshort(data, offset);  offset+=2;
		var numF = bin.readUint  (data, offset);  offset+=4;
		var fnts = [];
		for(var i=0; i<numF; i++) {
			var foff = bin.readUint  (data, offset);  offset+=4;
			fnts.push(readFont(data, i, foff,tmap));
		}
		return fnts;
	}
	else return [readFont(data, 0, 0,tmap)];
}


Typr["findTable"] = function(data, tab, foff)
{
	var bin = Typr["B"];
	var numTables = bin.readUshort(data, foff+4);
	var offset = foff+12;
	for(var i=0; i<numTables; i++)
	{
		var tag      = bin.readASCII(data, offset, 4); 
		var checkSum = bin.readUint (data, offset+ 4);
		var toffset  = bin.readUint (data, offset+ 8); 
		var length   = bin.readUint (data, offset+12);
		if(tag==tab) return [toffset,length];
		offset+=16;
	}
	return null;
}
/*
Typr["splitBy"] = function(data,tag) {
	data = new Uint8Array(data);  console.log(data.slice(0,64));
	var bin = Typr["B"];
	var ttcf = bin.readASCII(data, 0, 4);  if(ttcf!="ttcf") return {};
	
	var offset = 8;
	var numF = bin.readUint  (data, offset);  offset+=4;
	var colls = [], used={};
	for(var i=0; i<numF; i++) {
		var foff = bin.readUint  (data, offset);  offset+=4;
		var toff = Typr["findTable"](data,tag,foff)[0];
		if(used[toff]==null) used[toff] = [];
		used[toff].push([foff,bin.readUshort(data,foff+4)]);  // font offset, numTables
	}
	for(var toff in used) {
		var offs = used[toff];
		var hlen = 12+4*offs.length;
		var out = new Uint8Array(hlen);		
		for(var i=0; i<8; i++) out[i]=data[i];
		bin.writeUint(out,8,offs.length);
		
		for(var i=0; i<offs.length; i++) hlen += 12+offs[i][1]*16;
		
		var hdrs = [out], tabs = [], hoff=out.length, toff=hlen, noffs={};
		for(var i=0; i<offs.length; i++) {
			bin.writeUint(out, 12+i*4, hoff);  hoff+=12+offs[i][1]*16;
			toff = Typr["_cutFont"](data, offs[i][0], hdrs, tabs, toff, noffs);
		}
		colls.push(Typr["_joinArrs"](hdrs.concat(tabs)));
	}
	return colls;
}

Typr["splitFonts"] = function(data) {
	data = new Uint8Array(data);
	var bin = Typr["B"];
	var ttcf = bin.readASCII(data, 0, 4);  if(ttcf!="ttcf") return {};
	
	var offset = 8;
	var numF = bin.readUint  (data, offset);  offset+=4;
	var fnts = [];
	for(var i=0; i<numF; i++) {
		var foff = bin.readUint  (data, offset);  offset+=4;
		fnts.push(Typr._cutFont(data, foff));
		break;
	}
	return fnts;
}

Typr["_cutFont"] = function(data,foff,hdrs,tabs,toff, noffs) {
	var bin = Typr["B"];
	var numTables = bin.readUshort(data, foff+4);
	
	var out = new Uint8Array(12+numTables*16);  hdrs.push(out);
	for(var i=0; i<12; i++) out[i]=data[foff+i];  //console.log(out);
	
	var off = 12;
	for(var i=0; i<numTables; i++)
	{
		var tag      = bin.readASCII(data, foff+off, 4); 
		var checkSum = bin.readUint (data, foff+off+ 4);
		var toffset  = bin.readUint (data, foff+off+ 8); 
		var length   = bin.readUint (data, foff+off+12);
		
		while((length&3)!=0) length++;
		
		for(var j=0; j<16; j++) out[off+j]=data[foff+off+j];
		
		if(noffs[toffset]!=null) bin.writeUint(out,off+8,noffs[toffset]);
		else {
			noffs[toffset] = toff;
			bin.writeUint(out, off+8, toff);  
			tabs.push(new Uint8Array(data.buffer, toffset, length));  toff+=length;
		}
		off+=16;
	}
	return toff;
}
Typr["_joinArrs"] = function(tabs) {
	var len = 0;
	for(var i=0; i<tabs.length; i++) len+=tabs[i].length;
	var out = new Uint8Array(len), ooff=0;
	for(var i=0; i<tabs.length; i++) {
		var tab = tabs[i];
		for(var j=0; j<tab.length; j++) out[ooff+j]=tab[j];
		ooff+=tab.length;
	}
	return out;
}
*/

Typr["T"]={};





Typr["B"] = {
	readFixed : function(data, o)
	{
		return ((data[o]<<8) | data[o+1]) +  (((data[o+2]<<8)|data[o+3])/(256*256+4));
	},
	readF2dot14 : function(data, o)
	{
		var num = Typr["B"].readShort(data, o);
		return num / 16384;
	},
	readInt : function(buff, p)
	{
		//if(p>=buff.length) throw "error";
		var a = Typr["B"].t.uint8;
		a[0] = buff[p+3];
		a[1] = buff[p+2];
		a[2] = buff[p+1];
		a[3] = buff[p];
		return Typr["B"].t.int32[0];
	},
	
	readInt8 : function(buff, p)
	{
		//if(p>=buff.length) throw "error";
		var a = Typr["B"].t.uint8;
		a[0] = buff[p];
		return Typr["B"].t.int8[0];
	},
	readShort : function(buff, p)
	{
		//if(p>=buff.length) throw "error";
		var a = Typr["B"].t.uint8;
		a[1] = buff[p]; a[0] = buff[p+1];
		return Typr["B"].t.int16[0];
	},
	readUshort : function(buff, p)
	{
		//if(p>=buff.length) throw "error";
		return (buff[p]<<8) | buff[p+1];
	},
	writeUshort : function(buff, p, n)
	{
		buff[p] = (n>>8)&255;  buff[p+1] = n&255;
	},
	readUshorts : function(buff, p, len)
	{
		var arr = [];
		for(var i=0; i<len; i++) {
			var v = Typr["B"].readUshort(buff, p+i*2);  //if(v==932) console.log(p+i*2);
			arr.push(v);
		}
		return arr;
	},
	readUint : function(buff, p)
	{
		//if(p>=buff.length) throw "error";
		var a = Typr["B"].t.uint8;
		a[3] = buff[p];  a[2] = buff[p+1];  a[1] = buff[p+2];  a[0] = buff[p+3];
		return Typr["B"].t.uint32[0];
	},
	writeUint: function(buff, p, n)
	{
		buff[p] = (n>>24)&255;  buff[p+1] = (n>>16)&255;  buff[p+2] = (n>>8)&255;  buff[p+3] = (n>>0)&255;
	},
	readUint64 : function(buff, p)
	{
		//if(p>=buff.length) throw "error";
		return (Typr["B"].readUint(buff, p)*(0xffffffff+1)) + Typr["B"].readUint(buff, p+4);
	},
	readASCII : function(buff, p, l)	// l : length in Characters (not Bytes)
	{
		//if(p>=buff.length) throw "error";
		var s = "";
		for(var i = 0; i < l; i++) s += String.fromCharCode(buff[p+i]);
		return s;
	},
	writeASCII : function(buff, p, s)	// l : length in Characters (not Bytes)
	{
		for(var i = 0; i < s.length; i++)	
			buff[p+i] = s.charCodeAt(i);
	},
	readUnicode : function(buff, p, l)
	{
		//if(p>=buff.length) throw "error";
		var s = "";
		for(var i = 0; i < l; i++)	
		{
			var c = (buff[p++]<<8) | buff[p++];
			s += String.fromCharCode(c);
		}
		return s;
	},
	_tdec : window["TextDecoder"] ? new window["TextDecoder"]() : null,
	readUTF8 : function(buff, p, l) {
		var tdec = Typr["B"]._tdec;
		if(tdec && p==0 && l==buff.length) return tdec["decode"](buff);
		return Typr["B"].readASCII(buff,p,l);
	},
	readBytes : function(buff, p, l)
	{
		//if(p>=buff.length) throw "error";
		var arr = [];
		for(var i=0; i<l; i++) arr.push(buff[p+i]);
		return arr;
	},
	readASCIIArray : function(buff, p, l)	// l : length in Characters (not Bytes)
	{
		//if(p>=buff.length) throw "error";
		var s = [];
		for(var i = 0; i < l; i++)	
			s.push(String.fromCharCode(buff[p+i]));
		return s;
	}, 
	t : function() {
		var ab = new ArrayBuffer(8);
		return {
			buff   : ab,
			int8   : new Int8Array  (ab),
			uint8  : new Uint8Array (ab),
			int16  : new Int16Array (ab),
			uint16 : new Uint16Array(ab),
			int32  : new Int32Array (ab),
			uint32 : new Uint32Array(ab)
		}  
	}()
};






	Typr["T"].CFF = {
		parseTab : function(data, offset, length)
		{
			var bin = Typr["B"];
			var CFF = Typr["T"].CFF;
			
			data = new Uint8Array(data.buffer, offset, length);
			offset = 0;
			
			// Header
			var major = data[offset];  offset++;
			var minor = data[offset];  offset++;
			var hdrSize = data[offset];  offset++;
			var offsize = data[offset];  offset++;
			//console.log(major, minor, hdrSize, offsize);
			
			// Name INDEX
			var ninds = [];
			offset = CFF.readIndex(data, offset, ninds);
			var names = [];
			
			for(var i=0; i<ninds.length-1; i++) names.push(bin.readASCII(data, offset+ninds[i], ninds[i+1]-ninds[i]));
			offset += ninds[ninds.length-1];
			
			
			// Top DICT INDEX
			var tdinds = [];
			offset = CFF.readIndex(data, offset, tdinds);  //console.log(tdinds);
			// Top DICT Data
			var topDicts = [];
			for(var i=0; i<tdinds.length-1; i++) topDicts.push( CFF.readDict(data, offset+tdinds[i], offset+tdinds[i+1]) );
			offset += tdinds[tdinds.length-1];
			var topdict = topDicts[0];
			//console.log(topdict);
			
			// String INDEX
			var sinds = [];
			offset = CFF.readIndex(data, offset, sinds);
			// String Data
			var strings = [];
			for(var i=0; i<sinds.length-1; i++) strings.push(bin.readASCII(data, offset+sinds[i], sinds[i+1]-sinds[i]));
			offset += sinds[sinds.length-1];
			
			// Global Subr INDEX  (subroutines)		
			CFF.readSubrs(data, offset, topdict);
			
			// charstrings
			
			if(topdict["CharStrings"]) topdict["CharStrings"] = CFF.readBytes(data, topdict["CharStrings"]);
			
			// CID font
			if(topdict["ROS"]) {
				offset = topdict["FDArray"];
				var fdind = [];
				offset = CFF.readIndex(data, offset, fdind);
				
				topdict["FDArray"] = [];
				for(var i=0; i<fdind.length-1; i++) {
					var dict = CFF.readDict(data, offset+fdind[i], offset+fdind[i+1]);
					CFF._readFDict(data, dict, strings);
					topdict["FDArray"].push( dict );
				}
				offset += fdind[fdind.length-1];
				
				offset = topdict["FDSelect"];
				topdict["FDSelect"] = [];
				var fmt = data[offset];  offset++;
				if(fmt==3) {
					var rns = bin.readUshort(data, offset);  offset+=2;
					for(var i=0; i<rns+1; i++) {
						topdict["FDSelect"].push(bin.readUshort(data, offset), data[offset+2]);  offset+=3;
					}
				}
				else throw fmt;
			}
			
			// Encoding
			//if(topdict["Encoding"]) topdict["Encoding"] = CFF.readEncoding(data, topdict["Encoding"], topdict["CharStrings"].length);
			
			// charset
			if(topdict["charset"] ) topdict["charset"]  = CFF.readCharset (data, topdict["charset"] , topdict["CharStrings"].length);
			
			CFF._readFDict(data, topdict, strings);
			return topdict;
		},
		
		_readFDict : function(data, dict, ss) {
			var CFF = Typr["T"].CFF;
			var offset;
			if(dict["Private"]) {
				offset = dict["Private"][1];
				dict["Private"] = CFF.readDict(data, offset, offset+dict["Private"][0]);
				if(dict["Private"]["Subrs"]) CFF.readSubrs(data, offset+dict["Private"]["Subrs"], dict["Private"]);
			}
			for(var p in dict) if(["FamilyName","FontName","FullName","Notice","version","Copyright"].indexOf(p)!=-1)  dict[p]=ss[dict[p] -426 + 35];
		},
		
		readSubrs : function(data, offset, obj)
		{
			obj["Subrs"] = Typr["T"].CFF.readBytes(data, offset);
			
			var bias, nSubrs = obj["Subrs"].length+1;
			if (false) bias = 0;
			else if (nSubrs <  1240) bias = 107;
			else if (nSubrs < 33900) bias = 1131;
			else bias = 32768;
			obj["Bias"] = bias;
		},
		readBytes : function(data, offset) {
			var bin = Typr["B"];
			var arr = [];
			offset = Typr["T"].CFF.readIndex(data, offset, arr);
			
			var subrs = [], arl = arr.length-1, no = data.byteOffset+offset;
			for(var i=0; i<arl; i++) {
				var ari = arr[i];
				subrs.push(new Uint8Array(data.buffer, no+ari, arr[i+1]-ari));
			}
			return subrs;
		},
		
		tableSE : [
		  0,   0,   0,   0,   0,   0,   0,   0,
		  0,   0,   0,   0,   0,   0,   0,   0,
		  0,   0,   0,   0,   0,   0,   0,   0,
		  0,   0,   0,   0,   0,   0,   0,   0,
		  1,   2,   3,   4,   5,   6,   7,   8,
		  9,  10,  11,  12,  13,  14,  15,  16,
		 17,  18,  19,  20,  21,  22,  23,  24,
		 25,  26,  27,  28,  29,  30,  31,  32,
		 33,  34,  35,  36,  37,  38,  39,  40,
		 41,  42,  43,  44,  45,  46,  47,  48,
		 49,  50,  51,  52,  53,  54,  55,  56,
		 57,  58,  59,  60,  61,  62,  63,  64,
		 65,  66,  67,  68,  69,  70,  71,  72,
		 73,  74,  75,  76,  77,  78,  79,  80,
		 81,  82,  83,  84,  85,  86,  87,  88,
		 89,  90,  91,  92,  93,  94,  95,   0,
		  0,   0,   0,   0,   0,   0,   0,   0,
		  0,   0,   0,   0,   0,   0,   0,   0,
		  0,   0,   0,   0,   0,   0,   0,   0,
		  0,   0,   0,   0,   0,   0,   0,   0,
		  0,  96,  97,  98,  99, 100, 101, 102,
		103, 104, 105, 106, 107, 108, 109, 110,
		  0, 111, 112, 113, 114,   0, 115, 116,
		117, 118, 119, 120, 121, 122,   0, 123,
		  0, 124, 125, 126, 127, 128, 129, 130,
		131,   0, 132, 133,   0, 134, 135, 136,
		137,   0,   0,   0,   0,   0,   0,   0,
		  0,   0,   0,   0,   0,   0,   0,   0,
		  0, 138,   0, 139,   0,   0,   0,   0,
		140, 141, 142, 143,   0,   0,   0,   0,
		  0, 144,   0,   0,   0, 145,   0,   0,
		146, 147, 148, 149,   0,   0,   0,   0
		],
	  
		glyphByUnicode : function(cff, code)
		{
			for(var i=0; i<cff["charset"].length; i++) if(cff["charset"][i]==code) return i;
			return -1;
		},
		
		glyphBySE : function(cff, charcode)	// glyph by standard encoding
		{
			if ( charcode < 0 || charcode > 255 ) return -1;
			return Typr["T"].CFF.glyphByUnicode(cff, Typr["T"].CFF.tableSE[charcode]);		
		},
		
		/*readEncoding : function(data, offset, num)
		{
			var bin = Typr["B"];
			
			var array = ['.notdef'];
			var format = data[offset];  offset++;
			//console.log("Encoding");
			//console.log(format);
			
			if(format==0)
			{
				var nCodes = data[offset];  offset++;
				for(var i=0; i<nCodes; i++)  array.push(data[offset+i]);
			}
			/*
			else if(format==1 || format==2)
			{
				while(charset.length<num)
				{
					var first = bin.readUshort(data, offset);  offset+=2;
					var nLeft=0;
					if(format==1) {  nLeft = data[offset];  offset++;  }
					else          {  nLeft = bin.readUshort(data, offset);  offset+=2;  }
					for(var i=0; i<=nLeft; i++)  {  charset.push(first);  first++;  }
				}
			}
			
			else throw "error: unknown encoding format: " + format;
			
			return array;
		},*/

		readCharset : function(data, offset, num)
		{
			var bin = Typr["B"];
			
			var charset = ['.notdef'];
			var format = data[offset];  offset++;
			
			if(format==0)
			{
				for(var i=0; i<num; i++) 
				{
					var first = bin.readUshort(data, offset);  offset+=2;
					charset.push(first);
				}
			}
			else if(format==1 || format==2)
			{
				while(charset.length<num)
				{
					var first = bin.readUshort(data, offset);  offset+=2;
					var nLeft=0;
					if(format==1) {  nLeft = data[offset];  offset++;  }
					else          {  nLeft = bin.readUshort(data, offset);  offset+=2;  }
					for(var i=0; i<=nLeft; i++)  {  charset.push(first);  first++;  }
				}
			}
			else throw "error: format: " + format;
			
			return charset;
		},

		readIndex : function(data, offset, inds)
		{
			var bin = Typr["B"];
			
			var count = bin.readUshort(data, offset)+1;  offset+=2;
			var offsize = data[offset];  offset++;
			
			if     (offsize==1) for(var i=0; i<count; i++) inds.push( data[offset+i] );
			else if(offsize==2) for(var i=0; i<count; i++) inds.push( bin.readUshort(data, offset+i*2) );
			else if(offsize==3) for(var i=0; i<count; i++) inds.push( bin.readUint  (data, offset+i*3 - 1) & 0x00ffffff );
			else if(offsize==4) for(var i=0; i<count; i++) inds.push( bin.readUint  (data, offset+i*4) );
			else if(count!=1) throw "unsupported offset size: " + offsize + ", count: " + count;
			
			offset += count*offsize;
			return offset-1;
		},
		
		getCharString : function(data, offset, o)
		{
			var bin = Typr["B"];
			
			var b0 = data[offset], b1 = data[offset+1], b2 = data[offset+2], b3 = data[offset+3], b4=data[offset+4];
			var vs = 1;
			var op=null, val=null;
			// operand
			if(b0<=20) { op = b0;  vs=1;  }
			if(b0==12) { op = b0*100+b1;  vs=2;  }
			//if(b0==19 || b0==20) { op = b0/*+" "+b1*/;  vs=2; }
			if(21 <=b0 && b0<= 27) { op = b0;  vs=1; }
			if(b0==28) { val = bin.readShort(data,offset+1);  vs=3; }
			if(29 <=b0 && b0<= 31) { op = b0;  vs=1; }
			if(32 <=b0 && b0<=246) { val = b0-139;  vs=1; }
			if(247<=b0 && b0<=250) { val = (b0-247)*256+b1+108;  vs=2; }
			if(251<=b0 && b0<=254) { val =-(b0-251)*256-b1-108;  vs=2; }
			if(b0==255) {  val = bin.readInt(data, offset+1)/0xffff;  vs=5;   }
			
			o.val = val!=null ? val : "o"+op;
			o.size = vs;
		},
		
		readCharString : function(data, offset, length)
		{
			var end = offset + length;
			var bin = Typr["B"];
			var arr = [];
			
			while(offset<end)
			{
				var b0 = data[offset], b1 = data[offset+1], b2 = data[offset+2], b3 = data[offset+3], b4=data[offset+4];
				var vs = 1;
				var op=null, val=null;
				// operand
				if(b0<=20) { op = b0;  vs=1;  }
				if(b0==12) { op = b0*100+b1;  vs=2;  }
				if(b0==19 || b0==20) { op = b0/*+" "+b1*/;  vs=2; }
				if(21 <=b0 && b0<= 27) { op = b0;  vs=1; }
				if(b0==28) { val = bin.readShort(data,offset+1);  vs=3; }
				if(29 <=b0 && b0<= 31) { op = b0;  vs=1; }
				if(32 <=b0 && b0<=246) { val = b0-139;  vs=1; }
				if(247<=b0 && b0<=250) { val = (b0-247)*256+b1+108;  vs=2; }
				if(251<=b0 && b0<=254) { val =-(b0-251)*256-b1-108;  vs=2; }
				if(b0==255) {  val = bin.readInt(data, offset+1)/0xffff;  vs=5;   }
				
				arr.push(val!=null ? val : "o"+op);
				offset += vs;	

				//var cv = arr[arr.length-1];
				//if(cv==undefined) throw "error";
				//console.log()
			}	
			return arr;
		},

		readDict : function(data, offset, end)
		{
			var bin = Typr["B"];
			//var dict = [];
			var dict = {};
			var carr = [];
			
			while(offset<end)
			{
				var b0 = data[offset], b1 = data[offset+1], b2 = data[offset+2], b3 = data[offset+3], b4=data[offset+4];
				var vs = 1;
				var key=null, val=null;
				// operand
				if(b0==28) { val = bin.readShort(data,offset+1);  vs=3; }
				if(b0==29) { val = bin.readInt  (data,offset+1);  vs=5; }
				if(32 <=b0 && b0<=246) { val = b0-139;  vs=1; }
				if(247<=b0 && b0<=250) { val = (b0-247)*256+b1+108;  vs=2; }
				if(251<=b0 && b0<=254) { val =-(b0-251)*256-b1-108;  vs=2; }
				if(b0==255) {  val = bin.readInt(data, offset+1)/0xffff;  vs=5;  throw "unknown number";  }
				
				if(b0==30) 
				{  
					var nibs = [];
					vs = 1;
					while(true)
					{
						var b = data[offset+vs];  vs++;
						var nib0 = b>>4, nib1 = b&0xf;
						if(nib0 != 0xf) nibs.push(nib0);  if(nib1!=0xf) nibs.push(nib1);
						if(nib1==0xf) break;
					}
					var s = "";
					var chars = [0,1,2,3,4,5,6,7,8,9,".","e","e-","reserved","-","endOfNumber"];
					for(var i=0; i<nibs.length; i++) s += chars[nibs[i]];
					//console.log(nibs);
					val = parseFloat(s);
				}
				
				if(b0<=21)	// operator
				{
					var keys = ["version", "Notice", "FullName", "FamilyName", "Weight", "FontBBox", "BlueValues", "OtherBlues", "FamilyBlues","FamilyOtherBlues",
						"StdHW", "StdVW", "escape", "UniqueID", "XUID", "charset", "Encoding", "CharStrings", "Private", "Subrs", 
						"defaultWidthX", "nominalWidthX"];
						
					key = keys[b0];  vs=1;
					if(b0==12) { 
						var keys = [ "Copyright", "isFixedPitch", "ItalicAngle", "UnderlinePosition", "UnderlineThickness", "PaintType", "CharstringType", "FontMatrix", "StrokeWidth", "BlueScale",
						"BlueShift", "BlueFuzz", "StemSnapH", "StemSnapV", "ForceBold", "","", "LanguageGroup", "ExpansionFactor", "initialRandomSeed",
						"SyntheticBase", "PostScript", "BaseFontName", "BaseFontBlend", "","","",  "","","",
						"ROS", "CIDFontVersion", "CIDFontRevision", "CIDFontType", "CIDCount", "UIDBase", "FDArray", "FDSelect", "FontName"];
						key = keys[b1];  vs=2; 
					}
				}
				
				if(key!=null) {  dict[key] = carr.length==1 ? carr[0] : carr;  carr=[]; }
				else  carr.push(val);  
				
				offset += vs;		
			}	
			return dict;
		}
	};


Typr["T"].cmap = {
	parseTab : function(data, offset, length)
	{
		var obj = {tables:[],ids:{},off:offset};
		data = new Uint8Array(data.buffer, offset, length);
		offset = 0;

		var offset0 = offset;
		var bin = Typr["B"], rU = bin.readUshort, cmap = Typr["T"].cmap;
		var version   = rU(data, offset);  offset += 2;
		var numTables = rU(data, offset);  offset += 2;
		
		//console.log(version, numTables);
		
		var offs = [];
		
		
		for(var i=0; i<numTables; i++)
		{
			var platformID = rU(data, offset);  offset += 2;
			var encodingID = rU(data, offset);  offset += 2;
			var noffset = bin.readUint(data, offset);       offset += 4;
			
			var id = "p"+platformID+"e"+encodingID;
			
			//console.log("cmap subtable", platformID, encodingID, noffset);
			
			
			var tind = offs.indexOf(noffset);
			
			if(tind==-1)
			{
				tind = obj.tables.length;
				var subt = {};
				offs.push(noffset);
				//var time = Date.now();
				var format = subt.format = rU(data, noffset);
				if     (format== 0) subt = cmap.parse0(data, noffset, subt);
				//else if(format== 2) subt.off = noffset;
				else if(format== 4) subt = cmap.parse4(data, noffset, subt);
				else if(format== 6) subt = cmap.parse6(data, noffset, subt);
				else if(format==12) subt = cmap.parse12(data,noffset, subt);
				//console.log(format, Date.now()-time);
				//else console.log("unknown format: "+format, platformID, encodingID, noffset);
				obj.tables.push(subt);
			}
			
			if(obj.ids[id]!=null) throw "multiple tables for one platform+encoding";
			obj.ids[id] = tind;
		}
		return obj;
	},

	parse0 : function(data, offset, obj)
	{
		var bin = Typr["B"];
		offset += 2;
		var len    = bin.readUshort(data, offset);  offset += 2;
		var lang   = bin.readUshort(data, offset);  offset += 2;
		obj.map = [];
		for(var i=0; i<len-6; i++) obj.map.push(data[offset+i]);
		return obj;
	},

	parse4 : function(data, offset, obj)
	{
		var bin = Typr["B"], rU = bin.readUshort, rUs = bin.readUshorts;
		var offset0 = offset;
		offset+=2;
		var length   = rU(data, offset);  offset+=2;
		var language = rU(data, offset);  offset+=2;
		var segCountX2 = rU(data, offset);  offset+=2;
		var segCount = segCountX2>>>1;
		obj.searchRange = rU(data, offset);  offset+=2;
		obj.entrySelector = rU(data, offset);  offset+=2;
		obj.rangeShift = rU(data, offset);  offset+=2;
		obj.endCount   = rUs(data, offset, segCount);  offset += segCount*2;
		offset+=2;
		obj.startCount = rUs(data, offset, segCount);  offset += segCount*2;
		obj.idDelta = [];
		for(var i=0; i<segCount; i++) {obj.idDelta.push(bin.readShort(data, offset));  offset+=2;}
		obj.idRangeOffset = rUs(data, offset, segCount);  offset += segCount*2;
		obj.glyphIdArray  = rUs(data, offset, ((offset0+length)-offset)>>>1);  //offset += segCount*2;
		return obj;
	},

	parse6 : function(data, offset, obj)
	{
		var bin = Typr["B"];
		var offset0 = offset;
		offset+=2;
		var length = bin.readUshort(data, offset);  offset+=2;
		var language = bin.readUshort(data, offset);  offset+=2;
		obj.firstCode = bin.readUshort(data, offset);  offset+=2;
		var entryCount = bin.readUshort(data, offset);  offset+=2;
		obj.glyphIdArray = [];
		for(var i=0; i<entryCount; i++) {obj.glyphIdArray.push(bin.readUshort(data, offset));  offset+=2;}
		
		return obj;
	},

	parse12 : function(data, offset, obj)
	{
		var bin = Typr["B"], rU = bin.readUint;
		var offset0 = offset;
		offset+=4;
		var length = rU(data, offset);  offset+=4;
		var lang   = rU(data, offset);  offset+=4;
		var nGroups= rU(data, offset)*3;  offset+=4;
		
		var gps = obj.groups = new Uint32Array(nGroups);//new Uint32Array(data.slice(offset, offset+nGroups*12).buffer);  
		
		for(var i=0; i<nGroups; i+=3) {
			gps[i  ] = rU(data, offset+(i<<2)  );
			gps[i+1] = rU(data, offset+(i<<2)+4);
			gps[i+2] = rU(data, offset+(i<<2)+8);
		}
		return obj;
	}
};

Typr["T"].glyf = {
	parseTab : function(data, offset, length, font)
	{
		var obj = [], ng=font["maxp"]["numGlyphs"];
		for(var g=0; g<ng; g++) obj.push(null);
		return obj;
	},

	_parseGlyf : function(font, g)
	{
		var bin = Typr["B"];
		var data = font["_data"], loca=font["loca"];
		
		if(loca[g]==loca[g+1]) return null;
		
		var offset = Typr["findTable"](data, "glyf", font["_offset"])[0] + loca[g];
		
		var gl = {};
			
		gl.noc  = bin.readShort(data, offset);  offset+=2;		// number of contours
		gl.xMin = bin.readShort(data, offset);  offset+=2;
		gl.yMin = bin.readShort(data, offset);  offset+=2;
		gl.xMax = bin.readShort(data, offset);  offset+=2;
		gl.yMax = bin.readShort(data, offset);  offset+=2;
		
		if(gl.xMin>=gl.xMax || gl.yMin>=gl.yMax) return null;
			
		if(gl.noc>0)
		{
			gl.endPts = [];
			for(var i=0; i<gl.noc; i++) { gl.endPts.push(bin.readUshort(data,offset)); offset+=2; }
			
			var instructionLength = bin.readUshort(data,offset); offset+=2;
			if((data.length-offset)<instructionLength) return null;
			gl.instructions = bin.readBytes(data, offset, instructionLength);   offset+=instructionLength;
			
			var crdnum = gl.endPts[gl.noc-1]+1;
			gl.flags = [];
			for(var i=0; i<crdnum; i++ ) 
			{ 
				var flag = data[offset];  offset++; 
				gl.flags.push(flag); 
				if((flag&8)!=0)
				{
					var rep = data[offset];  offset++;
					for(var j=0; j<rep; j++) { gl.flags.push(flag); i++; }
				}
			}
			gl.xs = [];
			for(var i=0; i<crdnum; i++) {
				var i8=((gl.flags[i]&2)!=0), same=((gl.flags[i]&16)!=0);  
				if(i8) { gl.xs.push(same ? data[offset] : -data[offset]);  offset++; }
				else
				{
					if(same) gl.xs.push(0);
					else { gl.xs.push(bin.readShort(data, offset));  offset+=2; }
				}
			}
			gl.ys = [];
			for(var i=0; i<crdnum; i++) {
				var i8=((gl.flags[i]&4)!=0), same=((gl.flags[i]&32)!=0);  
				if(i8) { gl.ys.push(same ? data[offset] : -data[offset]);  offset++; }
				else
				{
					if(same) gl.ys.push(0);
					else { gl.ys.push(bin.readShort(data, offset));  offset+=2; }
				}
			}
			var x = 0, y = 0;
			for(var i=0; i<crdnum; i++) { x += gl.xs[i]; y += gl.ys[i];  gl.xs[i]=x;  gl.ys[i]=y; }
			//console.log(endPtsOfContours, instructionLength, instructions, flags, xCoordinates, yCoordinates);
		}
		else
		{
			var ARG_1_AND_2_ARE_WORDS	= 1<<0;
			var ARGS_ARE_XY_VALUES		= 1<<1;
			var ROUND_XY_TO_GRID		= 1<<2;
			var WE_HAVE_A_SCALE			= 1<<3;
			var RESERVED				= 1<<4;
			var MORE_COMPONENTS			= 1<<5;
			var WE_HAVE_AN_X_AND_Y_SCALE= 1<<6;
			var WE_HAVE_A_TWO_BY_TWO	= 1<<7;
			var WE_HAVE_INSTRUCTIONS	= 1<<8;
			var USE_MY_METRICS			= 1<<9;
			var OVERLAP_COMPOUND		= 1<<10;
			var SCALED_COMPONENT_OFFSET	= 1<<11;
			var UNSCALED_COMPONENT_OFFSET	= 1<<12;
			
			gl.parts = [];
			var flags;
			do {
				flags = bin.readUshort(data, offset);  offset += 2;
				var part = { m:{a:1,b:0,c:0,d:1,tx:0,ty:0}, p1:-1, p2:-1 };  gl.parts.push(part);
				part.glyphIndex = bin.readUshort(data, offset);  offset += 2;
				if ( flags & ARG_1_AND_2_ARE_WORDS) {
					var arg1 = bin.readShort(data, offset);  offset += 2;
					var arg2 = bin.readShort(data, offset);  offset += 2;
				} else {
					var arg1 = bin.readInt8(data, offset);  offset ++;
					var arg2 = bin.readInt8(data, offset);  offset ++;
				}
				
				if(flags & ARGS_ARE_XY_VALUES) { part.m.tx = arg1;  part.m.ty = arg2; }
				else  {  part.p1=arg1;  part.p2=arg2;  }
				//part.m.tx = arg1;  part.m.ty = arg2;
				//else { throw "params are not XY values"; }
				
				if ( flags & WE_HAVE_A_SCALE ) {
					part.m.a = part.m.d = bin.readF2dot14(data, offset);  offset += 2;    
				} else if ( flags & WE_HAVE_AN_X_AND_Y_SCALE ) {
					part.m.a = bin.readF2dot14(data, offset);  offset += 2; 
					part.m.d = bin.readF2dot14(data, offset);  offset += 2; 
				} else if ( flags & WE_HAVE_A_TWO_BY_TWO ) {
					part.m.a = bin.readF2dot14(data, offset);  offset += 2; 
					part.m.b = bin.readF2dot14(data, offset);  offset += 2; 
					part.m.c = bin.readF2dot14(data, offset);  offset += 2; 
					part.m.d = bin.readF2dot14(data, offset);  offset += 2; 
				}
			} while ( flags & MORE_COMPONENTS ) 
			if (flags & WE_HAVE_INSTRUCTIONS){
				var numInstr = bin.readUshort(data, offset);  offset += 2;
				gl.instr = [];
				for(var i=0; i<numInstr; i++) { gl.instr.push(data[offset]);  offset++; }
			}
		}
		return gl;
	}
};

Typr["T"].head = {
	parseTab : function(data, offset, length)
	{
		var bin = Typr["B"];
		var obj = {};
		var tableVersion = bin.readFixed(data, offset);  offset += 4;
		
		obj["fontRevision"] = bin.readFixed(data, offset);  offset += 4;
		var checkSumAdjustment = bin.readUint(data, offset);  offset += 4;
		var magicNumber = bin.readUint(data, offset);  offset += 4;
		obj["flags"] = bin.readUshort(data, offset);  offset += 2;
		obj["unitsPerEm"] = bin.readUshort(data, offset);  offset += 2;
		obj["created"]  = bin.readUint64(data, offset);  offset += 8;
		obj["modified"] = bin.readUint64(data, offset);  offset += 8;
		obj["xMin"] = bin.readShort(data, offset);  offset += 2;
		obj["yMin"] = bin.readShort(data, offset);  offset += 2;
		obj["xMax"] = bin.readShort(data, offset);  offset += 2;
		obj["yMax"] = bin.readShort(data, offset);  offset += 2;
		obj["macStyle"] = bin.readUshort(data, offset);  offset += 2;
		obj["lowestRecPPEM"] = bin.readUshort(data, offset);  offset += 2;
		obj["fontDirectionHint"] = bin.readShort(data, offset);  offset += 2;
		obj["indexToLocFormat"]  = bin.readShort(data, offset);  offset += 2;
		obj["glyphDataFormat"]   = bin.readShort(data, offset);  offset += 2;
		return obj;
	}
};

Typr["T"].hhea = {
	parseTab : function(data, offset, length)
	{
		var bin = Typr["B"];
		var obj = {};
		var tableVersion = bin.readFixed(data, offset);  offset += 4;
		
		var keys = ["ascender","descender","lineGap",
			"advanceWidthMax","minLeftSideBearing","minRightSideBearing","xMaxExtent",
			"caretSlopeRise","caretSlopeRun","caretOffset",
			"res0","res1","res2","res3",
			"metricDataFormat","numberOfHMetrics" ];
			
		for(var i=0; i<	keys.length; i++) {
			var key = keys[i];
			var func = (key=="advanceWidthMax" || key=="numberOfHMetrics")?bin.readUshort:bin.readShort;
			obj[key]=func(data,offset+i*2);
		}
		return obj;
	}
};


Typr["T"].hmtx = {
	parseTab : function(data, offset, length, font)
	{
		var bin = Typr["B"];
		var aWidth = [];
		var lsBearing = [];
		
		var nG = font["maxp"]["numGlyphs"], nH = font["hhea"]["numberOfHMetrics"];
		var aw = 0, lsb = 0, i=0;
		while(i<nH) {  aw=bin.readUshort(data, offset+(i<<2));  lsb=bin.readShort(data, offset+(i<<2)+2);  aWidth.push(aw);  lsBearing.push(lsb);  i++;  }
		while(i<nG) {  aWidth.push(aw);  lsBearing.push(lsb);  i++;  }
		
		return {aWidth:aWidth, lsBearing:lsBearing};
	}
};


Typr["T"].kern = {
	parseTab : function(data, offset, length, font)
	{
		var bin = Typr["B"], kern=Typr["T"].kern;
		
		var version = bin.readUshort(data, offset);
		if(version==1) return kern.parseV1(data, offset, length, font);
		var nTables = bin.readUshort(data, offset+2);  offset+=4;
		
		var map = {glyph1: [], rval:[]};
		for(var i=0; i<nTables; i++)
		{
			offset+=2;	// skip version
			var length  = bin.readUshort(data, offset);  offset+=2;
			var coverage = bin.readUshort(data, offset);  offset+=2;
			var format = coverage>>>8;
			/* I have seen format 128 once, that's why I do */ format &= 0xf;
			if(format==0) offset = kern.readFormat0(data, offset, map);
			//else throw "unknown kern table format: "+format;
		}
		return map;
	},

	parseV1 : function(data, offset, length, font)
	{
		var bin = Typr["B"], kern=Typr["T"].kern;
		
		var version = bin.readFixed(data, offset);   // 0x00010000 
		var nTables = bin.readUint (data, offset+4);  offset+=8;
		
		var map = {glyph1: [], rval:[]};
		for(var i=0; i<nTables; i++)
		{
			var length = bin.readUint(data, offset);   offset+=4;
			var coverage = bin.readUshort(data, offset);  offset+=2;
			var tupleIndex = bin.readUshort(data, offset);  offset+=2;
			var format = coverage&0xff;
			if(format==0) offset = kern.readFormat0(data, offset, map);
			//else throw "unknown kern table format: "+format;
		}
		return map;
	},

	readFormat0 : function(data, offset, map)
	{
		var bin = Typr["B"], rUs = bin.readUshort;
		var pleft = -1;
		var nPairs        = rUs(data, offset);
		var searchRange   = rUs(data, offset+2);
		var entrySelector = rUs(data, offset+4);
		var rangeShift    = rUs(data, offset+6);  offset+=8;
		for(var j=0; j<nPairs; j++)
		{
			var left  = rUs(data, offset);  offset+=2;
			var right = rUs(data, offset);  offset+=2;
			var value = bin.readShort (data, offset);  offset+=2;
			if(left!=pleft) { map.glyph1.push(left);  map.rval.push({ glyph2:[], vals:[] }) }
			var rval = map.rval[map.rval.length-1];
			rval.glyph2.push(right);   rval.vals.push(value);
			pleft = left;
		}
		return offset;
	}
};


Typr["T"].loca = {
	parseTab : function(data, offset, length, font)
	{
		var bin = Typr["B"];
		var obj = [];
		
		var ver = font["head"]["indexToLocFormat"];
		var len = font["maxp"]["numGlyphs"]+1;
		
		if(ver==0) for(var i=0; i<len; i++) obj.push(bin.readUshort(data, offset+(i<<1))<<1);
		if(ver==1) for(var i=0; i<len; i++) obj.push(bin.readUint  (data, offset+(i<<2))   );
		
		return obj;
	}
};


Typr["T"].maxp = {
	parseTab : function(data, offset, length)
	{
		//console.log(data.length, offset, length);
		
		var bin = Typr["B"], rU=bin.readUshort;
		var obj = {};
		
		// both versions 0.5 and 1.0
		var ver = bin.readUint(data, offset); offset += 4;
		
		obj["numGlyphs"] = rU(data, offset);  offset += 2;
		
		// only 1.0
		/*
		if(ver == 0x00010000) {
			obj.maxPoints             = rU(data, offset);  offset += 2;
			obj.maxContours           = rU(data, offset);  offset += 2;
			obj.maxCompositePoints    = rU(data, offset);  offset += 2;
			obj.maxCompositeContours  = rU(data, offset);  offset += 2;
			obj.maxZones              = rU(data, offset);  offset += 2;
			obj.maxTwilightPoints     = rU(data, offset);  offset += 2;
			obj.maxStorage            = rU(data, offset);  offset += 2;
			obj.maxFunctionDefs       = rU(data, offset);  offset += 2;
			obj.maxInstructionDefs    = rU(data, offset);  offset += 2;
			obj.maxStackElements      = rU(data, offset);  offset += 2;
			obj.maxSizeOfInstructions = rU(data, offset);  offset += 2;
			obj.maxComponentElements  = rU(data, offset);  offset += 2;
			obj.maxComponentDepth     = rU(data, offset);  offset += 2;
		}
		*/
		
		return obj;
	}
};


Typr["T"].name = {
	parseTab : function(data, offset, length)
	{
		var bin = Typr["B"];
		var obj = {};
		var format = bin.readUshort(data, offset);  offset += 2;
		var count  = bin.readUshort(data, offset);  offset += 2;
		var stringOffset = bin.readUshort(data, offset);  offset += 2;
		
		//console.log(format,count);
		
		var names = [
			"copyright",
			"fontFamily",
			"fontSubfamily",
			"ID",
			"fullName",
			"version",
			"postScriptName",
			"trademark",
			"manufacturer",
			"designer",
			"description",
			"urlVendor",
			"urlDesigner",
			"licence",
			"licenceURL",
			"---",
			"typoFamilyName",
			"typoSubfamilyName",
			"compatibleFull",
			"sampleText",
			"postScriptCID",
			"wwsFamilyName",
			"wwsSubfamilyName",
			"lightPalette",
			"darkPalette"
		];
		
		var offset0 = offset;
		var rU = bin.readUshort;
		
		for(var i=0; i<count; i++)
		{
			var platformID = rU(data, offset);  offset += 2;
			var encodingID = rU(data, offset);  offset += 2;
			var languageID = rU(data, offset);  offset += 2;
			var nameID     = rU(data, offset);  offset += 2;
			var slen       = rU(data, offset);  offset += 2;
			var noffset    = rU(data, offset);  offset += 2;
			//console.log(platformID, encodingID, languageID.toString(16), nameID, length, noffset);
			
			
			var soff = offset0 + count*12 + noffset;
			var str;
			if(false){}
			else if(platformID == 0) str = bin.readUnicode(data, soff, slen/2);
			else if(platformID == 3 && encodingID == 0) str = bin.readUnicode(data, soff, slen/2);
			else if(encodingID == 0) str = bin.readASCII  (data, soff, slen);
			else if(encodingID == 1) str = bin.readUnicode(data, soff, slen/2);
			else if(encodingID == 3) str = bin.readUnicode(data, soff, slen/2);
			else if(encodingID == 4) str = bin.readUnicode(data, soff, slen/2);
			else if(encodingID ==10) str = bin.readUnicode(data, soff, slen/2);
			
			else if(platformID == 1) { str = bin.readASCII(data, soff, slen);  console.log("reading unknown MAC encoding "+encodingID+" as ASCII") }
			else {
				console.log("unknown encoding "+encodingID + ", platformID: "+platformID);
				str = bin.readASCII(data, soff, slen);
			}
			
			var tid = "p"+platformID+","+(languageID).toString(16);//Typr._platforms[platformID];
			if(obj[tid]==null) obj[tid] = {};
			obj[tid][names[nameID]] = str;
			obj[tid]["_lang"] = languageID;
			//console.log(tid, obj[tid]);
		}
		/*
		if(format == 1)
		{
			var langTagCount = bin.readUshort(data, offset);  offset += 2;
			for(var i=0; i<langTagCount; i++)
			{
				var length  = bin.readUshort(data, offset);  offset += 2;
				var noffset = bin.readUshort(data, offset);  offset += 2;
			}
		}
		*/
		
		//console.log(obj);
		var psn = "postScriptName";
		
		for(var p in obj) if(obj[p][psn]!=null && obj[p]["_lang"]==0x0409) return obj[p];		// United States
		for(var p in obj) if(obj[p][psn]!=null && obj[p]["_lang"]==0x0000) return obj[p];		// Universal
		for(var p in obj) if(obj[p][psn]!=null && obj[p]["_lang"]==0x0c0c) return obj[p];		// Canada
		for(var p in obj) if(obj[p][psn]!=null) return obj[p];
		
		var out;
		for(var p in obj) { out=obj[p]; break; }
		console.log("returning name table with languageID "+ out._lang);
		if(out[psn]==null && out["ID"]!=null) out[psn]=out["ID"];
		return out;
	}
}

Typr["T"].OS2 = {
	parseTab : function(data, offset, length)
	{
		var bin = Typr["B"];
		var ver = bin.readUshort(data, offset); offset += 2;
		
		var OS2 = Typr["T"].OS2;
		
		var obj = {};
		if     (ver==0) OS2.version0(data, offset, obj);
		else if(ver==1) OS2.version1(data, offset, obj);
		else if(ver==2 || ver==3 || ver==4) OS2.version2(data, offset, obj);
		else if(ver==5) OS2.version5(data, offset, obj);
		else throw "unknown OS/2 table version: "+ver;
		
		return obj;
	},

	version0 : function(data, offset, obj)
	{
		var bin = Typr["B"];
		obj["xAvgCharWidth"] = bin.readShort(data, offset); offset += 2;
		obj["usWeightClass"] = bin.readUshort(data, offset); offset += 2;
		obj["usWidthClass"]  = bin.readUshort(data, offset); offset += 2;
		obj["fsType"] = bin.readUshort(data, offset); offset += 2;
		obj["ySubscriptXSize"] = bin.readShort(data, offset); offset += 2;
		obj["ySubscriptYSize"] = bin.readShort(data, offset); offset += 2;
		obj["ySubscriptXOffset"] = bin.readShort(data, offset); offset += 2;
		obj["ySubscriptYOffset"] = bin.readShort(data, offset); offset += 2; 
		obj["ySuperscriptXSize"] = bin.readShort(data, offset); offset += 2; 
		obj["ySuperscriptYSize"] = bin.readShort(data, offset); offset += 2; 
		obj["ySuperscriptXOffset"] = bin.readShort(data, offset); offset += 2;
		obj["ySuperscriptYOffset"] = bin.readShort(data, offset); offset += 2;
		obj["yStrikeoutSize"] = bin.readShort(data, offset); offset += 2;
		obj["yStrikeoutPosition"] = bin.readShort(data, offset); offset += 2;
		obj["sFamilyClass"] = bin.readShort(data, offset); offset += 2;
		obj["panose"] = bin.readBytes(data, offset, 10);  offset += 10;
		obj["ulUnicodeRange1"]	= bin.readUint(data, offset);  offset += 4;
		obj["ulUnicodeRange2"]	= bin.readUint(data, offset);  offset += 4;
		obj["ulUnicodeRange3"]	= bin.readUint(data, offset);  offset += 4;
		obj["ulUnicodeRange4"]	= bin.readUint(data, offset);  offset += 4;
		obj["achVendID"] = bin.readASCII(data, offset, 4);  offset += 4;
		obj["fsSelection"]	 = bin.readUshort(data, offset); offset += 2;
		obj["usFirstCharIndex"] = bin.readUshort(data, offset); offset += 2;
		obj["usLastCharIndex"] = bin.readUshort(data, offset); offset += 2;
		obj["sTypoAscender"] = bin.readShort(data, offset); offset += 2;
		obj["sTypoDescender"] = bin.readShort(data, offset); offset += 2;
		obj["sTypoLineGap"] = bin.readShort(data, offset); offset += 2;
		obj["usWinAscent"] = bin.readUshort(data, offset); offset += 2;
		obj["usWinDescent"] = bin.readUshort(data, offset); offset += 2;
		return offset;
	},

	version1 : function(data, offset, obj)
	{
		var bin = Typr["B"];
		offset = Typr["T"].OS2.version0(data, offset, obj);
		
		obj["ulCodePageRange1"] = bin.readUint(data, offset); offset += 4;
		obj["ulCodePageRange2"] = bin.readUint(data, offset); offset += 4;
		return offset;
	},

	version2 : function(data, offset, obj)
	{
		var bin = Typr["B"], rU=bin.readUshort;
		offset = Typr["T"].OS2.version1(data, offset, obj);
		
		obj["sxHeight"]     = bin.readShort(data, offset); offset += 2;
		obj["sCapHeight"]   = bin.readShort(data, offset); offset += 2;
		obj["usDefault"]    = rU(data, offset); offset += 2;
		obj["usBreak"]      = rU(data, offset); offset += 2;
		obj["usMaxContext"] = rU(data, offset); offset += 2;
		return offset;
	},

	version5 : function(data, offset, obj)
	{
		var rU = Typr["B"].readUshort;
		offset = Typr["T"].OS2.version2(data, offset, obj);

		obj["usLowerOpticalPointSize"] = rU(data, offset); offset += 2;
		obj["usUpperOpticalPointSize"] = rU(data, offset); offset += 2;
		return offset;
	}
}

Typr["T"].post = {
	parseTab : function(data, offset, length)
	{
		var bin = Typr["B"];
		var obj = {};
		
		obj["version"]            = bin.readFixed(data, offset);  offset+=4;
		obj["italicAngle"]        = bin.readFixed(data, offset);  offset+=4;
		obj["underlinePosition"]  = bin.readShort(data, offset);  offset+=2;
		obj["underlineThickness"] = bin.readShort(data, offset);  offset+=2;

		return obj;
	}
};
Typr["T"].SVG = {
	parseTab : function(data, offset, length)
	{
		var bin = Typr["B"];
		var obj = { entries: []};

		var offset0 = offset;

		var tableVersion = bin.readUshort(data, offset);	offset += 2;
		var svgDocIndexOffset = bin.readUint(data, offset);	offset += 4;
		var reserved = bin.readUint(data, offset); offset += 4;

		offset = svgDocIndexOffset + offset0;

		var numEntries = bin.readUshort(data, offset);	offset += 2;

		for(var i=0; i<numEntries; i++)
		{
			var startGlyphID = bin.readUshort(data, offset);  offset += 2;
			var endGlyphID   = bin.readUshort(data, offset);  offset += 2;
			var svgDocOffset = bin.readUint  (data, offset);  offset += 4;
			var svgDocLength = bin.readUint  (data, offset);  offset += 4;

			var sbuf = new Uint8Array(data.buffer, offset0 + svgDocOffset + svgDocIndexOffset, svgDocLength);
			var svg = bin.readUTF8(sbuf, 0, sbuf.length);
			
			for(var f=startGlyphID; f<=endGlyphID; f++) {
				obj.entries[f] = svg;
			}
		}
		return obj;
	}
};






Typr["U"] = {
	"shape" : function(font,str,ltr) {
		
		var getGlyphPosition = function(font, gls,i1,ltr)
		{
			var g1=gls[i1],g2=gls[i1+1], kern=font["kern"];
			if(kern) {
				var ind1 = kern.glyph1.indexOf(g1);
				if(ind1!=-1)
				{
					var ind2 = kern.rval[ind1].glyph2.indexOf(g2);
					if(ind2!=-1) return [0,0,kern.rval[ind1].vals[ind2],0];
				}
			}
			//console.log("no kern");
			return [0,0,0,0];
		}
		
		
		var gls = [];
		for(var i=0; i<str.length; i++) {
			var cc = str.codePointAt(i);  if(cc>0xffff) i++;
			gls.push(Typr["U"]["codeToGlyph"](font, cc));
		}
		var shape = [];
		var x = 0, y = 0;
		
		for(var i=0; i<gls.length; i++) {
			var padj = getGlyphPosition(font, gls,i,ltr);
			var gid = gls[i];
			var ax=font["hmtx"].aWidth[gid]+padj[2];
			shape.push({"g":gid, "cl":i, "dx":0, "dy":0, "ax":ax, "ay":0});
			x+=ax;
		}
		return shape;
	},
	
	"shapeToPath" : function(font,shape,clr) {
		var tpath = {cmds:[], crds:[]};
		var x = 0, y = 0;
		
		for(var i=0; i<shape.length; i++) {
			var it = shape[i]
			var path = Typr["U"]["glyphToPath"](font, it["g"]), crds=path["crds"];
			for(var j=0; j<crds.length; j+=2) {
				tpath.crds.push(crds[j  ] + x + it["dx"]);
				tpath.crds.push(crds[j+1] + y + it["dy"]);
			}
			if(clr) tpath.cmds.push(clr);
			for(var j=0; j<path["cmds"].length; j++) tpath.cmds.push(path["cmds"][j]);
			var clen = tpath.cmds.length;
			if(clr) if(clen!=0 && tpath.cmds[clen-1]!="X") tpath.cmds.push("X");  // SVG fonts might contain "X". Then, nothing would stroke non-SVG glyphs.
			
			x += it["ax"];  y+= it["ay"];
		}
		return {"cmds":tpath.cmds, "crds":tpath.crds};
	},

	"codeToGlyph" : function(font, code)
	{
		var cmap = font["cmap"];
		//console.log(cmap);
		// "p3e10" for NotoEmoji-Regular.ttf
		var tind = -1, pps=["p3e10","p0e4","p3e1","p1e0","p0e3","p0e1"/*,"p3e3"*/];
		for(var i=0; i<pps.length; i++) if(cmap.ids[pps[i]]!=null) {  tind=cmap.ids[pps[i]];  break;  }
		if(tind==-1) throw "no familiar platform and encoding!";
		
		
		// find the greatest index with a value <=v
		var arrSearch = function(arr, k, v) {
			var l=0, r=Math.floor(arr.length/k);
			while(l+1!=r) {  var mid = l + ((r-l)>>>1);   if(arr[mid*k]<=v) l=mid;  else r=mid;  }
			return l*k;
		}
		
		var tab = cmap.tables[tind], fmt=tab.format, gid = -1;  //console.log(fmt); throw "e";
		
		if(fmt==0) {
			if(code>=tab.map.length) gid = 0;
			else gid = tab.map[code];
		}
		/*else if(fmt==2) {
			var data=font["_data"], off = cmap.off+tab.off+6, bin=Typr["B"];
			var shKey = bin.readUshort(data,off + 2*(code>>>8));
			var shInd = off + 256*2 + shKey*8;
			
			var firstCode = bin.readUshort(data,shInd);
			var entryCount= bin.readUshort(data,shInd+2);
			var idDelta   = bin.readShort (data,shInd+4);
			var idRangeOffset = bin.readUshort(data,shInd+6);
			
			if(firstCode<=code && code<=firstCode+entryCount) {
				// not completely correct
				gid = bin.readUshort(data, shInd+6+idRangeOffset + (code&255)*2);
			}
			else gid=0;
			//if(code>256) console.log(code,(code>>>8),shKey,firstCode,entryCount,idDelta,idRangeOffset);
			
			//throw "e";
			//console.log(tab,  bin.readUshort(data,off));
			//throw "e";
		}*/
		else if(fmt==4) {
			var sind = -1, ec = tab.endCount;
			if(code>ec[ec.length-1]) sind=-1;
			else {
				// smallest index with code <= value
				sind = arrSearch(ec,1,code);
				if(ec[sind]<code) sind++;
			}
			if(sind==-1) gid = 0;
			else if(code<tab.startCount[sind]) gid = 0;
			else {
				var gli = 0;
				if(tab.idRangeOffset[sind]!=0) gli = tab.glyphIdArray[(code-tab.startCount[sind]) + (tab.idRangeOffset[sind]>>1) - (tab.idRangeOffset.length-sind)];
				else                           gli = code + tab.idDelta[sind];
				gid = (gli & 0xFFFF);
			}
		}
		else if(fmt==6) {
			var off = code-tab.firstCode, arr=tab.glyphIdArray;
			if(off<0 || off>=arr.length) gid=0;
			else gid = arr[off];
		}
		else if(fmt==12) {
			var grp = tab.groups;  //console.log(grp);  throw "e";
			
			if(code>grp[grp.length-2]) gid = 0;
			else {
				var i = arrSearch(grp,3,code);
				if(grp[i]<=code && code<=grp[i+1]) {  gid = grp[i+2] + (code-grp[i]);  }
				if(gid==-1) gid=0;
			}
		}
		else throw "unknown cmap table format "+tab.format;
		
		//*
		var SVG = font["SVG "], loca = font["loca"];
		// if the font claims to have a Glyph for a character, but the glyph is empty, and the character is not "white", it is a lie!
		if(gid!=0 && font["CFF "]==null && (SVG==null || SVG.entries[gid]==null) && loca[gid]==loca[gid+1]  // loca not present in CFF or SVG fonts
			&& [0x9,0xa,0xb,0xc,0xd,0x20,0x85,0xa0,0x1680,0x2028,0x2029,0x202f,0x3000,
				0x180e,0x200b,0x200c,0x200d,0x2060,0xfeff].indexOf(code)==-1 && !(0x2000<=code && code<=0x200a))  gid=0;
		//*/
		
		return gid;
	},

	"glyphToPath" : function(font, gid)
	{
		var path = { cmds:[], crds:[] };
		var SVG = font["SVG "], CFF = font["CFF "];
		var U = Typr["U"];
		if(SVG && SVG.entries[gid]) {
			var p = SVG.entries[gid];  
			if(p!=null) {
				if(typeof p == "string") {  p = U["SVG"].toPath(p);  SVG.entries[gid]=p;  }
				path=p;
			}
		}
		else if(CFF) {
			var pdct = CFF["Private"];
			var state = {x:0,y:0,stack:[],nStems:0,haveWidth:false,width: pdct ? pdct["defaultWidthX"] : 0,open:false};
			if(CFF["ROS"]) {
				var gi = 0;
				while(CFF["FDSelect"][gi+2]<=gid) gi+=2;
				pdct = CFF["FDArray"][CFF["FDSelect"][gi+1]]["Private"];
			}
			U["_drawCFF"](CFF["CharStrings"][gid], state, CFF, pdct, path);
		}
		else if(font["glyf"]) {  U["_drawGlyf"](gid, font, path);  }
		return {"cmds":path.cmds, "crds":path.crds};
	},

	"_drawGlyf" : function(gid, font, path)
	{
		var gl = font["glyf"][gid];
		if(gl==null) gl = font["glyf"][gid] = Typr["T"].glyf._parseGlyf(font, gid);
		if(gl!=null){
			if(gl.noc>-1) Typr["U"]["_simpleGlyph"](gl, path);
			else          Typr["U"]["_compoGlyph"] (gl, font, path);
		}
	},
	"_simpleGlyph" : function(gl, p)
	{
		var P = Typr["U"]["P"];
		for(var c=0; c<gl.noc; c++) {
			var i0 = (c==0) ? 0 : (gl.endPts[c-1] + 1);
			var il = gl.endPts[c];
			
			for(var i=i0; i<=il; i++) {
				var pr = (i==i0)?il:(i-1);
				var nx = (i==il)?i0:(i+1);
				var onCurve = gl.flags[i]&1;
				var prOnCurve = gl.flags[pr]&1;
				var nxOnCurve = gl.flags[nx]&1;
				
				var x = gl.xs[i], y = gl.ys[i];
				
				if(i==i0) { 
					if(onCurve) {
						if(prOnCurve) P.MoveTo(p, gl.xs[pr], gl.ys[pr]); 
						else          {  P.MoveTo(p,x,y);  continue;  /*  will do CurveTo at il  */  }
					}
					else {
						if(prOnCurve) P.MoveTo(p,  gl.xs[pr],       gl.ys[pr]        );
						else          P.MoveTo(p, Math.floor((gl.xs[pr]+x)*0.5), Math.floor((gl.ys[pr]+y)*0.5)   ); 
					}
				}
				if(onCurve) {
					if(prOnCurve) P.LineTo(p,x,y);
				}
				else {
					if(nxOnCurve) P.qCurveTo(p, x, y, gl.xs[nx], gl.ys[nx]); 
					else          P.qCurveTo(p, x, y, Math.floor((x+gl.xs[nx])*0.5), Math.floor((y+gl.ys[nx])*0.5) ); 
				}
			}
			P.ClosePath(p);
		}
	},
	"_compoGlyph" : function(gl, font, p) {
		for(var j=0; j<gl.parts.length; j++) {
			var path = { cmds:[], crds:[] };
			var prt = gl.parts[j];
			Typr["U"]["_drawGlyf"](prt.glyphIndex, font, path);
			
			var m = prt.m;
			for(var i=0; i<path.crds.length; i+=2) {
				var x = path.crds[i  ], y = path.crds[i+1];
				p.crds.push(x*m.a + y*m.b + m.tx);
				p.crds.push(x*m.c + y*m.d + m.ty);
			}
			for(var i=0; i<path.cmds.length; i++) p.cmds.push(path.cmds[i]);
		}
	},

	"pathToSVG" : function(path, prec)
	{
		var cmds = path["cmds"], crds = path["crds"];
		if(prec==null) prec = 5;
		var out = [], co = 0, lmap = {"M":2,"L":2,"Q":4,"C":6};
		for(var i=0; i<cmds.length; i++)
		{
			var cmd = cmds[i], cn = co+(lmap[cmd]?lmap[cmd]:0);  
			out.push(cmd);
			while(co<cn) {  var c = crds[co++];  out.push(parseFloat(c.toFixed(prec))+(co==cn?"":" "));  }
		}
		return out.join("");
	},
	"SVGToPath" : function(d) {
		var pth = {cmds:[], crds:[]};
		Typr["U"]["SVG"].svgToPath(d, pth);
		return {"cmds":pth.cmds, "crds":pth.crds};
	},

	"pathToContext" : function(path, ctx) {
		var c = 0, cmds = path["cmds"], crds = path["crds"];
		
		for(var j=0; j<cmds.length; j++) {
			var cmd = cmds[j];
			if     (cmd=="M") {
				ctx.moveTo(crds[c], crds[c+1]);
				c+=2;
			}
			else if(cmd=="L") {
				ctx.lineTo(crds[c], crds[c+1]);
				c+=2;
			}
			else if(cmd=="C") {
				ctx.bezierCurveTo(crds[c], crds[c+1], crds[c+2], crds[c+3], crds[c+4], crds[c+5]);
				c+=6;
			}
			else if(cmd=="Q") {
				ctx.quadraticCurveTo(crds[c], crds[c+1], crds[c+2], crds[c+3]);
				c+=4;
			}
			else if(cmd.charAt(0)=="#") {
				ctx.beginPath();
				ctx.fillStyle = cmd;
			}
			else if(cmd=="Z") {
				ctx.closePath();
			}
			else if(cmd=="X") {
				ctx.fill();
			}
		}
	},

	"P" : {
		MoveTo    : function(p, x, y)        {  p.cmds.push("M");  p.crds.push(x,y);  },
		LineTo    : function(p, x, y)        {  p.cmds.push("L");  p.crds.push(x,y);  },
		CurveTo   : function(p, a,b,c,d,e,f) {  p.cmds.push("C");  p.crds.push(a,b,c,d,e,f);  },
		qCurveTo  : function(p, a,b,c,d)     {  p.cmds.push("Q");  p.crds.push(a,b,c,d);  },
		ClosePath : function(p)              {  p.cmds.push("Z");  }
	},

	"_drawCFF" : function(cmds, state, font, pdct, p)
	{
		var stack = state.stack;
		var nStems = state.nStems, haveWidth=state.haveWidth, width=state.width, open=state.open;
		var i=0;
		var x=state.x, y=state.y, c1x=0, c1y=0, c2x=0, c2y=0, c3x=0, c3y=0, c4x=0, c4y=0, jpx=0, jpy=0;
		var CFF = Typr["T"].CFF, P = Typr["U"]["P"];
		
		var nominalWidthX = pdct["nominalWidthX"];
		var o = {val:0,size:0};
		//console.log(cmds);
		while(i<cmds.length)
		{
			CFF.getCharString(cmds, i, o);
			var v = o.val;
			i += o.size;
				
			if(false) {}
			else if(v=="o1" || v=="o18")  //  hstem || hstemhm
			{
				var hasWidthArg;

				// The number of stem operators on the stack is always even.
				// If the value is uneven, that means a width is specified.
				hasWidthArg = stack.length % 2 !== 0;
				if (hasWidthArg && !haveWidth) {
					width = stack.shift() + nominalWidthX;
				}

				nStems += stack.length >> 1;
				stack.length = 0;
				haveWidth = true;
			}
			else if(v=="o3" || v=="o23")  // vstem || vstemhm
			{
				var hasWidthArg;

				// The number of stem operators on the stack is always even.
				// If the value is uneven, that means a width is specified.
				hasWidthArg = stack.length % 2 !== 0;
				if (hasWidthArg && !haveWidth) {
					width = stack.shift() + nominalWidthX;
				}

				nStems += stack.length >> 1;
				stack.length = 0;
				haveWidth = true;
			}
			else if(v=="o4")
			{
				if (stack.length > 1 && !haveWidth) {
							width = stack.shift() + nominalWidthX;
							haveWidth = true;
						}
				if(open) P.ClosePath(p);

						y += stack.pop();
						P.MoveTo(p,x,y);   open=true;
			}
			else if(v=="o5")
			{
				while (stack.length > 0) {
							x += stack.shift();
							y += stack.shift();
							P.LineTo(p, x, y);
						}
			}
			else if(v=="o6" || v=="o7")  // hlineto || vlineto
			{
				var count = stack.length;
				var isX = (v == "o6");
				
				for(var j=0; j<count; j++) {
					var sval = stack.shift();
					
					if(isX) x += sval;  else  y += sval;
					isX = !isX;
					P.LineTo(p, x, y);
				}
			}
			else if(v=="o8" || v=="o24")	// rrcurveto || rcurveline
			{
				var count = stack.length;
				var index = 0;
				while(index+6 <= count) {
					c1x = x + stack.shift();
					c1y = y + stack.shift();
					c2x = c1x + stack.shift();
					c2y = c1y + stack.shift();
					x = c2x + stack.shift();
					y = c2y + stack.shift();
					P.CurveTo(p, c1x, c1y, c2x, c2y, x, y);
					index+=6;
				}
				if(v=="o24")
				{
					x += stack.shift();
					y += stack.shift();
					P.LineTo(p, x, y);
				}
			}
			else if(v=="o11")  break;
			else if(v=="o1234" || v=="o1235" || v=="o1236" || v=="o1237")//if((v+"").slice(0,3)=="o12")
			{
				if(v=="o1234")
				{
					c1x = x   + stack.shift();    // dx1
					c1y = y;                      // dy1
					c2x = c1x + stack.shift();    // dx2
					c2y = c1y + stack.shift();    // dy2
					jpx = c2x + stack.shift();    // dx3
					jpy = c2y;                    // dy3
					c3x = jpx + stack.shift();    // dx4
					c3y = c2y;                    // dy4
					c4x = c3x + stack.shift();    // dx5
					c4y = y;                      // dy5
					x = c4x + stack.shift();      // dx6
					P.CurveTo(p, c1x, c1y, c2x, c2y, jpx, jpy);
					P.CurveTo(p, c3x, c3y, c4x, c4y, x, y);
					
				}
				if(v=="o1235")
				{
					c1x = x   + stack.shift();    // dx1
					c1y = y   + stack.shift();    // dy1
					c2x = c1x + stack.shift();    // dx2
					c2y = c1y + stack.shift();    // dy2
					jpx = c2x + stack.shift();    // dx3
					jpy = c2y + stack.shift();    // dy3
					c3x = jpx + stack.shift();    // dx4
					c3y = jpy + stack.shift();    // dy4
					c4x = c3x + stack.shift();    // dx5
					c4y = c3y + stack.shift();    // dy5
					x = c4x + stack.shift();      // dx6
					y = c4y + stack.shift();      // dy6
					stack.shift();                // flex depth
					P.CurveTo(p, c1x, c1y, c2x, c2y, jpx, jpy);
					P.CurveTo(p, c3x, c3y, c4x, c4y, x, y);
				}
				if(v=="o1236")
				{
					c1x = x   + stack.shift();    // dx1
					c1y = y   + stack.shift();    // dy1
					c2x = c1x + stack.shift();    // dx2
					c2y = c1y + stack.shift();    // dy2
					jpx = c2x + stack.shift();    // dx3
					jpy = c2y;                    // dy3
					c3x = jpx + stack.shift();    // dx4
					c3y = c2y;                    // dy4
					c4x = c3x + stack.shift();    // dx5
					c4y = c3y + stack.shift();    // dy5
					x = c4x + stack.shift();      // dx6
					P.CurveTo(p, c1x, c1y, c2x, c2y, jpx, jpy);
					P.CurveTo(p, c3x, c3y, c4x, c4y, x, y);
				}
				if(v=="o1237")
				{
					c1x = x   + stack.shift();    // dx1
					c1y = y   + stack.shift();    // dy1
					c2x = c1x + stack.shift();    // dx2
					c2y = c1y + stack.shift();    // dy2
					jpx = c2x + stack.shift();    // dx3
					jpy = c2y + stack.shift();    // dy3
					c3x = jpx + stack.shift();    // dx4
					c3y = jpy + stack.shift();    // dy4
					c4x = c3x + stack.shift();    // dx5
					c4y = c3y + stack.shift();    // dy5
					if (Math.abs(c4x - x) > Math.abs(c4y - y)) {
						x = c4x + stack.shift();
					} else {
						y = c4y + stack.shift();
					}
					P.CurveTo(p, c1x, c1y, c2x, c2y, jpx, jpy);
					P.CurveTo(p, c3x, c3y, c4x, c4y, x, y);
				}
			}
			else if(v=="o14")
			{
				if (stack.length > 0 && !haveWidth) {
							width = stack.shift() + font["nominalWidthX"];
							haveWidth = true;
						}
				if(stack.length==4) // seac = standard encoding accented character
				{
				
					var asb = 0;
					var adx = stack.shift();
					var ady = stack.shift();
					var bchar = stack.shift();
					var achar = stack.shift();
				
					
					var bind = CFF.glyphBySE(font, bchar);
					var aind = CFF.glyphBySE(font, achar);
					
					//console.log(bchar, bind);
					//console.log(achar, aind);
					//state.x=x; state.y=y; state.nStems=nStems; state.haveWidth=haveWidth; state.width=width;  state.open=open;
					
					Typr["U"]["_drawCFF"](font["CharStrings"][bind], state,font,pdct,p);
					state.x = adx; state.y = ady;
					Typr["U"]["_drawCFF"](font["CharStrings"][aind], state,font,pdct,p);
					
					//x=state.x; y=state.y; nStems=state.nStems; haveWidth=state.haveWidth; width=state.width;  open=state.open;
				}
				if(open) {  P.ClosePath(p);  open=false;  }
			}		
			else if(v=="o19" || v=="o20") 
			{ 
				var hasWidthArg;

				// The number of stem operators on the stack is always even.
				// If the value is uneven, that means a width is specified.
				hasWidthArg = stack.length % 2 !== 0;
				if (hasWidthArg && !haveWidth) {
					width = stack.shift() + nominalWidthX;
				}

				nStems += stack.length >> 1;
				stack.length = 0;
				haveWidth = true;
				
				i += (nStems + 7) >> 3;
			}
			
			else if(v=="o21") {
				if (stack.length > 2 && !haveWidth) {
							width = stack.shift() + nominalWidthX;
							haveWidth = true;
						}

						y += stack.pop();
						x += stack.pop();
						
						if(open) P.ClosePath(p);
						P.MoveTo(p,x,y);   open=true;
			}
			else if(v=="o22")
			{
				 if (stack.length > 1 && !haveWidth) {
							width = stack.shift() + nominalWidthX;
							haveWidth = true;
						}
						
						x += stack.pop();
						
						if(open) P.ClosePath(p);
						P.MoveTo(p,x,y);   open=true;                    
			}
			else if(v=="o25")
			{
				while (stack.length > 6) {
							x += stack.shift();
							y += stack.shift();
							P.LineTo(p, x, y);
						}

						c1x = x + stack.shift();
						c1y = y + stack.shift();
						c2x = c1x + stack.shift();
						c2y = c1y + stack.shift();
						x = c2x + stack.shift();
						y = c2y + stack.shift();
						P.CurveTo(p, c1x, c1y, c2x, c2y, x, y);
			}
			else if(v=="o26") 
			{
				if (stack.length % 2) {
							x += stack.shift();
						}

						while (stack.length > 0) {
							c1x = x;
							c1y = y + stack.shift();
							c2x = c1x + stack.shift();
							c2y = c1y + stack.shift();
							x = c2x;
							y = c2y + stack.shift();
							P.CurveTo(p, c1x, c1y, c2x, c2y, x, y);
						}

			}
			else if(v=="o27")
			{
				if (stack.length % 2) {
							y += stack.shift();
						}

						while (stack.length > 0) {
							c1x = x + stack.shift();
							c1y = y;
							c2x = c1x + stack.shift();
							c2y = c1y + stack.shift();
							x = c2x + stack.shift();
							y = c2y;
							P.CurveTo(p, c1x, c1y, c2x, c2y, x, y);
						}
			}
			else if(v=="o10" || v=="o29")	// callsubr || callgsubr
			{
				var obj = (v=="o10" ? pdct : font);
				if(stack.length==0) { console.log("error: empty stack");  }
				else {
					var ind = stack.pop();
					var subr = obj["Subrs"][ ind + obj["Bias"] ];
					state.x=x; state.y=y; state.nStems=nStems; state.haveWidth=haveWidth; state.width=width;  state.open=open;
					Typr["U"]["_drawCFF"](subr, state,font,pdct,p);
					x=state.x; y=state.y; nStems=state.nStems; haveWidth=state.haveWidth; width=state.width;  open=state.open;
				}
			}
			else if(v=="o30" || v=="o31")   // vhcurveto || hvcurveto
			{
				var count, count1 = stack.length;
				var index = 0;
				var alternate = v == "o31";
				
				count  = count1 & ~2;
				index += count1 - count;
				
				while ( index < count ) 
				{
					if(alternate)
					{
						c1x = x + stack.shift();
						c1y = y;
						c2x = c1x + stack.shift();
						c2y = c1y + stack.shift();
						y = c2y + stack.shift();
						if(count-index == 5) {  x = c2x + stack.shift();  index++;  }
						else x = c2x;
						alternate = false;
					}
					else
					{
						c1x = x;
						c1y = y + stack.shift();
						c2x = c1x + stack.shift();
						c2y = c1y + stack.shift();
						x = c2x + stack.shift();
						if(count-index == 5) {  y = c2y + stack.shift();  index++;  }
						else y = c2y;
						alternate = true;
					}
					P.CurveTo(p, c1x, c1y, c2x, c2y, x, y);
					index += 4;
				}
			}
			
			else if((v+"").charAt(0)=="o") {   console.log("Unknown operation: "+v, cmds); throw v;  }
			else stack.push(v);
		}
		//console.log(cmds);
		state.x=x; state.y=y; state.nStems=nStems; state.haveWidth=haveWidth; state.width=width; state.open=open;
	},


	"SVG" : function() {
		var M = {
			getScale : function(m) {  return Math.sqrt(Math.abs(m[0]*m[3]-m[1]*m[2]));  },
			translate: function(m,x,y) {  M.concat(m, [1,0,0,1,x,y]);  },
			rotate   : function(m,a  ) {  M.concat(m, [Math.cos(a), -Math.sin(a), Math.sin(a), Math.cos(a),0,0]);  },
			scale    : function(m,x,y) {  M.concat(m, [x,0,0,y,0,0]);  },
			concat   : function(m,w  ) {  
				var a=m[0],b=m[1],c=m[2],d=m[3],tx=m[4],ty=m[5];
				m[0] = (a *w[0])+(b *w[2]);       m[1] = (a *w[1])+(b *w[3]);
				m[2] = (c *w[0])+(d *w[2]);       m[3] = (c *w[1])+(d *w[3]);
				m[4] = (tx*w[0])+(ty*w[2])+w[4];  m[5] = (tx*w[1])+(ty*w[3])+w[5]; 
			},
			invert   : function(m    ) {  
				var a=m[0],b=m[1],c=m[2],d=m[3],tx=m[4],ty=m[5], adbc=a*d-b*c;
				m[0] = d/adbc;  m[1] = -b/adbc;  m[2] =-c/adbc;  m[3] =  a/adbc;
				m[4] = (c*ty - d*tx)/adbc;  m[5] = (b*tx - a*ty)/adbc;
			},
			multPoint: function(m, p ) {  var x=p[0],y=p[1];  return [x*m[0]+y*m[2]+m[4],   x*m[1]+y*m[3]+m[5]];  },
			multArray: function(m, a ) {  for(var i=0; i<a.length; i+=2) {  var x=a[i],y=a[i+1];  a[i]=x*m[0]+y*m[2]+m[4];  a[i+1]=x*m[1]+y*m[3]+m[5];  }  }
		}
		
		function _bracketSplit(str, lbr, rbr) {
			var out = [], pos=0, ci = 0, lvl = 0;
			while(true) {  //throw "e";
				var li = str.indexOf(lbr, ci);
				var ri = str.indexOf(rbr, ci);
				if(li==-1 && ri==-1) break;
				if(ri==-1 || (li!=-1 && li<ri)) {
					if(lvl==0) {  out.push(str.slice(pos,li).trim());  pos=li+1;  }
					lvl++;  ci=li+1;
				}
				else if(li==-1 || (ri!=-1 && ri<li)) {
					lvl--;
					if(lvl==0) {  out.push(str.slice(pos,ri).trim());  pos=ri+1;  }
					ci=ri+1;
				}
			}
			return out;
		}
		//"cssMap": 
		function cssMap(str) {
			var pts = _bracketSplit(str, "{", "}");
			var css = {};
			for(var i=0; i<pts.length; i+=2) {
				var cn = pts[i].split(",");
				for(var j=0; j<cn.length; j++) {
					var cnj = cn[j].trim();  if(css[cnj]==null) css[cnj]="";
					css[cnj] += pts[i+1];
				}
			}
			return css;
		}
		//"readTrnf" 
		function readTrnf(trna) {
			var pts = _bracketSplit(trna, "(",")");
			var m = [1,0,0,1,0,0];
			for(var i=0; i<pts.length; i+=2) {  var om=m;  m=_readTrnsAttr(pts[i], pts[i+1]);  M.concat(m,om);  }
			return m;
		}
		
		function _readTrnsAttr(fnc, vls) {
			//console.log(vls);
			//vls = vls.replace(/\-/g, " -").trim();
			var m = [1,0,0,1,0,0], gotSep = true;
			for(var i=0; i<vls.length; i++) {	// matrix(.99915 0 0 .99915.418.552)   matrix(1 0 0-.9474-22.535 271.03)
				var ch = vls.charAt(i);
				if(ch=="," || ch==" ") gotSep = true;
				else if(ch==".") {
					if(!gotSep) {  vls = vls.slice(0,i) + ","+vls.slice(i);  i++;  }     gotSep = false;
				}
				else if(ch=="-" && i>0 && vls[i-1]!="e") {  vls = vls.slice(0,i) + " "+vls.slice(i);  i++;  gotSep=true;  }
			}
			
			vls = vls.split(/\s*[\s,]\s*/).map(parseFloat);
			if(false) {}
			else if(fnc=="translate") {  if(vls.length==1) M.translate(m,vls[0],     0);  else M.translate(m,vls[0],vls[1]);  }
			else if(fnc=="scale"    ) {  if(vls.length==1) M.scale    (m,vls[0],vls[0]);  else M.scale    (m,vls[0],vls[1]);  }
			else if(fnc=="rotate"   ) {  var tx=0,ty=0;  if(vls.length!=1) { tx=vls[1];  ty=vls[2];  }  M.translate(m,-tx,-ty);  M.rotate(m,-Math.PI*vls[0]/180);  M.translate(m,tx,ty);  }
			else if(fnc=="matrix"   ) m = vls;
			else console.log("unknown transform: ", fnc);
			return m;
		}
		
		function toPath(str)
		{
			var pth = {cmds:[], crds:[]};
			if(str==null) return pth;
			
			var prsr = new DOMParser();
			var doc = prsr["parseFromString"](str,"image/svg+xml");
			
			//var svg = doc.firstChild;  while(svg.tagName!="svg") svg = svg.nextSibling;
			var svg = doc.getElementsByTagName("svg")[0];
			var vb = svg.getAttribute("viewBox");
			if(vb) vb = vb.trim().split(" ").map(parseFloat);  else   vb = [0,0,1000,1000];
			_toPath(svg.children, pth);
			for(var i=0; i<pth.crds.length; i+=2) {
				var x = pth.crds[i], y = pth.crds[i+1];
				x -= vb[0];
				y -= vb[1];
				y = -y;
				pth.crds[i] = x;
				pth.crds[i+1] = y;
			}
			return pth;
		}

		function _toPath(nds, pth, fill) {
			for(var ni=0; ni<nds.length; ni++) {
				var nd = nds[ni], tn = nd.tagName;
				var cfl = nd.getAttribute("fill");  if(cfl==null) cfl = fill;
				if(tn=="g") {
					var tp = {crds:[], cmds:[]};
					_toPath(nd.children, tp, cfl);
					var trf = nd.getAttribute("transform");
					if(trf) {
						var m = readTrnf(trf);
						M.multArray(m, tp.crds);
					}
					pth.crds=pth.crds.concat(tp.crds);
					pth.cmds=pth.cmds.concat(tp.cmds);
				}
				else if(tn=="path" || tn=="circle" || tn=="ellipse") {
					pth.cmds.push(cfl?cfl:"#000000");
					var d;
					if(tn=="path") d = nd.getAttribute("d");  //console.log(d);
					if(tn=="circle" || tn=="ellipse") {
						var vls=[0,0,0,0], nms=["cx","cy","rx","ry","r"];
						for(var i=0; i<5; i++) {  var V=nd.getAttribute(nms[i]);  if(V) {  V=parseFloat(V);  if(i<4) vls[i]=V;  else vls[2]=vls[3]=V;  }  }
						var cx=vls[0],cy=vls[1],rx=vls[2],ry=vls[3];
						d = ["M",cx-rx,cy,"a",rx,ry,0,1,0,rx*2,0,"a",rx,ry,0,1,0,-rx*2,0].join(" ");
					}
					svgToPath(d, pth);  pth.cmds.push("X");
				}
				else if(tn=="defs") {}
				else console.log(tn, nd);
			}
		}

		function _tokens(d) {
			var ts = [], off = 0, rn=false, cn="", pc="";  // reading number, current number, prev char
			while(off<d.length){
				var cc=d.charCodeAt(off), ch = d.charAt(off);  off++;
				var isNum = (48<=cc && cc<=57) || ch=="." || ch=="-" || ch=="e" || ch=="E";
				
				if(rn) {
					if( (ch=="-" && pc!="e") || (ch=="." && cn.indexOf(".")!=-1)) {  ts.push(parseFloat(cn));  cn=ch;  }
					else if(isNum) cn+=ch;
					else {  ts.push(parseFloat(cn));  if(ch!="," && ch!=" ") ts.push(ch);  rn=false;  }
				}
				else {
					if(isNum) {  cn=ch;  rn=true;  }
					else if(ch!="," && ch!=" ") ts.push(ch);
				}
				pc = ch;
			}
			if(rn) ts.push(parseFloat(cn));
			return ts;
		}
		
		function _reps(ts, off, ps) {
			var i = off;
			while(i<ts.length) {  if((typeof ts[i]) == "string") break;  i+=ps;  }
			return (i-off)/ps;
		}

		function svgToPath(d, pth) {	
			var ts = _tokens(d);
			var i = 0, x = 0, y = 0, ox = 0, oy = 0, oldo=pth.crds.length;
			var pc = {"M":2,"L":2,"H":1,"V":1,   "T":2,"S":4, "A":7,   "Q":4, "C":6};
			var cmds = pth.cmds, crds = pth.crds;
			
			while(i<ts.length) {
				var cmd = ts[i];  i++;
				var cmu = cmd.toUpperCase();
				
				if(cmu=="Z") {  cmds.push("Z");  x=ox;  y=oy;  }
				else {
					var ps = pc[cmu], reps = _reps(ts, i, ps);
				
					for(var j=0; j<reps; j++) {
						// If a moveto is followed by multiple pairs of coordinates, the subsequent pairs are treated as implicit lineto commands.
						if(j==1 && cmu=="M") {  cmd=(cmd==cmu)?"L":"l";  cmu="L";  }
						
						var xi = 0, yi = 0;   if(cmd!=cmu) {  xi=x;  yi=y;  }
						
						if(false) {}
						else if(cmu=="M") {  x = xi+ts[i++];  y = yi+ts[i++];  cmds.push("M");  crds.push(x,y);  ox=x;  oy=y; }
						else if(cmu=="L") {  x = xi+ts[i++];  y = yi+ts[i++];  cmds.push("L");  crds.push(x,y);  }
						else if(cmu=="H") {  x = xi+ts[i++];                   cmds.push("L");  crds.push(x,y);  }
						else if(cmu=="V") {  y = yi+ts[i++];                   cmds.push("L");  crds.push(x,y);  }
						else if(cmu=="Q") {
							var x1=xi+ts[i++], y1=yi+ts[i++], x2=xi+ts[i++], y2=yi+ts[i++];
							cmds.push("Q");  crds.push(x1,y1,x2,y2);  x=x2;  y=y2;
						}
						else if(cmu=="T") {
							var co = Math.max(crds.length-2, oldo);
							var x1 = x+x-crds[co], y1 = y+y-crds[co+1];
							var x2=xi+ts[i++], y2=yi+ts[i++];  
							cmds.push("Q");  crds.push(x1,y1,x2,y2);  x=x2;  y=y2;
						}
						else if(cmu=="C") {
							var x1=xi+ts[i++], y1=yi+ts[i++], x2=xi+ts[i++], y2=yi+ts[i++], x3=xi+ts[i++], y3=yi+ts[i++];
							cmds.push("C");  crds.push(x1,y1,x2,y2,x3,y3);  x=x3;  y=y3;
						}
						else if(cmu=="S") {
							var co = Math.max(crds.length-(cmds[cmds.length-1]=="C"?4:2), oldo);
							var x1 = x+x-crds[co], y1 = y+y-crds[co+1];
							var x2=xi+ts[i++], y2=yi+ts[i++], x3=xi+ts[i++], y3=yi+ts[i++];  
							cmds.push("C");  crds.push(x1,y1,x2,y2,x3,y3);  x=x3;  y=y3;
						}
						else if(cmu=="A") {  // convert SVG Arc to four cubic bézier segments "C"
							var x1 = x, y1 = y;
							var rx = ts[i++], ry = ts[i++];
							var phi = ts[i++]*(Math.PI/180), fA = ts[i++], fS = ts[i++];
							var x2 = xi+ts[i++], y2 = yi+ts[i++];
							if(x2==x && y2==y && rx==0 && ry==0) continue;
							
							var hdx = (x1-x2)/2, hdy = (y1-y2)/2;
							var cosP = Math.cos(phi), sinP = Math.sin(phi);
							var x1A =  cosP * hdx + sinP * hdy;
							var y1A = -sinP * hdx + cosP * hdy;
							
							var rxS = rx*rx, ryS = ry*ry;
							var x1AS  = x1A*x1A, y1AS = y1A*y1A;
							var frc = (rxS*ryS  - rxS*y1AS - ryS*x1AS)  /  (rxS*y1AS + ryS*x1AS);
							var coef = (fA!=fS ? 1 : -1) * Math.sqrt(  Math.max(frc,0)  );
							var cxA =  coef * (rx * y1A) / ry;
							var cyA = -coef * (ry * x1A) / rx;
							
							var cx = cosP*cxA - sinP*cyA + (x1+x2)/2;
							var cy = sinP*cxA + cosP*cyA + (y1+y2)/2;
							
							var angl = function(ux,uy,vx,vy) {  var lU = Math.sqrt(ux*ux+uy*uy), lV = Math.sqrt(vx*vx+vy*vy);
									var num = (ux*vx+uy*vy) / (lU*lV);  //console.log(num, Math.acos(num));
									return (ux*vy-uy*vx>=0?1:-1) * Math.acos( Math.max(-1, Math.min(1, num)) );  }
							
							var vX = (x1A-cxA)/rx, vY = (y1A-cyA)/ry;
							var theta1 = angl( 1, 0, vX,vY);
							var dtheta = angl(vX,vY, (-x1A-cxA)/rx, (-y1A-cyA)/ry);
							dtheta = dtheta % (2*Math.PI);
							
							var arc = function(gst,x,y,r,a0,a1, neg) {
								var rotate = function(m, a) {  var si=Math.sin(a), co=Math.cos(a);
									var a=m[0],b=m[1],c=m[2],d=m[3];
									m[0] = (a *co)+(b *si);   m[1] = (-a *si)+(b *co);
									m[2] = (c *co)+(d *si);   m[3] = (-c *si)+(d *co);
								}
								var multArr= function(m,a) {
									for(var j=0; j<a.length; j+=2) {
										var x=a[j], y=a[j+1];
										a[j  ] = m[0]*x + m[2]*y + m[4];
										a[j+1] = m[1]*x + m[3]*y + m[5];
									}
								}
								var concatA= function(a,b) {  for(var j=0; j<b.length; j++) a.push(b[j]);  }
								var concatP= function(p,r) {  concatA(p.cmds,r.cmds);  concatA(p.crds,r.crds);  }
								// circle from a0 counter-clock-wise to a1
								if(neg) while(a1>a0) a1-=2*Math.PI;
								else    while(a1<a0) a1+=2*Math.PI;
								var th = (a1-a0)/4;
								
								var x0 = Math.cos(th/2), y0 = -Math.sin(th/2);
								var x1 = (4-x0)/3, y1 = y0==0 ? y0 : (1-x0)*(3-x0)/(3*y0);
								var x2 = x1, y2 = -y1;
								var x3 = x0, y3 = -y0;
								
								var ps = [x1,y1,x2,y2,x3,y3];
								
								var pth = {cmds:["C","C","C","C"], crds:ps.slice(0)};
								var rot = [1,0,0,1,0,0];  rotate(rot,-th);
								for(var j=0; j<3; j++) {  multArr(rot,ps);  concatA(pth.crds,ps);  }
								
								rotate(rot, -a0+th/2);  rot[0]*=r;  rot[1]*=r;  rot[2]*=r;  rot[3]*=r;  rot[4]=x;  rot[5]=y; 
								multArr(rot, pth.crds);
								multArr(gst.ctm, pth.crds);
								concatP(gst.pth, pth);
							}
							
							var gst = {pth:pth, ctm:[rx*cosP,rx*sinP,-ry*sinP,ry*cosP,cx,cy]};
							arc(gst, 0,0, 1, theta1, theta1+dtheta, fS==0);
							x=x2;  y=y2;
						}
						else console.log("Unknown SVG command "+cmd);
					}
				}
			}
		};
		return {  "cssMap":cssMap, "readTrnf":readTrnf, svgToPath:svgToPath, toPath:toPath };
	}(),
	
	


	"initHB": function(hurl,resp) {
	var codeLength = function(code) {
		var len=0;
		if     ((code&(0xffffffff-(1<< 7)+1))==0) {  len=1;  }
		else if((code&(0xffffffff-(1<<11)+1))==0) {  len=2;  }
		else if((code&(0xffffffff-(1<<16)+1))==0) {  len=3;  }
		else if((code&(0xffffffff-(1<<21)+1))==0) {  len=4;  }
		return len;
	}
	var te = new window["TextEncoder"]("utf8");
	
	fetch(hurl)
		.then(function (x  ) { return x["arrayBuffer"](); })
		.then(function (ab ) { return WebAssembly["instantiate"](ab); })
		.then(function (res) {
			console.log("HB ready");
			var exp = res["instance"]["exports"], mem=exp["memory"];
			mem["grow"](700); // each page is 64kb in size
			var heapu8  = new Uint8Array (mem.buffer);
			var u32 = new Uint32Array(mem.buffer);
			var i32 = new Int32Array (mem.buffer);
			var __lastFnt, blob,blobPtr,face,font;
			
			Typr["U"]["shapeHB"] = (function () {
				
				var toJson = function (ptr) {
					var length = exp["hb_buffer_get_length"](ptr);
					var result = [];
					var iPtr32 = exp["hb_buffer_get_glyph_infos"](ptr, 0) >>>2;
					var pPtr32 = exp["hb_buffer_get_glyph_positions"](ptr, 0) >>>2;
					for(var i=0; i<length; ++i) {
						var a=iPtr32+i*5, b=pPtr32+i*5;
					  result.push({
						"g" : u32[a + 0],
						"cl": u32[a + 2],
						"ax": i32[b + 0],
						"ay": i32[b + 1],
						"dx": i32[b + 2],
						"dy": i32[b + 3]
					  });
					}
					return result;
				}
				return function (fnt, str, ltr) {
					var fdata = fnt["_data"], fn = fnt["name"]["postScriptName"];
					
					if(__lastFnt!=fn) {
						if(blob!=null) {  
							exp["hb_blob_destroy"](blob);
							exp["free"](blobPtr);
							exp["hb_face_destroy"](face);
							exp["hb_font_destroy"](font);
						}
						blobPtr = exp["malloc"](fdata.byteLength);  heapu8.set(fdata, blobPtr);
						blob = exp["hb_blob_create"](blobPtr, fdata.byteLength, 2, 0, 0);
						face = exp["hb_face_create"](blob, 0);
						font = exp["hb_font_create"](face)
						__lastFnt = fn;
					}
					
					var buffer = exp["hb_buffer_create"]();
					var bytes = te["encode"](str);
					var len=bytes.length, strp = exp["malloc"](len);  heapu8.set(bytes, strp);
					exp["hb_buffer_add_utf8"](buffer, strp, len, 0, len);
					exp["free"](strp);
					
					exp["hb_buffer_set_direction"](buffer,ltr?4:5);
					exp["hb_buffer_guess_segment_properties"](buffer);
					exp["hb_shape"](font, buffer, 0, 0);
					var json = toJson(buffer)//buffer["json"]();
					exp["hb_buffer_destroy"](buffer);
					
					var arr = json.slice(0);  if(!ltr) arr.reverse();
					var ci=0, bi=0;  // character index, binary index
					for(var i=1; i<arr.length; i++) {
						var gl = arr[i], cl=gl["cl"];
						while(true) {
							var cpt = str.codePointAt(ci), cln = codeLength(cpt);
							if(bi+cln <=cl) {  bi+=cln;  ci += cpt<=0xffff ? 1 : 2;  }
							else break;
						}
						//while(bi+codeLength(str.charCodeAt(ci)) <=cl) {  bi+=codeLength(str.charCodeAt(ci));  ci++;  }
						gl["cl"]=ci;
					}
					return json;
				}
			}());
			resp();
		});	
	}
}