VST-converter-kaitai-040.html

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Get texture reference from VST file: <input type="file" id="inpHeaderFile" name = "inpHeaderFile" width="100" accept=".vst" ><br>
Texture reference: <span id = "spnTextureRef" name = "spnTextureRef">-</span><br>
Load VST+texture : <input type="file" id="inpVST_TXTfile" name = "inpVST_TXTfile" width="100" accept= ".vst,.img" multiple><br>
Load VST file only: <input type="file" id="inpVSTfile" name = "inpVSTfile" width="100" accept=".vst"><br>
<span id="file_status" name="file_status" >waiting</span><br>
<span id="file_length" name="file_length" >-</span><br>
<button id="PLY" name="PLY" onclick = "savePLY()">Save as .PLY</button><br>
<br>
<button id="XYZ" name="XYZ" onclick = "saveXYZ()">Save as .XYZ</button><br>
<br>
-----<br>
<canvas id="texture" name="texture" width="1024" height="1024"></canvas><br>
-----<br>

<script src="KaitaiStream.js"></script>
<script src="Vst-header.js"></script>
<script src="Vst.js"></script>
<script src="img_gray16.js"></script>

<script>

// 0.4.0: Texture working on PLY
// 0.3.0: Texture working on XYZ
// 0.2.0: Prepared for imnplementation of texture; still only supporting bare .vst; to include kaitai library for IMG textures img_gray16.js

//LODS_TO_PROCESS = 1; // debug

	canvas = document.getElementById('texture');
	ctx = canvas.getContext('2d');
	canvasWidth = 1024;
	canvasHeight = 1024;
	ctx.clearRect(0, 0, canvasWidth, canvasHeight);
  ctx.rect(0, 0, canvasWidth, canvasHeight);
  ctx.fillStyle = 'blue';
  ctx.fill();

	myVst = null;
	myImg = null;
  TEXTURE_WIDTH = 1024; // to do: implement KSY reader for just PDS label, extract texture metadata and use  them to implement generic texture reader
  TEXTURE_HEIGHT = 1024;

	PLY_HEADER_BASE = "" +
		"ply\n" +
		"format ascii 1.0\n" +
		"comment Created by VST JS convereter\n" +
		"element vertex VVVV\n" +
		"property float x\n" +
		"property float y\n" +
		"property float z\n" +
		"TTTT" +
		"element face FFFF\n" +
		"property list uchar int vertex_index\n" +
		"end_header\n";

	PLY_TEXTURE_HEADER = "" +
		"property uchar red\n" +
		"property uchar green\n" +
		"property uchar blue\n";

  PLYfiles = [];
  XYZfiles = [];

	VST_HEADER_LENGTH =  1+1+1+1 + 1+1+1+1 + 4 + 4 + 1+1+1+1 + 1+1+1+1+1+1+1+1 + 4 + 4 + 4; // 40
	BOUNDING_BOX_LENGTH = 6*4; // 24
	TEXTURE_REF_LENGTH = 2048;
	COORDINATE_SYSTEM_LENGTH = 4096;
	LOD_HEADER_LENGTH = 4 + 1+1+1+1+1+1+1+1 + 4 + 4 + 4 + 4; //28
	PATCH_HEADER_LENGTH = 8 + 4 + 4 + 4 + 4; // 24

	const headerSelector = document.getElementById('inpHeaderFile');
	headerSelector.addEventListener('change', (event) => {
		loadVSTheader(event.target.files[0])
	});

	const VST_TXT_Selector = document.getElementById('inpVST_TXTfile');
	VST_TXT_Selector.addEventListener('change', (event) => {
	if (event.target.files.length !== 2) {
		alert("You must select one .vst file and one .img file");
		return;
	} else {
		loadVST_TXT(event.target.files[0], event.target.files[1])
	}
	});

	const VST_Selector = document.getElementById('inpVSTfile');
	VST_Selector.addEventListener('change', (event) => {
		loadVST(event.target.files[0])
	});


	function saveFile(fileContent, filename,status_id) {
		myBlob = new Blob([fileContent], {type: "application/octet-stream"});
		var url = window.URL.createObjectURL(myBlob);
		var anchor = document.createElement("a");
		anchor.href = url;
		anchor.download = filename;
//	a(anchor);
        anchor.addEventListener('load', (event) => {
			console.log("LOAD");
		});

        anchor.addEventListener('ended', (event) => {
			console.log("ENDED");
		});

        anchor.addEventListener('loadeddata', (event) => {
			console.log("loadeddata");
		});

        anchor.addEventListener('loadstart', (event) => {
			console.log("loadstart");
		});
        anchor.addEventListener('mousedown', (event) => {
			console.log("mousedown");
		});


		anchor.click();
		window.URL.revokeObjectURL(url);
        document.getElementById(status_id).innerHTML = "Saved to " + filename;
	}

function loadVSTheader(fileHandler) {
	const reader = new FileReader();
	reader.addEventListener('load', (event) => {
		rawFileContents = event.target.result;
		fileContentsUInt8 = new Uint8Array(rawFileContents);
		console.log("Loaded: ", event, rawFileContents.length);
		document.getElementById("file_status").innerHTML = "Loaded";
		document.getElementById("file_length").innerHTML = fileContentsUInt8.length + " bytes";

		st = new KaitaiStream(fileContentsUInt8);
		myVstHeader = new Vsth(st);
		console.log("This file contains:");
		console.log(myVstHeader.vistaHeader.lodsCount, " LODs");
    sliceUInt8 = myVstHeader.textureRef;
		textureRefRaw = String.fromCharCode(...sliceUInt8)
		textureRef = textureRefRaw.split("\x00");
		textureName = textureRef[2];
    spnTextureRef.innerHTML = textureName;
//console.log(textureName);
	});
	reader.readAsArrayBuffer(fileHandler);
	console.log("Header reading process initiated...");
}



function loadVST_TXT(handler1, handler2) {
//console.log(handler1, handler2)
	if (handler1.name.toUpperCase().indexOf("IMG") >= 0) {
		textureHandler = handler1;
		vstHandler = handler2;
	} else {
		textureHandler = handler2;
		vstHandler = handler1;
	}
//console.log("TEXTURE:", textureHandler)
//console.log("VST:", vstHandler)

	const reader = new FileReader();
	reader.addEventListener('load', (event) => {
		rawFileContents = event.target.result;
		fileContentsUInt8 = new Uint8Array(rawFileContents);
		console.log("Loaded: ", event, rawFileContents.length);
		document.getElementById("file_status").innerHTML = "Loaded";
		document.getElementById("file_length").innerHTML = fileContentsUInt8.length + " bytes";

		st = new KaitaiStream(fileContentsUInt8);
		myImg = new ImgGray16(st);

		console.log("myImg=",myImg);
		for (x=0; x< 1023; x++) {
			for(y=0; y<1023; y++) {
        rgb = (myImg.lines[y].samples[x])/10;
				r = rgb;
				g = rgb;
				b = rgb;
				writeCanvas(x,y,r,g,b);
			}
		}

    loadVST(vstHandler);

	});
	reader.readAsArrayBuffer(textureHandler);
	console.log("Texture+VST reading process initiated...");
}



function loadVST(fileHandler) {
	myName = fileHandler.name;
	const reader = new FileReader();
	reader.addEventListener('load', (event) => {
		rawFileContents = event.target.result;
		fileContentsUInt8 = new Uint8Array(rawFileContents); // Extract from the generic ArrayBuffer an array of Unsigned Integers (0..255)
		console.log("Loaded: ", event, rawFileContents.length);
		document.getElementById("file_status").innerHTML = "Loaded";
		document.getElementById("file_length").innerHTML = fileContentsUInt8.length + " bytes";

		st = new KaitaiStream(fileContentsUInt8);
		myVst = new Vst(st);
		totalFileLength = 	VST_HEADER_LENGTH +
							BOUNDING_BOX_LENGTH +
							TEXTURE_REF_LENGTH * myVst.vistaHeader.texturesCount +
							COORDINATE_SYSTEM_LENGTH +
							myVst.vistaHeader.vertexCount*20;
		LODsLength = 0;
		console.log("This file contains:");
		console.log(myVst.lods.length, " LODs");
    sliceUInt8 = myVst.textureRef;
		textureRefRaw = String.fromCharCode(...sliceUInt8)
		textureRef = textureRefRaw.split("\x00");
		textureName = textureRef[2];
		console.log(textureName);
    LODS_TO_PROCESS =  myVst.lods.length; //debug
		prevLODvertexCount = 0;
		for (var lodIndex = 0; lodIndex < LODS_TO_PROCESS; lodIndex++) { 
      trianglesInLOD = 0;
			myLOD = myVst.lods[lodIndex];
			LODsLength += LOD_HEADER_LENGTH + BOUNDING_BOX_LENGTH;
			lastVertex = myLOD.header.highestVertex;
			LODvertexCount =  myLOD.header.vertexCount;
			firstVertex = lastVertex - LODvertexCount + 1;
			console.log("   LOD n. " + lodIndex);
			console.log("	   Contains n. " + myLOD.header.patchesCount  + " patches.");
			console.log("	   Uses vertex from " + firstVertex +  " to " + lastVertex);
			LODtrianglesCount = 0; // For PLY output
			PLYvertex = "";
			PLYfaces = "";
			PLYfiles.push("");
			for (var patchIndex = 0; patchIndex < myLOD.header.patchesCount; patchIndex++) {
				myPatch = myLOD.patches[patchIndex];
				totalPatchLength = PATCH_HEADER_LENGTH + myPatch.header.stripsCount*4 + myPatch.header.indexCount*4;
				LODsLength += totalPatchLength;
				console.log("	   Patch n. " + patchIndex);
				console.log("		   Arrays/Strips num: ", myPatch.header.stripsCount);
				console.log("      Arrays lengths:", myPatch.trianglesStripsLengths);
				console.log("		   Total length: ", totalPatchLength);


				pointers = myPatch.pointersToVertexOfFaces; // Pointers to vertex database at beginning of file

				XYZfile = "";
				for (p=0; p < pointers.length; p++) {
					vertex = myVst.vertices[pointers[p]];
					XYZline = vertex.x + " " + vertex.y + " " + vertex.z;
					if (myImg) {
            textureX = (vertex.s * TEXTURE_WIDTH).toFixed(0)*1;
						textureY = (vertex.t * TEXTURE_HEIGHT).toFixed(0)*1;
						textureValue = (myImg.lines[textureY].samples[textureX])/10; // Original value is 16 bit.
						XYZline += " " + textureValue + " " + textureValue + " " + textureValue + "\n";
					} else {
						// no texture
						XYZline += "\n";
					}
					XYZfile += XYZline;
				}
        XYZfiles.push(XYZfile);

				triangleStrips = [];
        arrayOffset = 0;
        arrayLen = 0; // dummy value, to properly calculate first arrayOffset (=0)
        processedTriangles = 0;

				// The "arrays" are actually just a sequence of values; how many values form
				// an array depends on arrayLen values; such values are stored in sequence, just before the arrays.
        totalArraysTrianglesCount = 0;
				for (arrayIndex = 0; arrayIndex < myPatch.header.stripsCount; arrayIndex++) {
					// An = length of array n
					// Sn = An - 2  = lenght of strip n = number of triangles
					// Triangle n.1: vertex 0, 1, 2 of array
					// Following triangles: Using the remaining (Sn -1) vertex after vertex 2
					//
					// Example:
					// Array: [10, 15, 14, 18, 17, 11]
					//         ^^^^^^^^^^^  ^^^^^^^^^
					//          |   |   |       |
					//          |   |   |       |
					//          \   |  /        |
					//       Triangle  n.1      |
					//                          \- Further triangles
					//
					//        [10, 15, 14, 18, 17, 11]
					//              |   |   |
					//              |   |   |
					//              \   |  /
					//                 n.2
					//
					//        [10, 15, 14, 18, 17, 11]
					//                  |   |   |
					//                  |   |   |
					//                  \   |  /
					//                     n.3
					//
					//        [10, 15, 14, 18, 17, 11]
					//                      |   |   |
					//                      |   |   |
					//                      \   |  /
					//                         n.4
					//
					// Array lenght : 6
					// Strip lenght (= number of triangles): Sn = 6-2 = 4
					// First triangle:  [10, 15, 14]
					// Other triangles are described by 3 vertex (Sn-1 = 3) after vertex of first triangle: 18, 17, 11
					arrayOffset += arrayLen;
					arrayLen = myPatch.trianglesStripsLengths[arrayIndex];
					trianglesCount = arrayLen - 2; // Sn = An-2 0 number of triangles/faces in this strip
					totalArraysTrianglesCount += trianglesCount;
//console.log("Processing array n.", arrayIndex , "(from pos. " , arrayOffset , " to pos " , (arrayOffset + arrayLen-1) );
					triangleStrip = [];
					triangles = [];
					for (triangleIndex = 0 + 2; triangleIndex < arrayLen; triangleIndex++) {
//console.log("Processing triangle n."  + (triangleIndex-1) + " of " + (arrayLen-3));
						triangle = [];
            PLYface = "3 "; // Always triangles
						for (pointIndex = 0; pointIndex < 3; pointIndex++) {
							if (triangleIndex % 2 == 0) { // Even triangle => CCW, Odd triangle => CW
								vertexPointer = pointers[arrayOffset + triangleIndex - pointIndex];
							} else {
								vertexPointer = pointers[arrayOffset + triangleIndex - (2-pointIndex)];
							}
//console.log("Adding point n."  + (pointIndex+1) + " of 3");
						// [ [1, 3, 5, 7],       [11, 10, 8, 7, 9, 14 , 15],    6[, ...]    Arrays database (=sequence of integers)
						//   ^^^^^^^^^^^          ^^^^^^^^^^
						//    |     ^              |      ^
						//    |     |              |      |
						//    |  triangleIndex     |  triangleIndex
						//    |     (2..3)         |    (2..6)
						//    |                    |
						//    |                    |
						//    \- Array offset      \- Array offset
						//       (constant)           (constant)

							x = myVst.vertices[vertexPointer].x;
							y = myVst.vertices[vertexPointer].y;
							z = myVst.vertices[vertexPointer].z;
							point = {x, y, z};
							PLYface += (vertexPointer - firstVertex) + " "; // Each ply file has its own independent index list starting from 0
						  triangle.push(point)
						} // point
					  triangles.push(triangle);
            PLYfaces += PLYface + "\n";
		        LODtrianglesCount++;
				 	}  // triangle
					triangleStrips.push(triangles);
					processedTriangles += triangles.length;
				}  // arrayIndex
				trianglesInLOD += totalArraysTrianglesCount;
			} // patches
 			PLYheader = PLY_HEADER_BASE.replace("VVVV", LODvertexCount);
 			PLYheader = PLYheader.replace("FFFF", LODtrianglesCount);
      if (myImg) {
 				PLYheader = PLYheader.replace("TTTT", PLY_TEXTURE_HEADER); // Add texture metadata to header if texture is available
			}
			PLYfiles[lodIndex] += PLYheader;
console.log("FIRST,LAST=",firstVertex,lastVertex);
			for (v=firstVertex; v <= lastVertex; v++) {
        PLYvertex += myVst.vertices[v].x + " " + myVst.vertices[v].y + " " + myVst.vertices[v].z;
				if (myImg) { // append texture data if available
	        textureX = (myVst.vertices[v].s * TEXTURE_WIDTH).toFixed(0)*1;
					textureY = (myVst.vertices[v].t * TEXTURE_HEIGHT).toFixed(0)*1;
					textureValue = ((myImg.lines[textureY].samples[textureX])/10).toFixed(0); // Original value is 16 bit.
					PLYtexture = " " + textureValue + " " + textureValue + " " + textureValue + "\n";
				} else {
					// no texture
					PLYtexture += "\n";
				}
	      PLYvertex += PLYtexture;
			}
	    PLYfiles[lodIndex] += PLYvertex;
	    PLYfiles[lodIndex] += PLYfaces;
//console.log("File ply for LOD n. :" , lodIndex, PLYfiles[lodIndex]);
      prevLODvertexCount = LODvertexCount;
console.log("triangles expected :",trianglesInLOD)
console.log("triangles processed :",processedTriangles)
		} // LODs
		totalFileLength += LODsLength;
		console.log("totalFileLength=",totalFileLength);

alert("Done");

	});
	reader.readAsArrayBuffer(fileHandler);
	//console.log("Reading process initiated...");

}


function savePLY() {
	for (lodIndex=0; lodIndex < LODS_TO_PROCESS; lodIndex++) {
		saveFile(PLYfiles[lodIndex], "LOD"+lodIndex + ".ply","file_status");
	}
}


function saveXYZ() {
	for (lodIndex=0; lodIndex < LODS_TO_PROCESS; lodIndex++) {
		saveFile(XYZfiles[lodIndex], "LOD"+lodIndex + ".txt","file_status");
	}
}


function loadTexture() {

}

  function writeCanvas(x,y,r,g,b) {
		//var x = Math.floor(Math.random() * canvasWidth);
		//var y = Math.floor(Math.random() * canvasHeight);
		//var r = Math.floor(Math.random() * 256);
		//var g = Math.floor(Math.random() * 256);
		//var b = Math.floor(Math.random() * 256);

  ctx.fillStyle = 'rgb(' + r + ',' + g + ',' + b + ')';
  ctx.fillRect(x,y,x+1,y+1);
  /*	  var off = (y * id.width + x) * 4;
		pixels[off] = r;
		pixels[off + 1] = g;
		pixels[off + 2] = b;
		pixels[off + 3] = 255;
		ctx.putImageData(id, 0, 0);*/
  }




</script>

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