DOS->Unix conversion

thought it'd save some space.
This commit is contained in:
yellows111 2023-11-08 10:07:57 +00:00
parent ca6945d522
commit e77997efe2
4 changed files with 1531 additions and 1531 deletions

View File

@ -1,346 +1,346 @@
const icondumper2 = require("./icon.js");
const iconjs = icondumper2.readers;
const filesystem = require("fs");
const processObj = require("process");
const gltfConstants = {
"FLOAT": 5126,
"ARRAY_BUFFER": 34962,
"LINEAR": 9729,
"NEAREST_MIPMAP_LINEAR": 9986,
"REPEAT": 10497
};
function getCrc32(data) {
let output = -1;
for (let byteIndex of data) {
for (let index = 0; index < 8; index++, byteIndex >>>= 1) {
output = (output >>> 1) ^ (-((output ^ byteIndex) & 1) & 0xEDB88320);
} // 0xEDB88320 is a reverse polynomial that's common in crc32
} //i know it's some bitwise madness, it works, either way.
return ((~output) >>> 0);
}
function getAdler32(data) {
let s1 = 1;
let s2 = 0;
for (let index of data) {
s1 = (s1 + index) % 65521;
s2 = (s2 + s1) % 65521;
}
return (s2 << 16) | s1;
}
function rgb5a1_rgb8(colour) {
let b = ( colour & 0b11111);
let g = ((colour >> 5) & 0b11111);
let r = ((colour >> 10) & 0b11111);
let output = new Number();
output |= ((r * 8) << 16);
output |= ((g * 8) << 8);
output |= ((b * 8) << 0);
return output;
}
function imf2gltf(icon = null, filename = "untitled") {
if (icon === null) {
throw "Missing first argument, of which should be a icondumper2 Intermediate Model Format object.";
}
if (icon.hasOwnProperty("numberOfShapes") === false) {
throw "Expected a icondumper2 Intermediate Model Format object.";
}
let shapesArray = new Array(icon.numberOfShapes);
for (let index = 0; index < icon.numberOfShapes; index++) {
shapesArray[index] = new Array();
}
let verticesArray = new Array();
let normalsArray = new Array();
let uvArray = new Array();
let colourArray = new Array();
icon.vertices.forEach(function(vertexObject){
for (let index = 0; index < icon.numberOfShapes; index++) {
shapesArray[index].push(vertexObject.shapes[index].x);
shapesArray[index].push(vertexObject.shapes[index].y);
shapesArray[index].push(vertexObject.shapes[index].z);
}
normalsArray.push(vertexObject.normal.x);
normalsArray.push(vertexObject.normal.y);
normalsArray.push(vertexObject.normal.z);
uvArray.push(vertexObject.uv.u);
uvArray.push(vertexObject.uv.v);
// gamma correction, glTF clients expect lineari(s|z)ed-sRGB, not sRGB.
colourArray.push(Math.pow((vertexObject.color.r/255), 2.2));
colourArray.push(Math.pow((vertexObject.color.g/255), 2.2));
colourArray.push(Math.pow((vertexObject.color.b/255), 2.2));
colourArray.push((vertexObject.color.a > 1) ? (vertexObject.color.a/255): 1);
});
shapesArray.forEach(function(arr) {
verticesArray = [...verticesArray, ...arr];
});
let outputFloatArray = new Float32Array([...verticesArray, ...normalsArray, ...uvArray, ...colourArray]); // 3[nOS], 3, 2, 4#
let gltfOutputArray = new Array(icon.numberOfShapes);
for (let index = 0; index < icon.numberOfShapes; index++) {
const gltfOutput = new Object();
//setting up GLTF
gltfOutput.scene = 0;
gltfOutput.scenes = [{"name": filename, "nodes": [0]}];
gltfOutput.nodes = [{"mesh": 0, "name": `${filename}#${index}`, "rotation": [1,0,0,0]}];
gltfOutput.meshes = [{
"name": `Mesh (${filename}#${index})`,
"primitives": [{
"attributes": {
"POSITION": 0,
"NORMAL": 1,
"TEXCOORD_0": 2,
"COLOR_0": 3,
},
"material": 0
}]
}]; // no indices because who needs indexing when you're transcoding?
gltfOutput.materials = [{
"name": `Material (${filename}#${index})`,
"pbrMetallicRoughness": {
"baseColorTexture": {"index":0, "texCoord": 0}
},
"extensions": { // or we get annoying PBR and specular stuff we don't need
"KHR_materials_unlit": {}
}
}];
gltfOutput.buffers = [{"uri": `${filename}.bin`, "byteLength": outputFloatArray.byteLength}];
gltfOutput.bufferViews = [
{
"buffer": 0,
"byteOffset": (((icon.vertices.length*3)*4)*index),
"byteLength": ((icon.vertices.length*3)*4),
"target": gltfConstants.ARRAY_BUFFER
},
{
"buffer": 0,
"byteOffset": (((icon.vertices.length*3)*4)*icon.numberOfShapes),
"byteLength": (normalsArray.length*4),
"target": gltfConstants.ARRAY_BUFFER
},
{
"buffer": 0,
"byteOffset": ((((icon.vertices.length*3)*4)*icon.numberOfShapes)+(normalsArray.length*4)),
"byteLength": (uvArray.length*4),
"target": gltfConstants.ARRAY_BUFFER
},
{
"buffer": 0,
"byteOffset": (((((icon.vertices.length*3)*4)*icon.numberOfShapes)+(normalsArray.length*4))+(uvArray.length*4)),
"byteLength": (colourArray.length*4),
"target": gltfConstants.ARRAY_BUFFER
}
];
gltfOutput.accessors = [
{
"bufferView": 0,
"componentType": gltfConstants.FLOAT,
"count": icon.vertices.length,
"type": "VEC3",
"max": [ 5.0, 5.0, 5.0],
"min": [-5.0, -5.0, -5.0],
"name": "Vertex Position Accessor"
},
{
"bufferView": 1,
"componentType": gltfConstants.FLOAT,
"count": icon.vertices.length,
"type": "VEC3",
"max": [ 1.0, 1.0, 1.0],
"min": [-1.0, -1.0, -1.0],
"name": "Normal Accessor"
},
{
"bufferView": 2,
"componentType": gltfConstants.FLOAT,
"count": icon.vertices.length,
"type": "VEC2",
"max": [ 1.0, 1.0],
"min": [-1.0, -1.0],
"name": "Texture Coordinate Accessor"
},
{
"bufferView": 3,
"componentType": gltfConstants.FLOAT,
"count": icon.vertices.length,
"type": "VEC4",
"max": [ 1.0, 1.0, 1.0, 1.0],
"min": [ 0.0, 0.0, 0.0, 1.0],
"name": "Colour Accessor"
}
];
gltfOutput.asset = {"version": "2.0", "generator": `icondumper2/${icondumper2.version}`}
gltfOutput.extensionsUsed = ["KHR_materials_unlit"];
gltfOutput.textures = [{"source": 0}];
gltfOutput.images = [{"name": `Texture (${filename}#${index})`, "uri": `${filename}.png`}]
gltfOutputArray[index] = (gltfOutput);
}
let texture16 = null; // Uint16Array(16384)
switch(icon.textureFormat) {
case "N": {
texture16 = (new Uint16Array(16384)).fill(0xffff);
break;
}
case "C": {
texture16 = icondumper2.helpers.uncompressTexture(icon.texture.data);
break;
}
case "U": {
texture16 = icon.texture;
break;
}
}
let texture24 = new Uint8Array(49983);
texture24.set([
0x89, 0x50, 0x4e, 0x47, 0x0d, 0x0a, 0x1a, 0x0a,
0x00, 0x00, 0x00, 0x0d, 0x49, 0x48, 0x44, 0x52,
0x00, 0x00, 0x00, 0x80, 0x00, 0x00, 0x00, 0x80,
0x08, 0x02, 0x00, 0x00, 0x00, // you may know
0x4c, 0x5c, 0xf6, 0x9c, // what this is from 0x89.
0x00, 0x00, 0xc3, 0x06, 0x49, 0x44, 0x41, 0x54,
0x78, 0x01 // if you didn't get it, here's a clue
],0);
let textureOffset = 43;
let texture24Data = new Array();
let texture24CheckedData = new Array();
for (let x = 0; x < 128; x++) {
let line = [(x === 127 ? 1 : 0), 0x81, 0x01, 0x7e, 0xfe, 0x00];
texture24Data = texture24Data.concat(line);
texture24CheckedData.push(0);
let scanline = new Array(128*3);
for (let y = 0; y < 128; y++) {
color = rgb5a1_rgb8(texture16[(x*128)+y]);
scanline[(y*3) ] = ((color >> 0 ) & 255);
scanline[(y*3)+1] = ((color >> 8 ) & 255);
scanline[(y*3)+2] = ((color >> 16) & 255);
}
texture24Data = texture24Data.concat(scanline);
texture24CheckedData = texture24CheckedData.concat(scanline);
}
texture24.set(texture24Data, textureOffset);
textureOffset += texture24Data.length;
let a32conv = new DataView(new ArrayBuffer(4));
a32conv.setInt32(0, getAdler32(new Uint8Array(texture24CheckedData)))
texture24.set([a32conv.getUint8(0), a32conv.getUint8(1), a32conv.getUint8(2), a32conv.getUint8(3)], textureOffset);
textureOffset += 4;
let crc32 = getCrc32(new Uint8Array([
0x49, 0x44, 0x41, 0x54, 0x78, 0x01, ...texture24Data,
a32conv.getUint8(0), a32conv.getUint8(1),
a32conv.getUint8(2), a32conv.getUint8(3)
]));
texture24.set([
(crc32 >> 24) & 0xff,
(crc32 >> 16) & 0xff,
(crc32 >> 8) & 0xff,
crc32 & 0xff
], textureOffset);
textureOffset += 4;
texture24.set([
0x00, 0x00, 0x00, 0x00,
0x49, 0x45, 0x4E, 0x44,
0xae, 0x42, 0x60, 0x82
], textureOffset);
return {objects: gltfOutputArray, buffer: outputFloatArray, texture: texture24};
}
function loadAndConvertIcon(inputData, attemptedFilename = "-") {
if (inputData.hasOwnProperty("numberOfShapes") === false) {
throw "Expected a icondumper2 Intermediate Model Format object.";
}
const filename = encodeURIComponent(attemptedFilename).replaceAll(/\%[0-9A-F]{2,2}/g, "").replaceAll(".", "_");
const glTF_output = imf2gltf(inputData, filename);
for (let index = 0; index < (inputData.numberOfShapes); index++) {
(require("fs")).writeFileSync(`${filename}_${index}.gltf`, new TextEncoder().encode(JSON.stringify(glTF_output.objects[index])));
console.info(`Saved shape ${filename}#${index} as "${filename}_${index}.gltf".`);
}
(require("fs")).writeFileSync(`${filename}.bin`, glTF_output.buffer);
console.info(`Saved glTF buffer as "${filename}.bin".`);
(require("fs")).writeFileSync(`${filename}.png`, glTF_output.texture);
console.info(`Saved texture as "${filename}.png".\n`);
}
// can anything de-dupe this code somehow? (index.js)
console.info(`icon.js version ${icondumper2.version}, ${(new Date()).getFullYear().toString()} (c) yellows111`);
switch(processObj.argv[2]) {
case "psu": {
let inputFile = filesystem.readFileSync(processObj.argv[3] ? processObj.argv[3] : "file.psu");
const parsed = iconjs.readEmsPsuFile(inputFile.buffer.slice(inputFile.byteOffset, inputFile.byteOffset + inputFile.byteLength));
const PS2D = iconjs.readPS2D(parsed[parsed.rootDirectory]["icon.sys"].data);
loadAndConvertIcon(iconjs.readIconFile(parsed[parsed.rootDirectory][PS2D.filenames.n].data), PS2D.filenames.n);
if(PS2D.filenames.n !== PS2D.filenames.c) {
loadAndConvertIcon(iconjs.readIconFile(parsed[parsed.rootDirectory][PS2D.filenames.c].data), PS2D.filenames.c);
}
if(PS2D.filenames.n !== PS2D.filenames.d) {
loadAndConvertIcon(iconjs.readIconFile(parsed[parsed.rootDirectory][PS2D.filenames.d].data), PS2D.filenames.d);
}
break;
}
case "psv": {
let inputFile = filesystem.readFileSync(processObj.argv[3] ? processObj.argv[3] : "file.psv");
const parsed = iconjs.readPsvFile(inputFile.buffer.slice(inputFile.byteOffset, inputFile.byteOffset + inputFile.byteLength));
const PS2D = iconjs.readPS2D(parsed["icon.sys"]);
//i should probably make PSV readers more like the others, but why should I? It's giving me shortcuts to what I want.
loadAndConvertIcon(iconjs.readIconFile(parsed.icons.n), PS2D.filenames.n)
if(PS2D.filenames.n !== PS2D.filenames.c) {
loadAndConvertIcon(iconjs.readIconFile(parsed.icons.c), PS2D.filenames.c)
}
if(PS2D.filenames.n !== PS2D.filenames.d) {
loadAndConvertIcon(iconjs.readIconFile(parsed.icons.d), PS2D.filenames.d)
}
break;
}
case "sps":
case "xps": {
let inputFile = filesystem.readFileSync(processObj.argv[3] ? processObj.argv[3] : "file.sps");
const parsed = iconjs.readSharkXPortSxpsFile(inputFile.buffer.slice(inputFile.byteOffset, inputFile.byteOffset + inputFile.byteLength));
const PS2D = iconjs.readPS2D(parsed[parsed.rootDirectory]["icon.sys"].data);
loadAndConvertIcon(iconjs.readIconFile(parsed[parsed.rootDirectory][PS2D.filenames.n].data), PS2D.filenames.n);
if(PS2D.filenames.n !== PS2D.filenames.c) {
loadAndConvertIcon(iconjs.readIconFile(parsed[parsed.rootDirectory][PS2D.filenames.c].data), PS2D.filenames.c);
}
if(PS2D.filenames.n !== PS2D.filenames.d) {
loadAndConvertIcon(iconjs.readIconFile(parsed[parsed.rootDirectory][PS2D.filenames.d].data), PS2D.filenames.d);
}
break;
}
case "sys": {
let inputFile = filesystem.readFileSync(processObj.argv[3] ? processObj.argv[3] : "icon.sys");
const PS2D = iconjs.readPS2D(inputFile.buffer.slice(inputFile.byteOffset, inputFile.byteOffset + inputFile.byteLength));
let getFile = filesystem.readFileSync(PS2D.filenames.n);
loadAndConvertIcon(iconjs.readIconFile(getFile.buffer.slice(getFile.byteOffset, getFile.byteOffset + getFile.byteLength)), PS2D.filenames.n);
if(PS2D.filenames.n !== PS2D.filenames.c) {
let getFile = filesystem.readFileSync(PS2D.filenames.c);
loadAndConvertIcon(iconjs.readIconFile(getFile.buffer.slice(getFile.byteOffset, getFile.byteOffset + getFile.byteLength)), PS2D.filenames.c);
}
if(PS2D.filenames.n !== PS2D.filenames.d) {
let getFile = filesystem.readFileSync(PS2D.filenames.d);
loadAndConvertIcon(iconjs.readIconFile(getFile.buffer.slice(getFile.byteOffset, getFile.byteOffset + getFile.byteLength)), PS2D.filenames.d);
}
break;
}
case "ico":
case "icn": {
let inputFile = filesystem.readFileSync(processObj.argv[3] ? processObj.argv[3] : "input.icn");
loadAndConvertIcon(iconjs.readIconFile(inputFile.buffer.slice(inputFile.byteOffset, inputFile.byteOffset + inputFile.byteLength)), require("path").basename(processObj.argv[3]));
break;
}
default: {
//Template literal goes here.
console.info(
`${(processObj.argv.length > 2) ? "Unknown argument: "+processObj.argv[2]+"\n\n": ""}icondumper2 node.js client (glTF exporter version) subcommands:
psu: Read a EMS Memory Adapter export file.
psv: Read a PS3 export file.
sps: Read a SharkPort export file.
xps: Read a X-Port export file.
sys: Read a icon.sys (964 bytes) file, and attempt
to read icon files from the current directory.
icn: Read an icon file directly. (Also as: ico)
` ); // end of template
processObj.exit(1);
}
}
const icondumper2 = require("./icon.js");
const iconjs = icondumper2.readers;
const filesystem = require("fs");
const processObj = require("process");
const gltfConstants = {
"FLOAT": 5126,
"ARRAY_BUFFER": 34962,
"LINEAR": 9729,
"NEAREST_MIPMAP_LINEAR": 9986,
"REPEAT": 10497
};
function getCrc32(data) {
let output = -1;
for (let byteIndex of data) {
for (let index = 0; index < 8; index++, byteIndex >>>= 1) {
output = (output >>> 1) ^ (-((output ^ byteIndex) & 1) & 0xEDB88320);
} // 0xEDB88320 is a reverse polynomial that's common in crc32
} //i know it's some bitwise madness, it works, either way.
return ((~output) >>> 0);
}
function getAdler32(data) {
let s1 = 1;
let s2 = 0;
for (let index of data) {
s1 = (s1 + index) % 65521;
s2 = (s2 + s1) % 65521;
}
return (s2 << 16) | s1;
}
function rgb5a1_rgb8(colour) {
let b = ( colour & 0b11111);
let g = ((colour >> 5) & 0b11111);
let r = ((colour >> 10) & 0b11111);
let output = new Number();
output |= ((r * 8) << 16);
output |= ((g * 8) << 8);
output |= ((b * 8) << 0);
return output;
}
function imf2gltf(icon = null, filename = "untitled") {
if (icon === null) {
throw "Missing first argument, of which should be a icondumper2 Intermediate Model Format object.";
}
if (icon.hasOwnProperty("numberOfShapes") === false) {
throw "Expected a icondumper2 Intermediate Model Format object.";
}
let shapesArray = new Array(icon.numberOfShapes);
for (let index = 0; index < icon.numberOfShapes; index++) {
shapesArray[index] = new Array();
}
let verticesArray = new Array();
let normalsArray = new Array();
let uvArray = new Array();
let colourArray = new Array();
icon.vertices.forEach(function(vertexObject){
for (let index = 0; index < icon.numberOfShapes; index++) {
shapesArray[index].push(vertexObject.shapes[index].x);
shapesArray[index].push(vertexObject.shapes[index].y);
shapesArray[index].push(vertexObject.shapes[index].z);
}
normalsArray.push(vertexObject.normal.x);
normalsArray.push(vertexObject.normal.y);
normalsArray.push(vertexObject.normal.z);
uvArray.push(vertexObject.uv.u);
uvArray.push(vertexObject.uv.v);
// gamma correction, glTF clients expect lineari(s|z)ed-sRGB, not sRGB.
colourArray.push(Math.pow((vertexObject.color.r/255), 2.2));
colourArray.push(Math.pow((vertexObject.color.g/255), 2.2));
colourArray.push(Math.pow((vertexObject.color.b/255), 2.2));
colourArray.push((vertexObject.color.a > 1) ? (vertexObject.color.a/255): 1);
});
shapesArray.forEach(function(arr) {
verticesArray = [...verticesArray, ...arr];
});
let outputFloatArray = new Float32Array([...verticesArray, ...normalsArray, ...uvArray, ...colourArray]); // 3[nOS], 3, 2, 4#
let gltfOutputArray = new Array(icon.numberOfShapes);
for (let index = 0; index < icon.numberOfShapes; index++) {
const gltfOutput = new Object();
//setting up GLTF
gltfOutput.scene = 0;
gltfOutput.scenes = [{"name": filename, "nodes": [0]}];
gltfOutput.nodes = [{"mesh": 0, "name": `${filename}#${index}`, "rotation": [1,0,0,0]}];
gltfOutput.meshes = [{
"name": `Mesh (${filename}#${index})`,
"primitives": [{
"attributes": {
"POSITION": 0,
"NORMAL": 1,
"TEXCOORD_0": 2,
"COLOR_0": 3,
},
"material": 0
}]
}]; // no indices because who needs indexing when you're transcoding?
gltfOutput.materials = [{
"name": `Material (${filename}#${index})`,
"pbrMetallicRoughness": {
"baseColorTexture": {"index":0, "texCoord": 0}
},
"extensions": { // or we get annoying PBR and specular stuff we don't need
"KHR_materials_unlit": {}
}
}];
gltfOutput.buffers = [{"uri": `${filename}.bin`, "byteLength": outputFloatArray.byteLength}];
gltfOutput.bufferViews = [
{
"buffer": 0,
"byteOffset": (((icon.vertices.length*3)*4)*index),
"byteLength": ((icon.vertices.length*3)*4),
"target": gltfConstants.ARRAY_BUFFER
},
{
"buffer": 0,
"byteOffset": (((icon.vertices.length*3)*4)*icon.numberOfShapes),
"byteLength": (normalsArray.length*4),
"target": gltfConstants.ARRAY_BUFFER
},
{
"buffer": 0,
"byteOffset": ((((icon.vertices.length*3)*4)*icon.numberOfShapes)+(normalsArray.length*4)),
"byteLength": (uvArray.length*4),
"target": gltfConstants.ARRAY_BUFFER
},
{
"buffer": 0,
"byteOffset": (((((icon.vertices.length*3)*4)*icon.numberOfShapes)+(normalsArray.length*4))+(uvArray.length*4)),
"byteLength": (colourArray.length*4),
"target": gltfConstants.ARRAY_BUFFER
}
];
gltfOutput.accessors = [
{
"bufferView": 0,
"componentType": gltfConstants.FLOAT,
"count": icon.vertices.length,
"type": "VEC3",
"max": [ 5.0, 5.0, 5.0],
"min": [-5.0, -5.0, -5.0],
"name": "Vertex Position Accessor"
},
{
"bufferView": 1,
"componentType": gltfConstants.FLOAT,
"count": icon.vertices.length,
"type": "VEC3",
"max": [ 1.0, 1.0, 1.0],
"min": [-1.0, -1.0, -1.0],
"name": "Normal Accessor"
},
{
"bufferView": 2,
"componentType": gltfConstants.FLOAT,
"count": icon.vertices.length,
"type": "VEC2",
"max": [ 1.0, 1.0],
"min": [-1.0, -1.0],
"name": "Texture Coordinate Accessor"
},
{
"bufferView": 3,
"componentType": gltfConstants.FLOAT,
"count": icon.vertices.length,
"type": "VEC4",
"max": [ 1.0, 1.0, 1.0, 1.0],
"min": [ 0.0, 0.0, 0.0, 1.0],
"name": "Colour Accessor"
}
];
gltfOutput.asset = {"version": "2.0", "generator": `icondumper2/${icondumper2.version}`}
gltfOutput.extensionsUsed = ["KHR_materials_unlit"];
gltfOutput.textures = [{"source": 0}];
gltfOutput.images = [{"name": `Texture (${filename}#${index})`, "uri": `${filename}.png`}]
gltfOutputArray[index] = (gltfOutput);
}
let texture16 = null; // Uint16Array(16384)
switch(icon.textureFormat) {
case "N": {
texture16 = (new Uint16Array(16384)).fill(0xffff);
break;
}
case "C": {
texture16 = icondumper2.helpers.uncompressTexture(icon.texture.data);
break;
}
case "U": {
texture16 = icon.texture;
break;
}
}
let texture24 = new Uint8Array(49983);
texture24.set([
0x89, 0x50, 0x4e, 0x47, 0x0d, 0x0a, 0x1a, 0x0a,
0x00, 0x00, 0x00, 0x0d, 0x49, 0x48, 0x44, 0x52,
0x00, 0x00, 0x00, 0x80, 0x00, 0x00, 0x00, 0x80,
0x08, 0x02, 0x00, 0x00, 0x00, // you may know
0x4c, 0x5c, 0xf6, 0x9c, // what this is from 0x89.
0x00, 0x00, 0xc3, 0x06, 0x49, 0x44, 0x41, 0x54,
0x78, 0x01 // if you didn't get it, here's a clue
],0);
let textureOffset = 43;
let texture24Data = new Array();
let texture24CheckedData = new Array();
for (let x = 0; x < 128; x++) {
let line = [(x === 127 ? 1 : 0), 0x81, 0x01, 0x7e, 0xfe, 0x00];
texture24Data = texture24Data.concat(line);
texture24CheckedData.push(0);
let scanline = new Array(128*3);
for (let y = 0; y < 128; y++) {
color = rgb5a1_rgb8(texture16[(x*128)+y]);
scanline[(y*3) ] = ((color >> 0 ) & 255);
scanline[(y*3)+1] = ((color >> 8 ) & 255);
scanline[(y*3)+2] = ((color >> 16) & 255);
}
texture24Data = texture24Data.concat(scanline);
texture24CheckedData = texture24CheckedData.concat(scanline);
}
texture24.set(texture24Data, textureOffset);
textureOffset += texture24Data.length;
let a32conv = new DataView(new ArrayBuffer(4));
a32conv.setInt32(0, getAdler32(new Uint8Array(texture24CheckedData)))
texture24.set([a32conv.getUint8(0), a32conv.getUint8(1), a32conv.getUint8(2), a32conv.getUint8(3)], textureOffset);
textureOffset += 4;
let crc32 = getCrc32(new Uint8Array([
0x49, 0x44, 0x41, 0x54, 0x78, 0x01, ...texture24Data,
a32conv.getUint8(0), a32conv.getUint8(1),
a32conv.getUint8(2), a32conv.getUint8(3)
]));
texture24.set([
(crc32 >> 24) & 0xff,
(crc32 >> 16) & 0xff,
(crc32 >> 8) & 0xff,
crc32 & 0xff
], textureOffset);
textureOffset += 4;
texture24.set([
0x00, 0x00, 0x00, 0x00,
0x49, 0x45, 0x4E, 0x44,
0xae, 0x42, 0x60, 0x82
], textureOffset);
return {objects: gltfOutputArray, buffer: outputFloatArray, texture: texture24};
}
function loadAndConvertIcon(inputData, attemptedFilename = "-") {
if (inputData.hasOwnProperty("numberOfShapes") === false) {
throw "Expected a icondumper2 Intermediate Model Format object.";
}
const filename = encodeURIComponent(attemptedFilename).replaceAll(/\%[0-9A-F]{2,2}/g, "").replaceAll(".", "_");
const glTF_output = imf2gltf(inputData, filename);
for (let index = 0; index < (inputData.numberOfShapes); index++) {
(require("fs")).writeFileSync(`${filename}_${index}.gltf`, new TextEncoder().encode(JSON.stringify(glTF_output.objects[index])));
console.info(`Saved shape ${filename}#${index} as "${filename}_${index}.gltf".`);
}
(require("fs")).writeFileSync(`${filename}.bin`, glTF_output.buffer);
console.info(`Saved glTF buffer as "${filename}.bin".`);
(require("fs")).writeFileSync(`${filename}.png`, glTF_output.texture);
console.info(`Saved texture as "${filename}.png".\n`);
}
// can anything de-dupe this code somehow? (index.js)
console.info(`icon.js version ${icondumper2.version}, ${(new Date()).getFullYear().toString()} (c) yellows111`);
switch(processObj.argv[2]) {
case "psu": {
let inputFile = filesystem.readFileSync(processObj.argv[3] ? processObj.argv[3] : "file.psu");
const parsed = iconjs.readEmsPsuFile(inputFile.buffer.slice(inputFile.byteOffset, inputFile.byteOffset + inputFile.byteLength));
const PS2D = iconjs.readPS2D(parsed[parsed.rootDirectory]["icon.sys"].data);
loadAndConvertIcon(iconjs.readIconFile(parsed[parsed.rootDirectory][PS2D.filenames.n].data), PS2D.filenames.n);
if(PS2D.filenames.n !== PS2D.filenames.c) {
loadAndConvertIcon(iconjs.readIconFile(parsed[parsed.rootDirectory][PS2D.filenames.c].data), PS2D.filenames.c);
}
if(PS2D.filenames.n !== PS2D.filenames.d) {
loadAndConvertIcon(iconjs.readIconFile(parsed[parsed.rootDirectory][PS2D.filenames.d].data), PS2D.filenames.d);
}
break;
}
case "psv": {
let inputFile = filesystem.readFileSync(processObj.argv[3] ? processObj.argv[3] : "file.psv");
const parsed = iconjs.readPsvFile(inputFile.buffer.slice(inputFile.byteOffset, inputFile.byteOffset + inputFile.byteLength));
const PS2D = iconjs.readPS2D(parsed["icon.sys"]);
//i should probably make PSV readers more like the others, but why should I? It's giving me shortcuts to what I want.
loadAndConvertIcon(iconjs.readIconFile(parsed.icons.n), PS2D.filenames.n)
if(PS2D.filenames.n !== PS2D.filenames.c) {
loadAndConvertIcon(iconjs.readIconFile(parsed.icons.c), PS2D.filenames.c)
}
if(PS2D.filenames.n !== PS2D.filenames.d) {
loadAndConvertIcon(iconjs.readIconFile(parsed.icons.d), PS2D.filenames.d)
}
break;
}
case "sps":
case "xps": {
let inputFile = filesystem.readFileSync(processObj.argv[3] ? processObj.argv[3] : "file.sps");
const parsed = iconjs.readSharkXPortSxpsFile(inputFile.buffer.slice(inputFile.byteOffset, inputFile.byteOffset + inputFile.byteLength));
const PS2D = iconjs.readPS2D(parsed[parsed.rootDirectory]["icon.sys"].data);
loadAndConvertIcon(iconjs.readIconFile(parsed[parsed.rootDirectory][PS2D.filenames.n].data), PS2D.filenames.n);
if(PS2D.filenames.n !== PS2D.filenames.c) {
loadAndConvertIcon(iconjs.readIconFile(parsed[parsed.rootDirectory][PS2D.filenames.c].data), PS2D.filenames.c);
}
if(PS2D.filenames.n !== PS2D.filenames.d) {
loadAndConvertIcon(iconjs.readIconFile(parsed[parsed.rootDirectory][PS2D.filenames.d].data), PS2D.filenames.d);
}
break;
}
case "sys": {
let inputFile = filesystem.readFileSync(processObj.argv[3] ? processObj.argv[3] : "icon.sys");
const PS2D = iconjs.readPS2D(inputFile.buffer.slice(inputFile.byteOffset, inputFile.byteOffset + inputFile.byteLength));
let getFile = filesystem.readFileSync(PS2D.filenames.n);
loadAndConvertIcon(iconjs.readIconFile(getFile.buffer.slice(getFile.byteOffset, getFile.byteOffset + getFile.byteLength)), PS2D.filenames.n);
if(PS2D.filenames.n !== PS2D.filenames.c) {
let getFile = filesystem.readFileSync(PS2D.filenames.c);
loadAndConvertIcon(iconjs.readIconFile(getFile.buffer.slice(getFile.byteOffset, getFile.byteOffset + getFile.byteLength)), PS2D.filenames.c);
}
if(PS2D.filenames.n !== PS2D.filenames.d) {
let getFile = filesystem.readFileSync(PS2D.filenames.d);
loadAndConvertIcon(iconjs.readIconFile(getFile.buffer.slice(getFile.byteOffset, getFile.byteOffset + getFile.byteLength)), PS2D.filenames.d);
}
break;
}
case "ico":
case "icn": {
let inputFile = filesystem.readFileSync(processObj.argv[3] ? processObj.argv[3] : "input.icn");
loadAndConvertIcon(iconjs.readIconFile(inputFile.buffer.slice(inputFile.byteOffset, inputFile.byteOffset + inputFile.byteLength)), require("path").basename(processObj.argv[3]));
break;
}
default: {
//Template literal goes here.
console.info(
`${(processObj.argv.length > 2) ? "Unknown argument: "+processObj.argv[2]+"\n\n": ""}icondumper2 node.js client (glTF exporter version) subcommands:
psu: Read a EMS Memory Adapter export file.
psv: Read a PS3 export file.
sps: Read a SharkPort export file.
xps: Read a X-Port export file.
sys: Read a icon.sys (964 bytes) file, and attempt
to read icon files from the current directory.
icn: Read an icon file directly. (Also as: ico)
` ); // end of template
processObj.exit(1);
}
}
processObj.exit(0);

1044
icon.js

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172
index.js
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@ -1,87 +1,87 @@
const icondumper2 = require("./icon.js");
const iconjs = icondumper2.readers;
const filesystem = require("fs");
const processObj = require("process");
// to make it viewable
require("util").inspect.defaultOptions.maxArrayLength = 10;
require("util").inspect.defaultOptions.compact = true;
require("util").inspect.defaultOptions.depth = 2;
// output debugging information
icondumper2.options.setDebug(false);
// node.js client
console.log(`icon.js version ${icondumper2.version}, ${(new Date()).getFullYear().toString()} (c) yellows111`);
switch(processObj.argv[2]) {
case "psu": {
let inputFile = filesystem.readFileSync(processObj.argv[3] ? processObj.argv[3] : "file.psu");
const parsed = iconjs.readEmsPsuFile(inputFile.buffer.slice(inputFile.byteOffset, inputFile.byteOffset + inputFile.byteLength));
const PS2D = iconjs.readPS2D(parsed[parsed.rootDirectory]["icon.sys"].data);
let output = {parsed, PS2D}
Object.keys(PS2D.filenames).forEach(function(file) {
output[file] = iconjs.readIconFile(parsed[parsed.rootDirectory][PS2D.filenames[file]].data);
});
console.log(output);
break;
}
case "psv": {
let inputFile = filesystem.readFileSync(processObj.argv[3] ? processObj.argv[3] : "file.psv");
const parsed = iconjs.readPsvFile(inputFile.buffer.slice(inputFile.byteOffset, inputFile.byteOffset + inputFile.byteLength));
console.log(parsed);
const PS2D = iconjs.readPS2D(parsed["icon.sys"]);
let output = {parsed, PS2D};
console.log(output);
break;
}
case "sps":
case "xps": {
let inputFile = filesystem.readFileSync(processObj.argv[3] ? processObj.argv[3] : "file.sps");
const parsed = iconjs.readSharkXPortSxpsFile(inputFile.buffer.slice(inputFile.byteOffset, inputFile.byteOffset + inputFile.byteLength));
console.log(parsed);
const PS2D = iconjs.readPS2D(parsed[parsed.rootDirectory]["icon.sys"].data);
let output = {parsed, PS2D}
Object.keys(PS2D.filenames).forEach(function(file) {
output[file] = iconjs.readIconFile(parsed[parsed.rootDirectory][PS2D.filenames[file]].data);
});
console.log(output);
break;
}
case "sys": {
let inputFile = filesystem.readFileSync(processObj.argv[3] ? processObj.argv[3] : "icon.sys");
const metadata = iconjs.readPS2D(inputFile.buffer.slice(inputFile.byteOffset, inputFile.byteOffset + inputFile.byteLength));
console.log("\noutput:", metadata, "\n")
if(processObj.argv.length > 4 && processObj.argv[4].toLowerCase() === "--no-read-models") {break;} else {
Object.keys(metadata.filenames).forEach(function(file) {
let getFile = filesystem.readFileSync(metadata.filenames[file]);
const output = iconjs.readIconFile(getFile.buffer.slice(getFile.byteOffset, getFile.byteOffset + getFile.byteLength));
//console.log(individialIcon);
console.log(`contents of ${metadata.filenames[file]} (${file}):`, output, "\n");
});
}
break;
}
case "ico":
case "icn": {
let inputFile = filesystem.readFileSync(processObj.argv[3] ? processObj.argv[3] : "input.icn");
console.log(`contents of ${require("path").basename(processObj.argv[3])}:`, iconjs.readIconFile(inputFile.buffer.slice(inputFile.byteOffset, inputFile.byteOffset + inputFile.byteLength)));
break;
}
default: {
//Template literal goes here.
console.log(
`${(processObj.argv.length > 2) ? "Unknown argument: "+processObj.argv[2]+"\n\n": ""}icondumper2 node.js client subcommands:
psu: Read a EMS Memory Adapter export file.
psv: Read a PS3 export file.
sps: Read a SharkPort export file.
xps: Read a X-Port export file.
sys: Read a icon.sys (964 bytes) file, and attempt
to read icon files from the current directory.
(suppress behaviour with --no-read-models)
icn: Read an icon file directly. (Also as: ico)
` ); // end of template
}
processObj.exit(1);
}
const icondumper2 = require("./icon.js");
const iconjs = icondumper2.readers;
const filesystem = require("fs");
const processObj = require("process");
// to make it viewable
require("util").inspect.defaultOptions.maxArrayLength = 10;
require("util").inspect.defaultOptions.compact = true;
require("util").inspect.defaultOptions.depth = 2;
// output debugging information
icondumper2.options.setDebug(false);
// node.js client
console.log(`icon.js version ${icondumper2.version}, ${(new Date()).getFullYear().toString()} (c) yellows111`);
switch(processObj.argv[2]) {
case "psu": {
let inputFile = filesystem.readFileSync(processObj.argv[3] ? processObj.argv[3] : "file.psu");
const parsed = iconjs.readEmsPsuFile(inputFile.buffer.slice(inputFile.byteOffset, inputFile.byteOffset + inputFile.byteLength));
const PS2D = iconjs.readPS2D(parsed[parsed.rootDirectory]["icon.sys"].data);
let output = {parsed, PS2D}
Object.keys(PS2D.filenames).forEach(function(file) {
output[file] = iconjs.readIconFile(parsed[parsed.rootDirectory][PS2D.filenames[file]].data);
});
console.log(output);
break;
}
case "psv": {
let inputFile = filesystem.readFileSync(processObj.argv[3] ? processObj.argv[3] : "file.psv");
const parsed = iconjs.readPsvFile(inputFile.buffer.slice(inputFile.byteOffset, inputFile.byteOffset + inputFile.byteLength));
console.log(parsed);
const PS2D = iconjs.readPS2D(parsed["icon.sys"]);
let output = {parsed, PS2D};
console.log(output);
break;
}
case "sps":
case "xps": {
let inputFile = filesystem.readFileSync(processObj.argv[3] ? processObj.argv[3] : "file.sps");
const parsed = iconjs.readSharkXPortSxpsFile(inputFile.buffer.slice(inputFile.byteOffset, inputFile.byteOffset + inputFile.byteLength));
console.log(parsed);
const PS2D = iconjs.readPS2D(parsed[parsed.rootDirectory]["icon.sys"].data);
let output = {parsed, PS2D}
Object.keys(PS2D.filenames).forEach(function(file) {
output[file] = iconjs.readIconFile(parsed[parsed.rootDirectory][PS2D.filenames[file]].data);
});
console.log(output);
break;
}
case "sys": {
let inputFile = filesystem.readFileSync(processObj.argv[3] ? processObj.argv[3] : "icon.sys");
const metadata = iconjs.readPS2D(inputFile.buffer.slice(inputFile.byteOffset, inputFile.byteOffset + inputFile.byteLength));
console.log("\noutput:", metadata, "\n")
if(processObj.argv.length > 4 && processObj.argv[4].toLowerCase() === "--no-read-models") {break;} else {
Object.keys(metadata.filenames).forEach(function(file) {
let getFile = filesystem.readFileSync(metadata.filenames[file]);
const output = iconjs.readIconFile(getFile.buffer.slice(getFile.byteOffset, getFile.byteOffset + getFile.byteLength));
//console.log(individialIcon);
console.log(`contents of ${metadata.filenames[file]} (${file}):`, output, "\n");
});
}
break;
}
case "ico":
case "icn": {
let inputFile = filesystem.readFileSync(processObj.argv[3] ? processObj.argv[3] : "input.icn");
console.log(`contents of ${require("path").basename(processObj.argv[3])}:`, iconjs.readIconFile(inputFile.buffer.slice(inputFile.byteOffset, inputFile.byteOffset + inputFile.byteLength)));
break;
}
default: {
//Template literal goes here.
console.log(
`${(processObj.argv.length > 2) ? "Unknown argument: "+processObj.argv[2]+"\n\n": ""}icondumper2 node.js client subcommands:
psu: Read a EMS Memory Adapter export file.
psv: Read a PS3 export file.
sps: Read a SharkPort export file.
xps: Read a X-Port export file.
sys: Read a icon.sys (964 bytes) file, and attempt
to read icon files from the current directory.
(suppress behaviour with --no-read-models)
icn: Read an icon file directly. (Also as: ico)
` ); // end of template
}
processObj.exit(1);
}
processObj.exit(0);

1156
input.htm

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