mirror of
https://github.com/curioustorvald/tsvm.git
synced 2026-03-07 19:51:51 +09:00
256 lines
7.5 KiB
JavaScript
256 lines
7.5 KiB
JavaScript
if (!exec_args[1]) {
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printerrln("Usage: decodeipf input.ipf")
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return 1
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}
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let filename = exec_args[1]
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const MAGIC = [0x1F, 0x54, 0x53, 0x56, 0x4D, 0x69, 0x50, 0x46]
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const port = filesystem._toPorts("A")[0]
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com.sendMessage(port, "DEVRST\x17")
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com.sendMessage(port, `OPENR"${filename}",1`)
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let statusCode = com.getStatusCode(port)
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if (statusCode != 0) {
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printerrln(`No such file (${statusCode})`)
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return statusCode
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}
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com.sendMessage(port, "READ")
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statusCode = com.getStatusCode(port)
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if (statusCode != 0) {
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printerrln("READ failed with "+statusCode)
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return statusCode
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}
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con.clear(); con.curs_set(0)
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let readCount = 0
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function readBytes(length) {
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let ptr = sys.malloc(length)
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let requiredBlocks = Math.floor((readCount + length) / 4096) - Math.floor(readCount / 4096)
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let completedReads = 0
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//serial.println(`readBytes(${length}); readCount = ${readCount}`)
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for (let bc = 0; bc < requiredBlocks + 1; bc++) {
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if (completedReads >= length) break
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if (readCount % 4096 == 0) {
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//serial.println("READ from serial")
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// pull the actual message
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sys.poke(-4093 - port, 6);sys.sleep(0) // spinning is required as Graal run is desynced with the Java side
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let blockTransferStatus = ((sys.peek(-4085 - port*2) & 255) | ((sys.peek(-4086 - port*2) & 255) << 8))
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let thisBlockLen = blockTransferStatus & 4095
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if (thisBlockLen == 0) thisBlockLen = 4096 // [1, 4096]
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let hasMore = (blockTransferStatus & 0x8000 != 0)
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//serial.println(`block: (${thisBlockLen})[${[...Array(thisBlockLen).keys()].map(k => (sys.peek(-4097 - k) & 255).toString(16).padStart(2,'0')).join()}]`)
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let remaining = Math.min(thisBlockLen, length - completedReads)
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//serial.println(`Pulled a block (${thisBlockLen}); readCount = ${readCount}, completedReads = ${completedReads}, remaining = ${remaining}`)
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// copy from read buffer to designated position
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sys.memcpy(-4097, ptr + completedReads, remaining)
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// increment readCount properly
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readCount += remaining
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completedReads += remaining
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}
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else {
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let padding = readCount % 4096
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let remaining = length - completedReads
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let thisBlockLen = Math.min(4096 - padding, length - completedReads)
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//serial.println(`padding = ${padding}; remaining = ${remaining}`)
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//serial.println(`block: (${thisBlockLen})[${[...Array(thisBlockLen).keys()].map(k => (sys.peek(-4097 - padding - k) & 255).toString(16).padStart(2,'0')).join()}]`)
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//serial.println(`Reusing a block (${thisBlockLen}); readCount = ${readCount}, completedReads = ${completedReads}`)
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// copy from read buffer to designated position
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sys.memcpy(-4097 - padding, ptr + completedReads, thisBlockLen)
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// increment readCount properly
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readCount += thisBlockLen
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completedReads += thisBlockLen
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}
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}
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//serial.println(`END readBytes(${length}); readCount = ${readCount}\n`)
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return ptr
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}
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function readInt() {
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let b = readBytes(4)
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let i = (sys.peek(b) & 255) | ((sys.peek(b+1) & 255) << 8) | ((sys.peek(b+2) & 255) << 16) | ((sys.peek(b+3) & 255) << 24)
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//serial.println(`readInt(); bytes: ${sys.peek(b)}, ${sys.peek(b+1)}, ${sys.peek(b+2)}, ${sys.peek(b+3)} = ${i}\n`)
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sys.free(b)
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return i
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}
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function readShort() {
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let b = readBytes(2)
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let i = (sys.peek(b) & 255) | ((sys.peek(b+1) & 255) << 8)
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//serial.println(`readShort(); bytes: ${sys.peek(b)}, ${sys.peek(b+1)} = ${i}\n`)
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sys.free(b)
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return i
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}
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function readByte() {
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let b = readBytes(1)
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let i = (sys.peek(b) & 255)
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//serial.println(`readShort(); bytes: ${sys.peek(b)}, ${sys.peek(b+1)} = ${i}\n`)
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sys.free(b)
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return i
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}
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let magic = readBytes(8)
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let magicMatching = true
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// check if magic number matches
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MAGIC.forEach((b,i) => {
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let testb = sys.peek(magic + i) & 255 // for some reason this must be located here
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if (testb != b) {
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magicMatching = false
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}
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})
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sys.free(magic)
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if (!magicMatching) {
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println("Not an IPF file (MAGIC mismatch)")
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return 1
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}
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let imgw = readShort()
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let imgh = readShort()
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let hasAlpha = (readShort() != 0)
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sys.free(readBytes(10)) // skip 10 bytes
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// TODO: gzip
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function clampRGB(f) {
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return (f > 1.0) ? 1.0 : (f < 0.0) ? 0.0 : f
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}
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function ycocgToRGB(co, cg, ys, as) { // ys: 4 Y-values
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// return [R1|G1, B1|A1, R2|G2, B2|A2, R3|G3, B3|A3, R4|G4, B4|A4]
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// cocg = 0x7777
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// ys = 0x7777
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co = (co - 7) / 8
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cg = (cg - 7) / 8
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let y1 = (ys & 15) / 15.0
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let a1 = as & 15
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let tmp = y1 - cg / 2.0
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let g1 = clampRGB(cg + tmp)
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let b1 = clampRGB(tmp - co / 2.0)
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let r1 = clampRGB(b1 + co)
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let y2 = ((ys >>> 4) & 15) / 15.0
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let a2 = (as >>> 4) & 15
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tmp = y2 - cg / 2.0
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let g2 = clampRGB(cg + tmp)
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let b2 = clampRGB(tmp - co / 2.0)
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let r2 = clampRGB(b2 + co)
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let y3 = ((ys >>> 8) & 15) / 15.0
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let a3 = (as >>> 8) & 15
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tmp = y3 - cg / 2.0
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let g3 = clampRGB(cg + tmp)
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let b3 = clampRGB(tmp - co / 2.0)
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let r3 = clampRGB(b3 + co)
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let y4 = ((ys >>> 12) & 15) / 15.0
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let a4 = (as >>> 12) & 15
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tmp = y4 - cg / 2.0
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let g4 = clampRGB(cg + tmp)
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let b4 = clampRGB(tmp - co / 2.0)
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let r4 = clampRGB(b4 + co)
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return [
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(Math.round(r1 * 15) << 4) | Math.round(g1 * 15),
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(Math.round(b1 * 15) << 4) | a1,
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(Math.round(r2 * 15) << 4) | Math.round(g2 * 15),
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(Math.round(b2 * 15) << 4) | a2,
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(Math.round(r3 * 15) << 4) | Math.round(g3 * 15),
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(Math.round(b3 * 15) << 4) | a3,
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(Math.round(r4 * 15) << 4) | Math.round(g4 * 15),
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(Math.round(b4 * 15) << 4) | a4,
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]
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}
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graphics.setGraphicsMode(4)
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for (let blockY = 0; blockY < Math.ceil(imgh / 4.0); blockY++) {
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for (let blockX = 0; blockX < Math.ceil(imgw / 4.0); blockX++) {
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let rg = new Uint8Array(16) // [R1G1, R2G2, R3G3, R4G4, ...]
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let ba = new Uint8Array(16)
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let co = readShort()
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let cg = readShort()
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let y1 = readShort()
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let y2 = readShort()
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let y3 = readShort()
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let y4 = readShort()
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let a1 = 65535; let a2 = 65535; let a3 = 65535; let a4 = 65535
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if (hasAlpha) {
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a1 = readShort()
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a2 = readShort()
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a3 = readShort()
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a4 = readShort()
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}
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let corner = ycocgToRGB(co & 15, cg & 15, y1, a1)
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rg[0] = corner[0];ba[0] = corner[1]
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rg[1] = corner[2];ba[1] = corner[3]
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rg[4] = corner[4];ba[4] = corner[5]
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rg[5] = corner[6];ba[5] = corner[7]
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corner = ycocgToRGB((co >> 4) & 15, (cg >> 4) & 15, y2, a2)
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rg[2] = corner[0];ba[2] = corner[1]
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rg[3] = corner[2];ba[3] = corner[3]
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rg[6] = corner[4];ba[6] = corner[5]
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rg[7] = corner[6];ba[7] = corner[7]
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corner = ycocgToRGB((co >> 8) & 15, (cg >> 8) & 15, y3, a3)
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rg[8] = corner[0];ba[8] = corner[1]
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rg[9] = corner[2];ba[9] = corner[3]
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rg[12] = corner[4];ba[12] = corner[5]
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rg[13] = corner[6];ba[13] = corner[7]
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corner = ycocgToRGB((co >> 12) & 15, (cg >> 12) & 15, y4, a4)
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rg[10] = corner[0];ba[10] = corner[1]
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rg[11] = corner[2];ba[11] = corner[3]
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rg[14] = corner[4];ba[14] = corner[5]
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rg[15] = corner[6];ba[15] = corner[7]
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// move decoded pixels into memory
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for (let py = 0; py < 4; py++) { for (let px = 0; px < 4; px++) {
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let ox = blockX * 4 + px
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let oy = blockY * 4 + py
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let offset = oy * 560 + ox
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sys.poke(-1048577 - offset, rg[py * 4 + px])
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sys.poke(-1310721 - offset, ba[py * 4 + px])
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}}
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}}
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