Z80 Disassembler Online Full Site

LD A, 01h LD B, 02h LD C, 03h LD D, 04h LD E, 05h Note that this is a highly simplified example and real-world Z80 code can be much more complex.

document.getElementById('disassemble-btn').addEventListener('click', () => { const binaryData = document.getElementById('input-binary').value.split(' ').map(byte => parseInt(byte, 16)); const disassembly = disassemble(binaryData); document.getElementById('output-disassembly').innerText = disassembly; }); This implementation provides a basic disassembler that can handle Z80 instructions with operands. However, it's incomplete and requires additional work to support all 252 instructions, operand types, and edge cases.

while (pc < binaryData.length) { const opcode = binaryData[pc]; const instruction = z80Instructions[opcode]; z80 disassembler online full

function disassemble(binaryData) { const disassembly = []; let pc = 0;

To use the online disassembler, simply copy and paste the following binary data into the input field: LD A, 01h LD B, 02h LD C,

return disassembly.join('\n'); }

A disassembler is a program that takes machine code (binary) as input and translates it into assembly language. This process is also known as reverse compilation or decompilation. The goal of a disassembler is to recreate the original assembly code from the binary data, making it easier to understand and analyze. while (pc &lt; binaryData

In this post, we've explored the concept of a Z80 disassembler and provided a basic online implementation. While this implementation is incomplete, it demonstrates the fundamental steps involved in creating a disassembler. If you're interested in working with Z80 code or reverse-engineering old microcomputers, a Z80 disassembler is an essential tool to have in your toolkit.