154 lines
4.7 KiB
JavaScript
154 lines
4.7 KiB
JavaScript
import * as Binutils from "./binutils.mjs"
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const FLAG_NEGATIVE = 1 << 0
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const FLAG_HALT = 1 << 1
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const FLAG_ABLAZE = 1 << 2
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class Instruction {
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constructor(name, args, description) {
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this.Name = name
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this.Args = args
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this.Description = description
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}
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}
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const Instructions = [
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new Instruction("NOOP", [], "Do nothing"),
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new Instruction("PRNT", ["x"], "Print string at x"),
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new Instruction("READ", ["x"], "Read input, store in x"),
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new Instruction("CMPS", ["x", "y"], "Compare string x to string y"),
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new Instruction("JNEQ", ["x"], "If not equal, set PC to x"),
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new Instruction("JUMP", ["x"], "Set PC to x"),
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new Instruction("HALT", [], "Terminate program"),
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new Instruction("HACF", [], "Halt And Catch Fire (never use this!)"),
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]
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function disassemble(program) {
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let b = program[0]
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let inst = Instructions[b]
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if (inst) {
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let nargs = inst.Args.length
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let args = []
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for (let i = 0; i < nargs; i++) {
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args.push(program[i+1])
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}
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if (1+nargs <= program.length) {
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// Only return an opcode if there was enough data for its arguments as well
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return {length: 1+nargs, name: inst.Name, args: args}
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}
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}
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let data = Binutils.CString(program, true)
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let s = Binutils.Stringify(data)
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return {length: data.length, name: "DATA", args: [s]}
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}
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class CPU {
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/**
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* @param {Uint8Array} program Program to load
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* @param {string} input input string
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* @param {Number} pc initial program counter
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* @param {Number} flags initial flags
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*/
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constructor(program, input, output="", pc=0, flags=0) {
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this.Program = program
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this.Input = input
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this.Output = output
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this.PC = pc
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this.Flags = flags
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}
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Clone() {
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return new CPU(this.Program, this.Input, this.Output, this.PC, this.Flags)
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}
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DisassembleProgram() {
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let ret = []
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let prog1 = this.Program.slice(0, this.PC)
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let addr = 0
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for (let prog of [prog1, this.Program]) {
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while (addr < prog.length) {
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let subprog = prog.slice(addr)
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let inst = disassemble(subprog)
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ret.push({
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addr,
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buf: this.Program.slice(addr, addr+inst.length),
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name: inst.name,
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args: inst.args,
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})
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addr += inst.length
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}
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}
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return ret
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}
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Step() {
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let prog = this.Program.slice(this.PC)
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let inst = disassemble(prog)
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let flags = this.Flags
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this.Flags = 0
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switch (inst.name) {
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case "JUMP":
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this.PC = inst.args[0]
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return
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case "JNEQ":
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if (flags && FLAG_NEGATIVE) {
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this.PC = inst.args[0]
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return
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}
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break
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case "READ": {
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let addr = inst.args[0]
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let b = new TextEncoder().encode(this.Input + "\0")
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let newproglen = Math.max(this.Program.length, addr+b.length)
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let newprog = new Uint8Array(newproglen)
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for (let i = 0; i < addr; i++) {
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newprog[i] = this.Program[i]
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}
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for (let i = 0; i < b.length; i++) {
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newprog[addr+i] = b[i]
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}
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for (let i = addr+b.length; i < this.Program.length; i++) {
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newprog[i] = this.Program[i]
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}
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this.Program = newprog
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break
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}
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case "PRNT": {
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let addr = inst.args[0]
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let prog = this.Program.slice(addr)
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this.Output = Binutils.CString(prog)
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break
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}
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case "CMPS": {
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let decoder = new TextDecoder()
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let a = decoder.decode(Binutils.CString(this.Program.slice(inst.args[0])))
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let b = decoder.decode(Binutils.CString(this.Program.slice(inst.args[1])))
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if (a != b) {
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this.Flags = FLAG_NEGATIVE
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}
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break
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}
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case "HALT":
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// Don't modify PC
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this.Flags = FLAG_HALT
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return
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case "HACF":
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this.Flags = FLAG_HALT | FLAG_ABLAZE
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return
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case "DATA":
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// Keep stepping through data one byte at a time trying to execute something
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inst.length = 1
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break
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}
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this.PC += inst.length
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}
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}
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export {
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FLAG_NEGATIVE, FLAG_HALT, FLAG_ABLAZE,
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Instructions,
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CPU,
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} |