public static string Execute(string code, long group) { if (code.Length > 512) { return("嗝"); } string result = ""; Util.Output = (value) => { result += value; }; code = code.Replace(";;", "\n"); var core = new dotNSASM.NSASM(512, 512, 64, Util.GetSegments(code)); core.SetGroupID(group); Thread thread = new Thread(() => core.Run()); int start = Environment.TickCount; thread.Start(); while (thread.IsAlive) { if (start - Environment.TickCount > 1000) { thread.Abort(); result = "已超时 | Time Exceed"; } } Util.Output = (value) => { }; return(result); }
public static void Execute(string str) { string path = "local"; if (str == null) { return; } int heap = 64, stack = 32, regs = 16; string conf = GetSegment(str, ".<conf>"); if (conf == null) { Print("Conf load error.\n"); Print("At file: " + path + "\n\n"); return; } if (conf.Length > 0) { StringReader confReader = new StringReader(conf); try { string buf; while (confReader.Peek() != -1) { buf = confReader.ReadLine(); switch (buf.Split(' ')[0]) { case "heap": heap = int.Parse(buf.Split(' ')[1]); break; case "stack": stack = int.Parse(buf.Split(' ')[1]); break; case "reg": regs = int.Parse(buf.Split(' ')[1]); break; } } } catch (Exception e) { Print("Conf load error.\n"); Print("At file: " + path + "\n\n"); return; } } string[][] code = GetSegments(str); NSASM nsasm = new NSASM(heap, stack, regs, code); nsasm.Run(); Print("\nNSASM running finished.\n\n"); }
public static void Interactive() { Print("Now in console mode.\n\n"); string buf; int lines = 1; NSASM.Result result; string[][] code = GetSegments("nop\n"); //ld func allowed NSASM nsasm = new NSASM(64, 32, 16, code); while (true) { Print(lines + " >>> "); buf = Scan(); if (buf.Length == 0) { lines += 1; continue; } buf = FormatLine(buf); if (buf.Contains("#")) { Print("<" + buf + ">\n"); continue; } result = nsasm.Execute(buf); if (result == NSASM.Result.ERR) { Print("\nNSASM running error!\n"); Print("At line " + lines + ": " + buf + "\n\n"); } else if (result == NSASM.Result.ETC) { break; } if (buf.StartsWith("run") || buf.StartsWith("call")) { nsasm.Run(); } lines += 1; } }
public static void Binary(string path) { byte[] data = BinaryInput.Invoke(path); if (data.Length < 16) { return; } if (GetStr2(data, 0) != "NS") { return; } if (GetUint16(data, 2) != 0xFFFF) { return; } ushort sum = 0; for (int i = 0; i < data.Length - 2; i++) { sum += data[i]; } if (sum != GetUint16(data, data.Length - 2)) { return; } ushort heap, stack, regs, segCnt; heap = GetUint16(data, 4); stack = GetUint16(data, 6); regs = GetUint16(data, 8); segCnt = GetUint16(data, 10); int offset = 12, segPos = -1; string[][] code = new string[segCnt][]; for (int i = 0; i < segCnt; i++) { code[i] = new string[2]; } const int SEG_NAME = 0, SEG_CODE = 1; int state = SEG_NAME, offmax = data.Length - 1; while (offset <= offmax - 4) { if (GetUint16(data, offset) == 0xA5A5) { if (segPos >= segCnt - 1) { return; } segPos += 1; offset += 2; state = SEG_NAME; code[segPos][0] = ""; } else if (GetUint16(data, offset) == 0xAAAA) { offset += 2; state = SEG_CODE; code[segPos][1] = ""; } else { if (state == SEG_NAME) { code[segPos][0] += (char)data[offset]; } else if (state == SEG_CODE) { code[segPos][1] += (char)data[offset]; } offset += 1; } } if (GetUint16(data, offset) != 0xFFFF) { return; } NSASM nsasm = new NSASM(heap, stack, regs, code); nsasm.Run(); Print("\nNSASM running finished.\n\n"); }