public Test(int addr) { Address = addr; Id = Zpr.ReadRamInt16(addr); Unk1 = Zpr.ReadRamInt16(addr + 2); Unk2 = Zpr.ReadRamInt32(addr + 4); Prev = Zpr.ReadRamInt32(addr + 8); Next = Zpr.ReadRamInt32(addr + 0xC); }
private static void ReadRam(int addr, bool flip) { Console.Clear(); long emuAddr = 0; long emuAddrOld = 0; if (flip) { for (int i = 0; i < 0x100; i += 0x10) { emuAddr = Zpr.GetEmulatedAddress(addr); if (emuAddrOld != emuAddr) { Console.WriteLine($"{emuAddr:X16}"); emuAddrOld = emuAddr; } int addrLocal = addr + i; Console.WriteLine($"{addrLocal:X8} {Zpr.ReadRamInt32(addrLocal + 0):X8} {Zpr.ReadRamInt32(addrLocal + 4):X8} {Zpr.ReadRamInt32(addrLocal + 0x8):X8} {Zpr.ReadRamInt32(addrLocal + 0xC):X8}"); } } else { byte[] arr = Zpr.ReadRam(addr, 0x100); emuAddr = Zpr.GetEmulatedAddress(addr); Console.WriteLine($"{emuAddr:X16}"); for (int i = 0; i < 0x100; i += 0x10) { Console.Write($"{(addr + i):X8}"); for (int j = 0; j < 0x10; j += 4) { Console.Write($" {arr[i + j]:X2}{arr[i + j + 1]:X2}{arr[i + j + 2]:X2}{arr[i + j + 3]:X2}"); } Console.WriteLine(); } } }