Simple CPU Simulator -- CPU Hooks interface CPU Hooks can allow custom op-codes to be added and removed like a plugin system. For example, say you temporarily add a virtual device attached to the CPU, then later remove it. The inserting/removing is controlled in Python and not by the op-codes/coder. There is a Base class which must be sub-classed to make hooks work, there is an example Hook provided. Since these are custom op-codes being hooked into the CPU, there is of course no coder commands for these codes, as a result in order to use them, you must manually use the "set" coder command or add them via a hex-editor. The hooks have full access to the CPU core, it's registers, and attached memory and storage. A hook has the same ability as a standard software interrupt in the simulated CPU. You could for example create a hook which can create a GUI using wxWindows for example, or TK. A hook can also attach itself to the hosts network interface and allow your simulated CPU to access the Internet. Here is the example HelloWorldHook to see how easy it is to use: -------------- class HelloWorldHook(BaseCPUHook): opcode = 60 opname = 'hlo' def hook_32(self): print "Hello World!" def hook_33(self): print "Current Register values:" print self.cpu.ax.b print self.cpu.bx.b print self.cpu.cx.b print self.cpu.dx.b -------------- In the coder interface, you can access both functions via: -------------- hlo 32 hlo 33 int 1 boot 0 -------------- With this new updated version, you can select the opname along with the opcode in the subclass, and the coder will use it.