If you're worried that the code won't run after all this surgery, then the goal must be to modify the system gradually and reversibly, verifying that it's still working at every step. Primum non nocere.
If you have a good set of unit tests (which I doubt very much, from the sound of this project), you should be in the habit of running it every few minutes. Otherwise you can at least cobble up a regression test of your own: run the code on a typical set of input data, and take the checksum of the output-- if the checksum changes, then you broke something since the last time you ran the test, so rewind to that time (you do use version control, don't you?) and proceed with care. The longer the test takes to run, the less often you can afford to run it, but it should be nightly at least.
The old Thing has not remained encapsulated (if it ever was to begin with). The rest of the code knows too much about the implementation of
oldThing, making a simple swapout with
newThing impossible. So clean up the interface. Look over the
public declarations of
oldThing (including whatever base classes are exposed) and consider whether each one is something the world really needs to know about-- if not, put in an accessor/mutator, or revise the class tree, or whatever. Isolate the implementation from the interface.
While you're doing that, look at the public interface of
newThing; it should be clean and abstract, like what you're trying to achieve with
oldThing (if it's a mess, then you have a whole other set of problems). With some effort you can guide the changes in the
oldThing interface to match what
As that starts to come together, the task of swapping out old for new will start to look feasible. In the end you'll be able to do it by changing a single
#include statement and a single word in the makefile, if you want to go that far.