Did a bit of researching and thinking to come to the impossibility of this task. How would you make an executable file as small as the normal C written application for a specific architecture that works on every architecture with the same speed as if it were natively compiled in C for that architecture?
Which comes to my next idea. Native machine code is specific to architecture, each architecture has certain special features and sometimes handles the same task differently. Also certain optimizations are specific per architecture. What if there was a Universal Machine Code? When the OS loads the instructions into ram, it automagically converts the instructions to adapt to the architecture. Or perhaps (crazier idea) the CPU could contain the ability to receive the universal machine code and automatically adapts the universal machine code into it's native machine code?
The Universal Machine Code specification would have to be generic enough to cover the normal Machine Code functions.
Of course if the Universal Machine Code did work, people would probably want a universal executable format that's handled by all OSes. That way the executable need not change across OSes. Which leads to frameworks that need to be made specifically to be universal across machines. And more nitty gritty would be OS specific features, and the ability for input and output which is going beyond what I know.
Universal Machine Code compiled executable:
- Nearly same size as a native compiled executable
- Nearly if not the same performance of a native compiled executable
- Slightly(hopefully non-existantly) slower in loading as it converts the universal machine code to native machine code when loading the executable in ram
Is it feasible?
I have used Java, made a game in it. It's not as *universal as I'd like, nor as friendly. * It is it's own programming language, maintained by Oracle. Proprietary and a bit too massive. Requires installation on some machines.
And to be more specific I'm not talking about having a new programming language. I'm talking about having a new machine code language that holds enough extra information that when executed, a very thin process of translating it to the architecture's machine code happens. That way C compilers can just compile their executables into the universal machine code and the executables could run everywhere.