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polcott
polcott
02:26
@MisterMiyagi "But H has to do more than that!" All that H must do is compute the mapping from its input finite string to an accept or reject state on the basis of the actual behavior specified by the finite string. H need not change the oil of your car or cook you breakfast.
PM 2Ring
PM 2Ring
02:52
@polcott The standard proof (SP) says that no halting oracle (which can evaluate the halt status for every finite-length (program, data) pair) can exist.
You keep talking about simulation. But the SP does not rely on simulation. It doesn't care how H functions, but it does insist the H itself always halts, and returns a True / False result (halts / doesn't halt).
H is permitted to do simulation, if it wants to, but that simulation must not prevent H from terminating & returning its result.
Obviously, if P is in any kind of infinite loop or infinite recursion, then a naive simulation of P will get stuck. So a valid H cannot use such a simulation.
Sorry, typo: "but it does insist that H itself always halts"
polcott
polcott
03:19
@PM2Ring Yes it seems that you have all of the correctly. When H finds that itself would be stuck in recursive simulation it aborts P before P ever calls H once. Then H reports non-halting.
@PM2Ring **All of the details of this are in my fully operational system**

Complete halt deciding system (Visual Studio Project)
(a) x86utm operating system
(b) x86 emulator adapted from libx86emu to compile under Windows
(c) Several halt deciders and their sample inputs contained within Halt7.c
https://liarparadox.org/2022_09_07.zip
 
4 hours later…
MisterMiyagi
MisterMiyagi
07:51
@polcott and as you have repeatedly mentioned, H cannot do this computation in recursion
That it can do so at the top level is not enough
Out of interest, what happens when main does not cal H to check if P halts not calls P directly?
Typo there…
but calls P directly
@polcott that is your specification. The conventional proof relies on a general halting solver which must always return a value.
By modifying it like that, you shift around the contradiction - from the proof to the spec- but you don’t eliminate it.
 
7 hours later…
polcott
polcott
15:20
@MisterMiyagi I can't tell what you are saying.
polcott
polcott
16:17
@MisterMiyagi Simulating Halt Deciders (SHD) compute the mapping from their inputs to an accept or reject state on the basis of the behavior of their correct simulation of this input. Non-inputs are never in the domain of any computable function.
 
4 hours later…
polcott
polcott
20:23
@MisterMiyagi On this basis H does correctly report on the actual non-halting behavior of its input and the contradiction is abolished.

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