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On 8/10/2024 5:47 PM, Richard Damon wrote:But it isn't a false assemption, but an actual requirement.On 8/10/24 6:41 PM, olcott wrote:The key error of the halting problem proofs all of theseOn 8/10/2024 4:53 PM, Richard Damon wrote:>On 8/10/24 5:37 PM, olcott wrote:>On 8/10/2024 4:33 PM, Richard Damon wrote:>On 8/10/24 5:18 PM, olcott wrote:>On 8/10/2024 3:58 PM, Richard Damon wrote:>On 8/10/24 4:36 PM, olcott wrote:>>>
As I have countlessly proven it only requires enough correctly
emulated steps to correctly infer that the input would never
reach is "return" instruction halt state.
Except that HHH does't do that, since if HHH decides to abort and return, then the DDD that it is emulating WILL return, just after HHH has stopped its emulation.
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You just confuse the behavior of DDD with the PARTIAL emulation that HHH does, because you lie about your false "tautology".
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Denying a tautology seems to make you a liar. I only
say "seems to" because I know that I am fallible.
Claiming a false statement is a tautology only make you a liar.
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In this case, you lie is that the HHH that you are talking about do the "correct emulation" you base you claim on.
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That is just a deception like the devil uses, has just a hint of truth, but the core is a lie.
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What I say is provably correct on the basis of the
semantics of the x86 language.
Nope.
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The x86 language says DDD will Halt if HHH(DDD) returns a value.
HHH is called by main() there is no directly executed DDD()
any where in the whole computation.
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Except in your requirements, and we can see what it does by adding a call to DDD from main, since nothing in your system calls main.
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All that you need to know is that there is not any
directly executed DDD() anywhere in the computation.
But there ccould be, and the behavior of it is what matters.
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years has been the false assumption that a halt decider
must report on the behavior of the computation that itself
is contained within.
Everyone has simply assumed that the behavior of theBecause that is the DEFINITION of what it is to decide on.
input to a decider must exactly match the direct execution
of this input. They only did this because everyone rejected
simulation out-of-hand without review.
This caused them to never notice that the input simulatedNope, just shows you don't know what "Correct" means.
according to its correct semantics does call its own decider
in recursive simulation thus cannot possibly return to its
caller. The Linz proof is sufficiently isomorphic so this equally
applies to the Linz TM proof.
If HHH were to report on the direct execution of DDD it wouldNope. Since the mapping that it is supposed to compute is DEFINED as based on the direct exectut
be breaking the definition of a halt decider that only computes
the mapping from its input...
You might not be open-minded or smart enough to understandNope, you are just showing you don't understand what you are talking about.
this. Mike may be smart enough if he can manage to be
open-minded enough to pay attention to every single detail
of what I said without leaping to the conclusion that I must be
wrong. Ben understood this more deeply than anyone else.
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