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On 10/19/2024 4:53 PM, Richard Damon wrote:But that isn't what the question being asked is, it is (or you claim it to be) about Termination, which is about the behavior of the PROGRAM / FUNCITON (with all its used code) not about a partial emulation of it.On 10/19/24 7:26 AM, olcott wrote:You are directly contradicting the verified fact that DDDOn 10/19/2024 6:21 AM, Richard Damon wrote:>On 10/18/24 11:19 PM, olcott wrote:>On 10/18/2024 9:49 PM, Richard Damon wrote:>On 10/18/24 8:52 PM, olcott wrote:>On 10/18/2024 6:06 PM, Richard Damon wrote:>On 10/18/24 10:10 AM, olcott wrote:>On 10/18/2024 6:17 AM, Richard Damon wrote:>On 10/17/24 11:47 PM, olcott wrote:>On 10/17/2024 10:27 PM, Richard Damon wrote:>On 10/17/24 9:47 PM, olcott wrote:>On 10/17/2024 8:13 PM, Richard Damon wrote:>On 10/17/24 7:31 PM, olcott wrote:>_DDD()>
[00002172] 55 push ebp ; housekeeping
[00002173] 8bec mov ebp,esp ; housekeeping
[00002175] 6872210000 push 00002172 ; push DDD
[0000217a] e853f4ffff call 000015d2 ; call HHH(DDD)
[0000217f] 83c404 add esp,+04
[00002182] 5d pop ebp
[00002183] c3 ret
Size in bytes:(0018) [00002183]
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When DDD is correctly emulated by HHH according
to the semantics of the x86 language DDD cannot
possibly reach its own machine address [00002183]
no matter what HHH does.
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+-->[00002172]-->[00002173]-->[00002175]-->[0000217a]--+
+------------------------------------------------------+
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That may not line up that same way when view
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https://en.wikipedia.org/wiki/State_diagram
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Except that 0000217a doesn't go to 00002172, but to 000015d2
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IS THIS OVER YOUR HEAD?
What is the first machine address of DDD that HHH
emulating itself emulating DDD would reach?
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Yes, HHH EMULATES the code at that address,
Which HHH emulates what code at which address?
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Everyone, just once, which you should know, but ignore.
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The Emulating HHH sees those addresses at its begining and then never again.
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Then the HHH that it is emulating will see those addresses, but not the outer one that is doing that emulation of HHH.
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Then the HHH that the second HHH is emulating will, but neither of the outer 2 HHH.
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And so on.
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Which HHH do you think EVER gets back to 00002172?
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What instruction do you think that it emulates that would tell it to do so?
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It isn't the call instruction at 0000217a, as that tells it to go into HHH.
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At best the trace is:
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00002172
00002173
00002175
0000217a
conditional emulation of 00002172
conditional emulation of 00002173
conditional emulation of 00002175
conditional emulation of 0000217a
CE of CE of 00002172
...
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OK great this is finally good progress.
>The "state" never repeats, it is alway a new state,>
Every emulated DDD has an identical process state at every point
in its emulation trace when adjusting for different top of stack values.
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Nope, remember, each of those levels are CONDITIONAL,
*There are THREE different questions here*
(1) Can DDD emulated by HHH according to the semantics
of the x86 language possibly reach its machine address
[00002183] no matter what HHH does?
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Ambiguouse question, as pointed out previously.
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A) Do you mean the behavior of the PROGRAM DDD, that HHH has emulated a copy of.
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In that case, the answer is, if HHH aborts its emulation and return, YES, if HHH never aborts its emulation, and thus doesn't ever return an answer to anyone NO.
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B) If you mean, does the emulation done by HHH ever reach that place, no.
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We are not asking if the code of HHH reaches inside
the code of DDD. Of course it doesn't this is stupid.
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We are asking does any DDD of any DDD/HHH pair of the
infinite set of pairs such that DDD is emulated by HHH
according to the semantics of the x86 language reach its
own return instruction?
>>>(2) Does HHH correctly detect and report the above?>
No, because that isn't what you claim HHH is doing, so it can't be correct about that.
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In other words you fail to comprehend that DDD failing
to reach its "return" instruction is isomorphic to:
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On 10/14/2022 7:44 PM, Ben Bacarisse wrote:
> ... PO really /has/ an H
> (it's trivial to do for this one case) that correctly determines
> that P(P) *would* never stop running *unless* aborted.
>We need to look at the two possible interpreations to question 1.>
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If you means A, then since HHH says no but the correct answer is yes, it is wrong.
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If you mean B, and you mean your question is can HHH predict that it can't reach the final state, but only needs to be right for this one input, then the problem is the question has become trivial, if it doesn't need to actually know anything about the input, it can just be programmed to say no.
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I mean that the execution trace of DDD proves that HHH is correct
to reject DDD as impossibly reaching its own "return" instruction
even if it just guesses.
>Also, we can make a trivial HHH, that just does the absolute minimum, then aborts and returns no unconditionally to be correct, showing your problem isn't interesting.>
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Or, your "problem" has left the domain of Program Theory, becuause you don't consider DDD to be an actual program, at which point it also becomes much less interesting.
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(3) Does HHH do (2) it as a Turing computable function?
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No, because the method your HHH uses isn't possible to be expressed as a Turing Machine with a seperate input tape with the full representatation of the program DDD.
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Yet again you are not answering the question that
was asked. This must be your ADD.
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The summation is the DDD does not halt and HHH
does correctly report this even if HHH as it is
currently implemented is not a Turing computable
function.
But the Program DDD DOES halt,
*Try and tell that to ChatGPT and it will make a fool of you*
https://chatgpt.com/share/6709e046-4794-8011-98b7-27066fb49f3e
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Copyright 2024 Olcott "Talent hits a target no one else can hit; Genius
hits a target no one else can see." Arthur Schopenhauer
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Ignore any false information about the definiton of a termination analyzer, and recall that the correct answer to a question given to a termination analyzer is that it must report about the actual behavior of the program that it has been given,
emulated by HHH according to the semantics of the x86 language
cannot possibly reach its own "return" instruction and halt.
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