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On 8/20/2024 6:18 PM, Richard Damon wrote:Professor Sipser did not agree with any half, only the complete sentence.On 8/20/24 9:09 AM, olcott wrote:No it cannot possibly mean that or professor SipserOn 8/19/2024 11:02 PM, Richard Damon wrote:Right, so the decider needs top be able to show that its exact input will not halt.On 8/19/24 11:50 PM, olcott wrote:*attempts to use misdirection to weasel word around this are dismissed*On 8/19/2024 10:32 PM, Richard Damon wrote:So, you only prove that the DDD∞ that calls the HHH∞ is non-halting.On 8/19/24 10:47 PM, olcott wrote:Yes that is correct.*Everything that is not expressly stated below is*Looks like you still have this same condition.
*specified as unspecified*
I thought you said you removed it.
void DDD()But it can't emulate DDD correctly past 4 instructions, since the 5th instruciton to emulate doesn't exist.
{
HHH(DDD);
return;
}
_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]
*It is a basic fact that DDD emulated by HHH according to*
*the semantics of the x86 language cannot possibly stop*
*running unless aborted* (out of memory error excluded)
And, you can't include the memory that holds HHH, as you mention HHHn below, so that changes, but DDD, so the input doesn't and thus is CAN'T be part of the input.
X = DDD emulated by HHH∞ according to the semantics of the x86 languageAnd neither X or Y are possible.
Y = HHH∞ never aborts its emulation of DDD
Z = DDD never stops running
The above claim boils down to this: (X ∧ Y) ↔ Z
x86utm takes the compiled Halt7.obj file of this c programWhich is irrelevent and a LIE as if HHHn is part of the input, that input needs to be DDDn
https://github.com/plolcott/x86utm/blob/master/Halt7.c
Thus making all of the code of HHH directly available to
DDD and itself. HHH emulates itself emulating DDD.
And, in fact,
Since, you have just explicitly introduced that all of HHHn is available to HHHn when it emulates its input, that DDD must actually be DDDn as it changes.
Thus, your ACTUAL claim needs to be more like:
X = DDD∞ emulated by HHH∞ according to the semantics of the x86 language
Y = HHH∞ never aborts its emulation of DDD∞
Z = DDD∞ never stops running
The above claim boils down to this: (X ∧ Y) ↔ Z
Not any of the other DDDn
But only for DDD∞, not any of the other ones.Your problem is that for any other DDDn / HHHn, you don't have Y so you don't have Z.
void EEE()Nope, HHHn can form a valid inductive proof of the input.
{
HERE: goto HERE;
}
HHHn correctly predicts the behavior of DDD the same
way that HHHn correctly predicts the behavior of EEE.
It can't for DDDn, since when we move to HHHn+1 we no longer have DDDn but DDDn+1, which is a different input.You already agreed that (X ∧ Y) ↔ Z is correct.
Did you do an infinite trace in your mind?
If you can do it and I can do it then HHH canBut HHHn isn't given DDD∞ as its input, so that doesn't matter.
do this same sort of thing. Computations are
not inherently dumber than human minds.
HHHn is given DDDn as its input,
Remeber, since you said that the input to HHH includes all the memory, if that differs, it is a DIFFERENT input, and needs to be so marked.
You are just admittig that you are just stupid and think two things that are different are the same.
*attempts to use misdirection to weasel word around this are dismissed*
*attempts to use misdirection to weasel word around this are dismissed*
<MIT Professor Sipser agreed to ONLY these verbatim words 10/13/2022>
If simulating halt decider H correctly simulates its input D
until H correctly determines that its simulated D would never
stop running unless aborted then
would not agreed to the second half:
H can abort its simulation of D and correctly report that D--
specifies a non-halting sequence of configurations.
</MIT Professor Sipser agreed to ONLY these verbatim words 10/13/2022>
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