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Thanks for leaving the unanswered questions in place, though I’d ratherThat you keep trying to ignore the fact that DDD calls HHH(DDD)
have you answer them.
Am Fri, 28 Jun 2024 12:05:18 -0500 schrieb olcott:On 6/28/2024 11:26 AM, joes wrote:Am Fri, 28 Jun 2024 10:25:36 -0500 schrieb olcott:On 6/28/2024 8:14 AM, joes wrote:Am Thu, 27 Jun 2024 12:30:38 -0500 schrieb olcott:Where do you disagree?To the caller DDD, which then returns to its own caller H0, which
returns „halting” to main… hold on.Do you see what I mean?H0 must not report on itself, only on DDD. Which you’ve proven halts.
We don’t care how H0 deviates (i.e. is incorrect) in its simulation.
That would be main {H0(H0(DDD))}.
Isn’t the input DDD?The behavior of the directly executed DDD() is irrelevant because thatWhat is the difference here?
is not the behavior of the input.
The input is not HHH(DDD). See above.In this case the sequence is the line-by-line execution trace of theNo, the sequence is the behaviour of DDD, period.
behavior of DDD correctly emulated by HHH.
Because it is a simulator.The behavior of this input must include and cannot ignore theYes, and the behaviour of H0 is that it produces the exact same
recursive emulation specified by the fact that DDD is calling its own
emulator.
behaviour as DDD.
The call from DDD to HHH(DDD) when N steps of DDD are correctly emulatedI don’t. A simulator doesn’t even need to return. That’s not in question.
by any pure function x86 emulator HHH cannot possibly return.
That you assume that it does against the facts is ridiculous.
A decider however must.
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