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On 8/8/2024 3:13 AM, Mikko wrote:The ranges of "each HHH" and "every HHH" are not defined aboveOn 2024-08-08 04:41:11 +0000, olcott said:void DDD()
On 8/7/2024 8:22 PM, Richard Damon wrote:Every one can see that Olcott is trying to get wayOn 8/7/24 9:12 PM, olcott wrote:On 8/7/2024 8:03 PM, Richard Damon wrote:But the problem is that you HHH ODESN'T correctly emulate the DDD it is given, because it aborts its emulation.On 8/7/24 2:14 PM, olcott wrote:I really think that you must be a liar here becauseOn 8/7/2024 1:02 PM, joes wrote:But it doesn't, as a correct simulation of a DDD that calls an HHH that returns will stop running,Am Wed, 07 Aug 2024 08:54:41 -0500 schrieb olcott:void DDD()On 8/7/2024 2:29 AM, Mikko wrote:On 2024-08-05 13:49:44 +0000, olcott said:It doesn't change anything about DDD. HHH was supposed to decide anythingI know what it means. But the inflected form "emulated" does not meanIn other words when DDD is defined to have a pathological relationship
what you apparently think it means. You seem to think that "DDD
emulated by HHH" means whatever HHH thinks DDD means but it does not.
DDD means what it means whether HHH emulates it or not.
to HHH we can just close our eyes and ignore it and pretend that it
doesn't exist?
and can't fulfill that promise. That doesn't mean that DDD is somehow
faulty, it's just a counterexample.
{
HHH(DDD);
return;
}
*HHH is required to report on the behavior of DDD*
Anyone that does not understand that HHH meets this criteria
has insufficient understanding.
you have known this for years:
On 8/2/2024 11:32 PM, Jeff Barnett wrote:
> ...In some formulations, there are specific states
> defined as "halting states" and the machine only
> halts if either the start state is a halt state...
> ...these and many other definitions all have
> equivalent computing prowess...
Anyone that knows C knows that DDD correctly simulated
by any HHH cannot possibly reach its "return" {halt state}.
with ad-hominem instead of staying on topic.
{
HHH(DDD);
return;
}
Each HHH of every HHH that can possibly exist definitely
*emulates zero to infinity instructions correctly* In
none of these cases does the emulated DDD ever reach
its "return" instruction halt state.
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