Liste des Groupes | Revenir à theory |
On 7/28/2024 2:50 AM, Fred. Zwarts wrote:It doesn't even get the answer correct.Op 27.jul.2024 om 22:05 schreef olcott:On 7/27/2024 2:55 PM, Fred. Zwarts wrote:Op 27.jul.2024 om 21:27 schreef olcott:On 7/27/2024 1:50 PM, Fred. Zwarts wrote:Op 26.jul.2024 om 22:14 schreef olcott:On 7/26/2024 2:46 PM, Mike Terry wrote:On 26/07/2024 16:56, olcott wrote:If HHH gets the correct answer in an impure way then it onlyMike: It seems that HHH has been a pure function of its inputs>
and never has provided data downward to its slaves that corrupts
their halt status decision. They don't even make a halt status
decision thus cannot make a corrupted one.
Well, the first two claims are literally untrue - outer HHH
effectively uses the static mutable data to pass flags to the
inner HHH that modify its behaviour. The Root flag below is
derived from the actual static data and causes inner HHH to
totally skip its own abort logic!
You seem to acknowledge this, but claim it does not matter for
various reasons, because whatever mistakes you are making, what
finally gets printed out is saying the right thing!
>
counts that it gets it in an impure way if it is impossible to get
in a pure way. This makes it possible for HHH to get this answer
in a pure way:
Of course HHH can't abort its not-aborting simulation if you commentI commented the whole block of code out that does the abort so that HHH>>Mike Terry is right that a simulator has access to the internalI know this and agree with him on this.
state of the simulated machine, but he did not say that it is
correct to *change in this way* the state of the simulated machine.
Changing the state of the simulated machine is cheating.
>Of course a simulator can modify the input before of during the>
simulation.
No that is cheating too.
That is exactly what you do when you change the value of the variable
'Root'. 'Root' is a hidden input for HHH.
If you had sufficient understanding of the x86 language you would know
that DDD is correctly emulated by HHH.
If you understood only a little bit of x86, you would know that
changing the value of a variable (like Root), will modify the behaviour
of a program, making a cheating simulator.
is just a simulator and not a termination analyzer and it just keeps on
running until the instruction limited of 50,000,000 instructions have
been emulated. Every recursive emulation take about 100-fold more steps
than the prior one.
No, it is not. HHH should see that HHH can abort.HHH(Infinite_Recursion) sees the non-halting pattern below.All of the issues that Mike bought up have nothing to do with correctSo, why do you bring up x86?
emulation. They only pertain to how the halt status decision is
derived.
But you keep talking about a halt status. E.g. that the simulator must
abort to halt a non-halting program.
You are twisting the meaning of simulator often, as you think that
aborting is part of a simulation.
You seem to think that aborting is part of the semantics of the x86
language.
That the halt status decision is proven to be correct on the basisProof by example fails.
that its behavior pattern exactly matches this infinite recursion
behavior pattern is proven.
That the simulation is incorrect is because HHH (and apparently its
programmer) think that a two level recursion is an infinite recursion.
HHH is simply unable to decide about comparable finite recursions.
void Finite_Recursion (int N) {
if (N > 0) Finite_Recursion (N - 1);
}
It decides after N recursions that there is an infinite recursion,
which is incorrect.
This *is* the exact same pattern that HHH(DDD) sees.
The first three lines of _Infinite_Recursion() repeat and there are noOnly your HHH does have an (incorrectly unreachable) branch:
conditional branch in that sequence that can possibly keep it from
repeating forever.
Les messages affichés proviennent d'usenet.