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Path: ...!weretis.net!feeder9.news.weretis.net!i2pn.org!i2pn2.org!.POSTED!not-for-mail From: Richard Damon <richard@damon-family.org> Newsgroups: comp.theory,sci.logic Subject: Re: H(D,D) cannot even be asked about the behavior of D(D) --- Dogma Date: Sat, 22 Jun 2024 09:38:23 -0400 Organization: i2pn2 (i2pn.org) Message-ID: <v56k4f$onl4$3@i2pn2.org> References: <v45tec$4q15$1@dont-email.me> <v51ge4$2kbbe$2@dont-email.me> <v52mil$jund$6@i2pn2.org> <v52n3h$2v5s6$1@dont-email.me> <v52p32$jund$7@i2pn2.org> <v52pht$2vh9u$1@dont-email.me> <v52qat$jund$9@i2pn2.org> <v52s4l$2vlma$1@dont-email.me> <v52td1$june$1@i2pn2.org> <v52tul$307ee$1@dont-email.me> <v5435h$lkkb$4@i2pn2.org> <v54bcf$38n2k$1@dont-email.me> <v54buj$lkkc$4@i2pn2.org> <v54cia$38n2k$3@dont-email.me> <v54d41$lkkc$6@i2pn2.org> <v54dqe$394bf$1@dont-email.me> <v54eko$lkkb$7@i2pn2.org> <v54g5b$394bf$3@dont-email.me> <v54hhp$lkkb$9@i2pn2.org> <v54i77$39s3a$2@dont-email.me> <v54iul$lkkc$9@i2pn2.org> <v54jo6$3a7vo$1@dont-email.me> <v54kik$lkkb$10@i2pn2.org> <v54l91$3a7vo$3@dont-email.me> <v54m58$lkkc$12@i2pn2.org> <v54p66$3b4at$1@dont-email.me> <v54q7i$lkkc$13@i2pn2.org> <v54r4g$3bg8o$1@dont-email.me> <v54scd$lkkb$11@i2pn2.org> <v55289$3cthh$1@dont-email.me> <v552tf$lkkb$13@i2pn2.org> <v55fn7$3irer$1@dont-email.me> <v56hs2$onl3$1@i2pn2.org> <v56ijs$3or0r$5@dont-email.me> MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8; format=flowed Content-Transfer-Encoding: 8bit Injection-Date: Sat, 22 Jun 2024 13:38:23 -0000 (UTC) Injection-Info: i2pn2.org; logging-data="810660"; mail-complaints-to="usenet@i2pn2.org"; posting-account="diqKR1lalukngNWEqoq9/uFtbkm5U+w3w6FQ0yesrXg"; User-Agent: Mozilla Thunderbird Content-Language: en-US In-Reply-To: <v56ijs$3or0r$5@dont-email.me> X-Spam-Checker-Version: SpamAssassin 4.0.0 Bytes: 8513 Lines: 153 On 6/22/24 9:12 AM, olcott wrote: > On 6/22/2024 7:59 AM, Richard Damon wrote: >> On 6/21/24 11:16 PM, olcott wrote: >>> On 6/21/2024 6:38 PM, Richard Damon wrote: >>>> On 6/21/24 7:27 PM, olcott wrote: >>>>> On 6/21/2024 4:46 PM, Richard Damon wrote: >>>>>> On 6/21/24 5:25 PM, olcott wrote: >>>>>>> On 6/21/2024 4:10 PM, Richard Damon wrote: >>>>>>>> On 6/21/24 4:52 PM, olcott wrote: >>>>>>>>> On 6/21/2024 3:00 PM, Richard Damon wrote: >>>>>>>>>> On 6/21/24 3:45 PM, olcott wrote: >>>>>>>>>>> On 6/21/2024 2:33 PM, Richard Damon wrote: >>>>>>>>>>>> On 6/21/24 3:19 PM, olcott wrote: >>>>>>>>>>>>> int sum(int x, int y){ return x + y; } >>>>>>>>>>>>> When this program is asked: sum(3,4) this maps to 7. >>>>>>>>>>>>> When this program is asked: sum(5,6) this DOES NOT map to 7. >>>>>>>>>>>> >>>>>>>>>>>> Right. >>>>>>>>>>>> >>>>>>>>>>>>> >>>>>>>>>>>>> When H is asked H(D,D) this maps to D correctly simulated >>>>>>>>>>>>> by H. >>>>>>>>>>>>> When H is asked H(D,D) this DOES NOT map to behavior that >>>>>>>>>>>>> halts. >>>>>>>>>>>>> >>>>>>>>>>>>> >>>>>>>>>>>> >>>>>>>>>>>> Nope. H(M,d) is DEFINED (if it is correct) to determine if >>>>>>>>>>>> M(d) will Halt. >>>>>>>>>>>> >>>>>>>>>>> >>>>>>>>>>> If one "defines" that the input to H(D,D) maps to the behavior >>>>>>>>>>> of D(D) yet cannot show this because it does not actually >>>>>>>>>>> map to that behavior *THEN THE DEFINITION IS SIMPLY WRONG* >>>>>>>>>> >>>>>>>>>> But we CAN show that it maps to the behavior of D(D) (at least >>>>>>>>>> when the representation of D includes the H that is giving the >>>>>>>>>> 0 answer) by just runnig it and seeing what it does. >>>>>>>>>> >>>>>>>>> >>>>>>>>> No you cannot show that the mapping for the input to >>>>>>>>> H(D,D) maps to the behavior of D(D). >>>>>>>> >>>>>>>> The DEFINITION of a Halt Decider gives what H is SUPPOSED to do, >>>>>>>> if it is one. >>>>>>>> >>>>>>>> You claim it is a correct Halt decider >>>>>>>> >>>>>>> >>>>>>> When we do not simply make false assumptions about the >>>>>>> behavior that the input to H(D,D) specifies: >>>>>>> That the call from D correctly simulated by H to H(D,D) returns >>>>>> >>>>>> What "False Assumption"? >>>>>> >>>>>> You just are ignorant of the DEFINTION of the problem. >>>>>> >>>>> >>>>> *DOGMA DOES NOT COUNT AS SUPPORTING REASONING* >>>>> *DOGMA DOES NOT COUNT AS SUPPORTING REASONING* >>>>> *DOGMA DOES NOT COUNT AS SUPPORTING REASONING* >>>> >>>> But DEFINITIONS DO. >>>> >>>>> >>>>> To "define" that the call from the D correctly simulated >>>>> by H to H(D,D) returns when the actual facts prove that >>>>> this call *DOES NOT RETURN* is ultimately unreasonable >>>>> because *THERE IS NO REASONING* that supports this. >>>>> >>>> >>>> But that isn't the definition that we are using. >>>> >>>> NOTHING talks about the correct simulation BY H, except the invalid >>>> and broken Olcott-Computation theory, which we are not using here. >>> >>> NOTHING talks about the correct simulation of D ONLY because >>> I am the sole inventor of simulating halt deciders that no one >>> ever thought ALL-THE-WAY through before. >> >> Which means it CAN'T be the definition of the criteria for the Halting >> Problem. >> >> So, you are just ADMITTING that you are LYING about working on the >> ACTUAL halting problem, but are just trying to fabricate a new >> Olcott-Halting Problem, based on Olcott-Halting that no one else cares >> about. >> >>> >>> The semantics of the x86 language conclusively proves as a verified >>> fact that the behavior that D specifies to H is different than the >>> behavior that D specifies to H1. >> >> Nope. Which instruction, correctly simulated was different between the >> "Correct simulation by H" and the actual execution. >> >> It seems, as I best understand your claim, that will you claim to be >> actually simulating the actual x86 instructions, your "Correct >> Simulation" somehow knows that the call H shouldn't actually simulate >> the x86 instructions that it goes to, but instead, act like the >> effective results of the function you want H to be. THAT is NOT >> "Correct x86 simulation", or correct simulation of any form. >> >> The key point is that even just a functional simulation need the >> simulation of H(D,D) to do the same thing that H(D,D) does, which in >> this case is to return 0. >> >>> >>> You cannot simply correctly ignore that the pathological relationship >>> that D calls H(D,D) and does not call H1(D,D) changes the behavior of >>> D between these two cases. >>> >> >> But that relationship doesn't affect what a correct simulation is. It >> might make it IMPOSSIBLE for H to completely correctly simulate its >> input, or prove that such a simulation will actually go on forever, >> but it doesn't change what a correct simulation is. > > It is a verified fact that the behavior that finite string DDD presents > to HH0 is that when DDD correctly simulated by HH0 calls HH0(DDD) that > this call DOES NOT RETURN. > > It is a verified fact that the behavior that finite string DDD presents > to HH1 is that when DDD correctly simulated by HH0 calls HH1(DDD) that > this call DOES RETURN. > > I don't get why people here insist on lying about verified facts. > > The problem is that the "behavior" that the finite string DDD presents to HH0, is DEFINED by the problem. And if that problem is the Halting Problem, that behavior is the behavior of the machine the input represents. If HH0 treats the input as having a different behavior, then HH0 just isn't a Halting Decider, but something else. If HH0 is supposed to be a Halting decider, but uses a method that makes it see something other than that behavior, then it is just an incorrect Halting Decider, and its algorithm just creates an incorrect recreation of the property of the input it is supposed to be working on. A bit of a side note, the actual "Input" to HH0, is a pointer to memory, and as such it passes a reference to ALL of memory considering the starting point to be that address, so your "Input" isn't actually the few bytes of DDD, but ALL of memory and a starting point. If you actually mean that the input is just those few bytes pointed to by the address, then the input is improperly formed and is NOT a proper representation of the input machine, becuase it is incomplete. The fact you don't understand this, seems to imply you are lacking the basic knowledge to be talking about this sort of thing.