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On 15/07/2024 01:20, joes wrote:When emulated DDD calls HHH(DDD) the outer HHH emulates itselfAm Sun, 14 Jul 2024 09:00:55 -0500 schrieb olcott:PO seems not to want to answer you, as I notice you've asked this question more than once and PO dodges a direct response, so I'll try. (Alternatively, PO has provided a link to his source code in the past, so if you can find that link you can just look the answer yourself - the functions are all in his halt7.c file, which is compiled but not linked, then the obj file is interpreted within his x86utm.exe (source also given in the link. The link might not reflect his current code??)On 7/14/2024 3:29 AM, joes wrote:>Am Sat, 13 Jul 2024 18:33:53 -0500 schrieb olcott:On 7/13/2024 6:26 PM, joes wrote:Can you elaborate? All runtime instances share the same static code.
I am talking about the inner HHH which is called by the simulated
DDD. That one is, according to you, aborted. Which is wrong, because
by virtue of running the same code, the inner HHH aborts ITS
simulation of DDD calling another HHH.>What are the twins and what is their difference?
Do you disagree with my tracing?
>The directly executed DDD is like the first call of infinite recursion.Not really. Execution does not continue.
The emulated DDD is just like the second call of infinite recursion.
When the second call of infinite recursion is aborted then the first
call halts.void Infinite_Recursion()That would be incorrect.
{
Infinite_Recursion();
}
The above *is* infinite recursion.
A program could emulate the above code and simply skip line 3 causing
Infinite_Recursion() to halt.
>When DDD calls HHH(DDD) HHH returns.Therefore it does not need to be aborted.When DDD correctly emulated by HHH the call never returns as is provenI do not see this below.
below. The executed DDD() has HHH(DDD) skip this call.HHH(DDD) must skip this call itself by terminating the whole DDD>
process.Because this HHH does not know its own machine address HHH only sees>
that DDD calls a function that causes its first four steps to be
repeated. HHH does not know that this is recursive simulation. To HHH it
looks just like infinite recursion.New slave_stack at:1038c4 -- create new process context for 1st DDD>
Begin Local Halt Decider Simulation Execution Trace Stored at:1138cc[0000217a][001138b4][0000217f] e853f4ffff call 000015d2 ; call HHH(DDD)>
New slave_stack at:14e2ec -- create new process context for 2nd DDD[0000217a][0015e2dc][0000217f] e853f4ffff call 000015d2 ; call HHH(DDD)How is this detected?
Local Halt Decider: Infinite Recursion Detected Simulation Stopped
Anyhow, this is what I reckon...
HHH [outer HHH only!] examines a global trace table of simulated instruction (from all simulation levels merged together). The particular message "Infinite Recursion Detected Simulation Stopped" seems to be issued when:
- last instruction is a CALL
- working backwards through the merged trace table, another CALL is encountered
- ..which is issued at the same address
- ..and is calling to the same address
- ..and no "conditional branch" instructions occur in the trace table
between the two call instructions
KEY TO NOT BEING MISLED BY THE ABOVE:
0. The "Infinite Recursion Detected Simulation Stopped" message is just a printf.
It does not prove that /actual/ infinite recursion was detected - on the contrary,
all here but PO realise that the recursion detected is just finite recursion.
1. The trace table being examined is NOT an x86 processor trace - it is a
"merged simulation trace" containing entries for ALL SIMULATION LEVELS.
So the two CALL instructions are not referring to one single x86 processor.
Typically, the last call instruction is from a deeper nested simulation*I have boiled it all down to this simple tautology*
than the earlier detected call instruction. The outer simulations are all
still running, but do not appear in the trace table or logs presented by PO
due to the next note.
2. The searched trace table is filtered to only contain instructions within the C
function D/DD/DDD/.. !!
YES, YOU READ THAT RIGHT! ALL CODE IN HHH IS TOTALLY IGNORED, INCLUDING
THE CONDITIONAL BRANCH INSTRUCTIONS THAT ARE TESTING THE VERY ABORT TESTS
THAT CAUSE OUTER HHH TO ABORT.
3. Inner HHH's do not perform the same tests as above, because they inspect a global
variable which tells them they are inner HHH's. Yeah, that means the simulation
is completely broken logically... [but... the outer HHH will abort first, so
PO might argue the outcome will be the same, even though logically it is
broken...]
> Is it also triggered when calling a function
> in a loop?
Not sure what you mean. Calling a function in a loop ends if the loop ends, right? What loop are you thinking of?
Anyhow, provided the call instructions are physically located in function D() [i.e. not H() or something called from H] I guess it would match. But the C function D has only one call instruction, which isn't in a loop!
Regards,
Mike.
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