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As the Documentation says, "DumpSave writes out definitions in a binary format that is optimized for input by Mathematica." Is there a way to convert a Mathematica binary dump file back to the list of definitions without evaluating them? Import["file.mx","HeldExpression"] does not work...

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A possible work around is that you could DumpSave all of the "*Values" then load them back in... Or you could start a new, temporary context then run Get["file.mx"] and examine all of the definitions in that context. –  Simon Aug 5 '11 at 12:00
    
@Simon "file.mx" can create its own context(s) and add additional definitions in any of the existing contexts. And even worse, it can add or partially change definitions for existing symbols. So it is probably very hard to recover its definitions just by comparison of two states of the system. –  Alexey Popkov Aug 5 '11 at 12:07
    
True. And the first option I gave isn't very satisfactory. Let's hope someone has some better ideas / understanding than me! –  Simon Aug 5 '11 at 12:52
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@Simon The one thing I lay my hopes is that the format of the dump files used by Mathematica is not unique and it uses just some standard method of creating dump files. So it is probably possible to decode such files if someone just knows this standard (if it exists, of course, but I strongly suspect that it is). –  Alexey Popkov Aug 5 '11 at 12:58
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A bit of googling led me to the perl script: Mathematica Disassembler. It didn't work for me (maybe 'cause I'm running 64bit linux and the script is for x86 .mx files). Maybe you'll have better luck. –  Simon Aug 5 '11 at 13:25

1 Answer 1

DumpSave stores values associated with the symbol, i.e. OwnValues, DownValues, UpValues, SubValues, DefaultValues, NValues, FormatValues.

All the evaluation was done in the session on Mathematica, and then DumpSave saved the result of it.

These values are stored in internal formal. Reading the MX files only creates symbols and populates them with these values by reading this internal format back, bypassing the evaluator.

Maybe you could share the problem that prompted you to ask this question.


[EDIT] Clarifying on the issue raised by Alexey. MX files save internal representation of symbol definitions. It appears that Mathematica internally keeps track of:

f[x_Real] := x^2 + 1
DumpSave[FileNameJoin[{$HomeDirectory, "Desktop", "set_delayed.mx"}], 
  f];
Remove[f]
f[x_Real] = x^2 + 1;
DumpSave[FileNameJoin[{$HomeDirectory, "Desktop", "set.mx"}], f];
setBytes = 
  Import[FileNameJoin[{$HomeDirectory, "Desktop", "set.mx"}], "Byte"];
setDelayedBytes = 
  Import[FileNameJoin[{$HomeDirectory, "Desktop", "set_delayed.mx"}], 
   "Byte"];

One can, then, use SequenceAlignment[setBytes, setDelayedBytes] to see the difference. I do not know why it is done that way, but my point stands. All the evaluation on values constructed using Set has already been done in Mathematica session before they were saved by DumpSave. When MX file is read the internal representation is read back into Mathematica sessions, and no evaluation of loaded definitions is actually performed.

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A simple experiment shows that dump files restores immediate definitions too, not converting them to delayed definitions: f[x_Real]=x^2+1;DumpSave["f.mx",f];Clear[f];<<f.mx;Definition[f]. I do not know a way to achieve this just with ...Values. –  Alexey Popkov Aug 5 '11 at 17:06
    
A little illustration for the statement "the rules themselves do run through the evaluator": compare Clear[f];f[x_Real]=x^2+1;DumpSave["f.mx",f];Clear[f];f=a;<<f.mx;Definition[f] and Clear[f]; f = a; f[x_Real] = x^2 + 1; Definition[f]. –  Alexey Popkov Aug 9 '11 at 7:31
    
What is completely non-trivial here, so it is that immediate definitions like f[x_Real]=x^2+1; are restored as immediate, not delayed definitions. So the emphasized statement in the citation (emphasis added) "DumpSave stores values associated with the symbol, i.e. OwnValues, DownValues, UpValues, SubValues, DefaultValues, NValues, FormatValues. These values are stored as delayed rules" is obviously wrong. –  Alexey Popkov Aug 9 '11 at 7:33
    
@Alexey Yes, it is literally wrong, which you could also see making byte-wise comparison of MX files generated. But I fail to see what evaluation you are trying to prevent, unless you clarify this I am at loss as to what to add. I think it is intentional that reverse engineering of MX file is not straightforward, since lots of Mathematica's own code is stored that way. What you want amounts to reverse engineering content of MX file. –  Sasha Aug 9 '11 at 14:36
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Notice that Save saves a text file, and Mathematica must parse and evaluate these rules to convert them into internal format, while DumpSave saves internal structures, which are read back bypassing the evaluator. Because of this, setting x to any value does not affect what is read back. I get the correct value of 10.0 back after evaluating x = 1.0; Get[ FileNameJoin[{$HomeDirectory, "Desktop", "set.mx"}]]; f[3.0] So, I am still not seeing any issue. Can you post the code which exhibits the purported problem ? –  Sasha Aug 9 '11 at 15:41

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