[Bioc-devel] PROTECT errors in Bioconductor packages

Sat Apr 8 15:50:16 CEST 2017

On 04/08/2017 08:16 AM, Aaron Lun wrote:
> On 07/04/17 20:46, luke-tierney at uiowa.edu wrote:
>> On Fri, 7 Apr 2017, Hervé Pagès wrote:
>>
>>> On 04/07/2017 05:37 AM, luke-tierney at uiowa.edu wrote:
>>>>  On Fri, 7 Apr 2017, Hervé Pagès wrote:
>>>>
>>>>>  On 04/06/2017 03:29 AM, Michael Lawrence wrote:
>>>>>>  On Thu, Apr 6, 2017 at 2:59 AM, Martin Morgan
>>>>>>  <martin.morgan at roswellpark.org> wrote:
>>>>>>>  On 04/06/2017 05:33 AM, Aaron Lun wrote:
>>>>>>>>>>>>>>  The tool is not perfect, so assess each report
>>>> carefully.
>>>>>>  I get a lot of warnings because the tool seems to consider that
>>>>>  extracting an attribute (with getAttrib(x, ...)) or extracting the
>>>>>  slot of an S4 object (with GET_SLOT(x, ...) or R_do_slot(x, ...))
>>>>>  returns an SEXP that needs protection. I always assumed that it
>>>>>  didn't because my understanding is that the returned SEXP is pointing
>>>>>  to a part of a pre-existing object ('x') and not to a newly created
>>>>>  one. So I decided I could treat it like the SEXP returned by
>>>>>  VECTOR_ELT(), which, AFAIK, doesn't need protection.
>>>>>>  So I suspect these warnings are false positives but I'm not 100%
>>>> sure.
>>>>
>>>>  If you are not 100% sure then you should protect :-)
>>>>
>>>>  There are some cases, in particular related to compact row names on
>>>>  data frames, where getAttrib will allocate.
>>>
>>> Seriously? So setAttrib(x, ..., getAttrib) is not going to be a no-op
>>> anymore? Should I worry that VECTOR_ELT() will also expand some sort
>>> of compact list element? Why not keep these things low-level
>>> getters/setters that return whatever the real thing is and use
>>> higher-level accessors for returning the expanded version of the thing?
>>
>> Seriously: it's    been that way since r37807 in 2006.
>>
>> If you want to read about some related future directions you can look at
>> https://svn.r-project.org/R/branches/ALTREP/ALTREP.html.
>>
>> luke
>
> I was curious about this so I checked out what R-exts had to say
> involving set/getAttrib. Funnily enough, the example it gives in Section
> 5.9.4 seems to be incorrect in its UNPROTECTing.
>
> #include <R.h>
> #include <Rinternals.h>
>
> SEXP out(SEXP x, SEXP y)
> {
>      int nx = length(x), ny = length(y);
>      SEXP ans = PROTECT(allocMatrix(REALSXP, nx, ny));
>      double *rx = REAL(x), *ry = REAL(y), *rans = REAL(ans);
>
>      for(int i = 0; i < nx; i++) {
>          double tmp = rx[i];
>          for(int j = 0; j < ny; j++)
>              rans[i + nx*j] = tmp * ry[j];
>      }
>
>      SEXP dimnames = PROTECT(allocVector(VECSXP, 2));
>      SET_VECTOR_ELT(dimnames, 0, getAttrib(x, R_NamesSymbol));
>      SET_VECTOR_ELT(dimnames, 1, getAttrib(y, R_NamesSymbol));
>      setAttrib(ans, R_DimNamesSymbol, dimnames);
>
>
>      UNPROTECT(3);
>      return ans;
> }
>
> There are two PROTECT calls but an UNPROTECT(3), which triggers a stack
> imbalance warning upon trying to run .Call("out", ...) in R.

Yes, that should be UNPROTECT(2). svn blame says the error was 
introduced when allocMatrix() was introduced; prior to that the code had 
allocVector(), then set dim and dimnames.

As for whether to PROTECT or not, my analysis would be...

SET_VECTOR_ELT does not (currently) allocate (except on error) so there 
is no opportunity for the garbage collector to run, hence no need to 
PROTECT.

Further, getAttrib() (currently) allocates only if (1) the attribute is 
R_RowNamesSymbol and the row names are stored in compact format 
c(NA_integer_, nrow); or (2) the first argument is a classic pairlist or 
language SEXP. None of these conditions apply, so the return value of 
getAttrib() is PROTECTed anyway.

Luke's analysis would be more straight-forward: if in doubt, PROTECT.

I think Herve, Gabe, and perhaps Michael would take Luke's advice, and 
maybe also note that my advice, in addition to being an analysis of some 
surprisingly complicated code by a practitioner of dubious credibility, 
involves the current state of affairs, and you never know (and 
apparently ALTREP makes it less certain) what the future will hold. So 
they'd probably say PROTECT.

One might be tempted to write

      SET_VECTOR_ELT(dimnames, 0, PROTECT(getAttrib(x, R_NamesSymbol)));

but I'm not sure whether C guarantees that function arguments are fully 
evaluated, maybe it's legal for a compiler to evaluate getAttrib(), then 
do some more work with other arguments, then evaluate PROTECT(), so long 
as the overall logic is not disrupted. So the 'if in doubt' argument 
would make me write

     SEXP nms = PROTECT(getAttrib(x, R_NamesSymbol));
     SET_VECTOR_ELT(dimnames, 0, nms);

I think , in C is called a 'sequence point'. Google takes me to

   https://msdn.microsoft.com/en-us/library/azk8zbxd.aspx

where it seems like the left operand of ',' are fully evaluated before 
proceeding, and furthermore that arguments to functions are evaluated 
before entering the function, implying that it is safe to use the one-liner

      SET_VECTOR_ELT(dimnames, 0, PROTECT(getAttrib(x, R_NamesSymbol)));

At any rate I changed the example in R-exts to UNPROTECT(2), leaving the 
nuances for further discussion.

Martin

>
> Anyway, getting back to the topic of this thread; if we were to pretend
> that getAttrib() allocates in the above example, would that mean that
> both getAttrib() calls now need to be PROTECTed by the developer? Or is
> this handled somewhere internally?
>
>>>
>>> Thanks,
>>> H.
>>>
>>>>
>>>>  Best,
>>>>
>>>>  luke
>>>>
>>>>>>>>>>>>>>>>>  I also get a warning on almost every C++
>>>> function I've written,
>>>>>>>>  because
>>>>>>>>  I use the following code to handle exceptions:
>>>>>>>>>>>>       SEXP output=PROTECT(allocVector(...));
>>>>>>>>       try {
>>>>>>>>           // do something that might raise an exception
>>>>>>>>       } catch (std::exception& e) {
>>>>>>>>           UNPROTECT(1);
>>>>>>>>           throw; // break out of this part of the function
>>>>>>>>       }
>>>>>>>>       UNPROTECT(1);
>>>>>>>>       return output;
>>>>>>>>>>>>  Presumably the check doesn't account for transfer of
>>>> control to > > > >  the
>>>>>>>>  catch block. I find that R itself is pretty good at
>>>> complaining > > > >  about
>>>>>>>>  stack imbalances during execution of tests, examples, etc.
>>>>>>>>>>>>>  'My' packages
>>>>>>>>>  (Rsamtools, DirichletMultinomial) had several false
>>>> positives > > > > >  (all
>>>>>>>>>  associated with use of an attribute of a protected SEXP),
>>>> one > > > > >  subtle
>>>>>>>>>  problem (a symbol from a PROTECT'ed package name space;
>>>> the > > > > >  symbol
>>>>>>>>>  could
>>>>>>>>>  in theory be an active binding and the value obtained not
>>>>>>>>>  PROTECTed by
>>>>>>>>>  the name space), and a genuine bug
>>>>>>>>>>>>>>                  tag = NEW_CHARACTER(n);
>>>>>>>>>                  for (int j = 0; j < n; ++j)
>>>>>>>>>                      SET_STRING_ELT(tag, j, NA_STRING);
>>>>>>>>>                  if ('A' == aux[0]) {
>>>>>>>>>                      buf_A = R_alloc(2, sizeof(char));  #
>>>> <<- bug
>>>>>>>>>                      buf_A[1] = '\0';
>>>>>>>>>                  }
>>>>>>>>>                  ...
>>>>>>>>>                  SET_VECTOR_ELT(tags, i, tag); # PROTECT
>>>> tag, too
>>>>>>>>>  late!
>>>>>>>>>>>>>>>>  I assume the bug refers to the un-PROTECT'd
>>>> NEW_CHARACTER here - > > > >  the
>>>>>>>>  R_alloc call looks okay to me...
>>>>>>>>>>>>>  yes, tag needs protection.
>>>>>>>>>>  I attributed the bug to R_alloc because I failed to
>>>> reason that > > >  R_alloc
>>>>>>>  (obviously) allocates and hence can trigger a garbage collection.
>>>>>>>>>>  Somehow it reflects my approach to PROTECTion, probably
>>>> not shared > > >  by
>>>>>>>  everyone. I like to PROTECT only when necessary, rather than
>>>>>>>  indiscriminately. Probably this has no practical consequence in
>>>>>>>  terms of
>>>>>>>  performance, making the code a little easier to read at the
>>>> expense > > >  of
>>>>>>>  exposing me to bugs like this.
>>>>>>>>>>>  I guess it's a tradeoff between syntactic complexity
>>>> and logical
>>>>>>  complexity. You have to think pretty hard to minimize use of the
>>>>>>  protect stack.
>>>>>>  I prefer to call it logical obscurity ;-)
>>>>>>  The hard thinking consists in assessing whether or not the code
>>>> between
>>>>>  the line where a new SEXP is allocated (line X) and the line where
>>>>>  it's put in a safe place (line Y) can trigger garbage collection.
>>>>>  Hard to figure out in general indeed, but not impossible! Problem
>>>>>  is that the result of this assessment is valid at a certain point
>>>>>  in time but might change in the future, even if your code has not
>>>>>  changed.
>>>>>>  So a dangerous game for virtually zero benefits.
>>>>>>>>>  One recommendation might be to UNPROTECT() as soon as the
>>>> pointer on
>>>>>>  the top is unneeded, rather than trying to figure out the number to
>>>>>>  pop just before returning to R.
>>>>>>  If you PROTECT() in a loop, you definitely want to do that.
>>>> Otherwise,
>>>>>  does it make a big difference?
>>>>>>>>>  One thing that got me is that the order in which C
>>>> evaluates function
>>>>>>  call arguments is undefined. I did a lot of R_setAttrib(x,
>>>>>>  install("foo"), allocBar()), thinking that the symbol would be
>>>>>>  automatically protected, and allocBar() would not need protection,
>>>>>>  since it happened last. Unfortunately, it might be evaluated first.
>>>>>>  I got hit by this too long time ago but with defineVar() instead of
>>>>>  R_setAttrib():
>>>>>>
>>>> https://urldefense.proofpoint.com/v2/url?u=https-3A__stat.ethz.ch_pipermail_r-2Ddevel_2008-2DJanuary_048040.html&d=DwID-g&c=eRAMFD45gAfqt84VtBcfhQ&r=BK7q3XeAvimeWdGbWY_wJYbW0WYiZvSXAJJKaaPhzWA&m=FscW1HcPCwUqtMwKVFDfd1NyW0oHh0tJOPdFb3C1IWk&s=O3CcB-Z_OkVKaC1aV0aIc5SCDNqGQrkvGSmPf0TRAsw&e=
>>>>
>>>>>>  H.
>>>>>>>>>  Btw, I think my package RGtk2 got the record: 1952 errors.
>>>> Luckily
>>>>>>  almost all of them happened inside a few macros and autogenerated
>>>>>>  code.
>>>>>>>>>  Martin
>>>>>>>>>>>>>>>  Cheers,
>>>>>>>>>>>>  Aaron
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>>
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