[Rd] Increase transparency: suggestion on how to avoid namespaces and/or unnecessary overwrites of existing functions

Janko Thyson janko.thyson.rstuff at googlemail.com
Tue Aug 23 20:23:43 CEST 2011


aDear list,

I'm aware of the fact that I posted on something related a while ago, 
but I just can't sweat this off and would like to ask your for an opinion:

The problem:
Namespaces are great, but they don't resolve certain conflicts regarding 
name clashes. There are more and more people out there trying to come up 
with their own R packages, which is great also! Yet, it becomes more and 
more likely that programmers will choose identical names for their 
exported functions and/or that they add functionality to existing 
function (i.e. overwriting existing functions).
The whole process of which packages overwrite which functions is 
somewhat obscure and in addition depends on their order in the search 
path. On the other hand, it is not possible to use "namespace" 
functionality (i.e. 'namespace::fun()'; also less efficient than direct 
call; see illustration below) during early stages of the development 
process (i.e. the package is not finished yet) as there is no namespace 
available yet.

I know of at least two cases where such overwrites (I think it's called 
masking, right?) led to some confusion at our chair:
1) loading package forecast overwrites certain functions in stats which 
made some code refactoring necessary
2) loading package 'R.utils' followed by package 'roxygen' overwrites 
'parse.default()' which results in errors for something like 
'eval(parse(text="a <- 1"))' ; see illustration below)
And I'm sure the community could come up with lots more of such scenarios.

Suggestions:
1) In order to avoid name clashes/unintended overwrites, how about 
switching to a coding paradigm that explicitly (and automatically) 
includes a package's name in all its functions' names once code is 
turned into a real package? E.g., getting used to "preemptively" type 
'package_fun()' or 'package.fun()' instead of just 'fun()'. Better to be 
save than sorry, right? This could be realized pretty easily (see 
example below) and, IMHO, would significantly increase transparency.
2) In order to avoid intended (but for the user often pretty obscure) 
overwrites of existing functions, we could use the same mechanism 
together with the "rule": just don't provide any functions that 
overwrite existing ones, rather prepend your version of that function 
with your package name and leave it up to the user which version he 
wants to call.

At the moment, all of this is probably not that big of a deal yet, but 
my suggestion has more of a mid-term/long-term character.

Below you find a little illustration. I'm probably asking too much, but 
it'd be great if we could get a little discussion going on how to 
improve the way of loading packages!

Best regards and thanks for R and all it's packages!
Janko

################################################################################
# PROOF OF CONCEPT
################################################################################

# 1) PROBLEM
# IMHO, with the number of packages submitted to CRAN constantly increasing,
# over time we will be likely to see problems with respect to name clashes.
# The main reasons I see for this are the following:
# a) package developers picking identical names for their exported functions
# b) package developers overwriting base functions in order to add 
functionality
#    to existing functions
# c) ...
#
# This can create scenarios in which the user might not exactly know that
# he/she is using a 'modified' version of a specific function. More so, 
the user
# needs to carefully read the description of each new package he plans
# to use in order to find out which functions are exported and which 
existing
# functions might be overwritten. This in turn might imply that the user's
# existing code needs to be refactored (i.e. instead of using 'fun()' it
# might now be necessary to type 'namespace::fun()' to be sure that the 
desired
# function is called).

# 2) SUGGESTED SOLUTION
# That being said, why don't we switch to a 'preemptive' coding paradigm
# where the default way of calling functions includes the specification of
# its namespace? In principle, the functionality offered by 
'namespace::fun()'
# gets the job done.
# BUT:
# a) it is slower compared to the direct way of calling a function.
#    (see illustration below).
# b) this option is not available througout the development process of a 
package
#    as there is no namespace yet and there's no way to emulate one. 
This in
#    turn means that even though a package developer would buy into 
strictly
#    using 'mypkg::fun()' throughout his package code, he can only do so 
at the
#    very final stage of the process RIGHT before turning his code into a
#    working package (when he's absolutely sure everything is working as 
planned).
#    For debugging he would need to go back to using 'fun()'. Pretty 
cumbersome.

# So how about simply automatically prepending a given function's name with
# the package's name for each package that is build (e.g. 'pkg.fun()' or
# 'pkg_fun()')? In the end, this would just be a small change for new 
packages
# without a significant decrease of performance and it could also be 
realized
# at early stages of the development process (see illustration below).

# 3) ILLUSTRATION

# Example case where base function 'parse.default' is overwritten:
parse(text="a <- 5")    # Works
require(R.utils)
require(roxygen)
parse(text="a <- 5")    # Does not work anymore

################# START A NEW R SESSION BEFORE YOU CONTINUE 
####################

# Inefficiency of 'namespace::fun()':
require(microbenchmark)
res.a <- microbenchmark(eval(parse(text="a <- 5")))
res.b <- microbenchmark(eval(base::parse(text="a <- 5")))
median(res.a$time)/median(res.b$time)

# Can be made up by explicit assignment:
foo <- base::parse
res.a <- microbenchmark(eval(parse(text="a <- 5")))
res.b <- microbenchmark(eval(foo(text="a <- 5")))
median(res.a$time)/median(res.b$time)

# Automatically prepend function names:
processNamespaces <- function(
     do.global=FALSE,
     do.verbose=FALSE,
     .delim.name="_",
     ...
){
     srch.list.0 <- search()
     srch.list <- gsub("package:", "", srch.list.0)
     if(!do.global){
         assign(".NS", new.env(), envir=.GlobalEnv)
     }
     out <- lapply(1:length(srch.list), function(x.pkg){
         pkg <- srch.list[x.pkg]

         # SKIP LIST
         if(pkg %in% c(".GlobalEnv", "Autoloads")){
             return(NULL)
         }
         # /

         # TARGET ENVIR
         if(!do.global){
             # ADD PACKAGE TO .NS ENVIRONMENT
             envir <- eval(substitute(
                 assign(PKG, new.env(), envir=.NS),
                 list(PKG=pkg)
             ))
             # /
#            envir <- get(pkg, envir=.NS, inherits=FALSE)
             envir.msg <- paste(".NS$", pkg, sep="")
         } else {
             envir <- .GlobalEnv
             envir.msg <- ".GlobalEnv"
         }
         # /

         # PROCESS FUNCTIONS
         cnt <- ls(pos=x.pkg)
         out <- unlist(sapply(cnt, function(x.cnt){
             value <- get(x.cnt, pos=x.pkg, inherits=FALSE)
             obj.mod <- paste(pkg, x.cnt, sep=.delim.name)
             if(!is.function(value)){
                 return(NULL)
             }
             if(do.verbose){
                 cat(paste("Assigning '", obj.mod, "' to '", envir.msg,
                     "'", sep=""), sep="\n")
             }
             eval(substitute(
                 assign(OBJ.MOD, value, envir=ENVIR),
                 list(
                     OBJ.MOD=obj.mod,
                     ENVIR=envir
                 )
             ))
             return(obj.mod)
         }))
         names(out) <- NULL
         # /
         return(out)
     })
     names(out) <- srch.list
     return(out)
}

# +++++

funs <- processNamespaces(do.verbose=TRUE)
ls(.NS)
ls(.NS$base)
.NS$base$base_parse

res.a <- microbenchmark(eval(parse(text="a <- 5")))
res.b <- microbenchmark(eval(.NS$base$base_parse(text="a <- 5")))
median(res.a$time)/median(res.b$time)

#+++++

funs <- processNamespaces(do.global=TRUE, do.verbose=TRUE)
base_parse

res.a <- microbenchmark(eval(parse(text="a <- 5")))
res.b <- microbenchmark(eval(base_parse(text="a <- 5")))
median(res.a$time)/median(res.b$time)



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