# globalVariables

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##### Declarations Used in Checking a Package

For globalVariables, the names supplied are of functions or other objects that should be regarded as defined globally when the check tool is applied to this package. The call to globalVariables will be included in the package's source. Repeated calls in the same package accumulate the names of the global variables.

Typical examples are the fields and methods in reference classes, which appear to be global objects to codetools. (This case is handled automatically by setRefClass() and friends, using the supplied field and method names.)

For suppressForeignCheck, the names supplied are of variables used as .NAME in foreign function calls which should not be checked by checkFF(registration = TRUE). Without this declaration, expressions other than simple character strings are assumed to evaluate to registered native symbol objects. The type of call (.Call, .External, etc.) and argument counts will be checked. With this declaration, checks on those names will usually be suppressed. (If the code uses an expression that should only be evaluated at runtime, the message can be suppressed by wrapping it in a dontCheck function call, or by saving it to a local variable, and suppressing messages about that variable. See the example below.)

Keywords
packages
##### Usage
globalVariables(names, package, add = TRUE)
suppressForeignCheck(names, package, add = TRUE)
##### Arguments
names

The character vector of object names. If omitted, the current list of global variables declared in the package will be returned, unchanged.

package

The relevant package, usually the character string name of the package but optionally its corresponding namespace environment.

When the call to globalVariables or suppressForeignCheck comes in the package's source file, the argument is normally omitted, as in the example below.

Should the contents of names be added to the current global variables or replace it?

##### Details

The lists of declared global variables and native symbol objects are stored in a metadata object in the package's namespace, assuming the globalVariables or suppressForeignCheck call(s) occur as top-level calls in the package's source code.

The check command, as implemented in package tools, queries the list before checking the R source code in the package for possible problems.

globalVariables was introduced in R 2.15.1 and suppressForeignCheck was introduced in R 3.1.0 so both should be used conditionally: see the example.

##### Value

globalVariables returns the current list of declared global variables, possibly modified by this call.

suppressForeignCheck returns the current list of native symbol objects which are not to be checked.

##### Note

The global variables list really belongs to a restricted scope (a function or a group of method definitions, for example) rather than the package as a whole. However, implementing finer control would require changes in check and/or in codetools, so in this version the information is stored at the package level.

dontCheck.
library(utils) # NOT RUN { ## assume your package has some code that assigns ".obj1" and ".obj2" ## but not in a way that codetools can find. ## In the same source file (to remind you that you did it) add: if(getRversion() >= "2.15.1") utils::globalVariables(c(".obj1", "obj2")) ## To suppress messages about a run-time calculated native symbol, ## save it to a local variable. ## At top level, put this: if(getRversion() >= "3.1.0") utils::suppressForeignCheck("localvariable") ## Within your function, do the call like this: localvariable <- if (condition) entry1 else entry2 .Call(localvariable, 1, 2, 3) ## HOWEVER, it is much better practice to write code ## that can be checked thoroughly, e.g. if(condition) .Call(entry1, 1, 2, 3) else .Call(entry2, 1, 2, 3) # }