Name resolution

Name resolution

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In computer languages

Expressions in computer languages can contain identifiers. The semantics of such expressions depend on the entities that the identifiers refer to. The algorithm that determines what an identifier in a given context refers to is part of the language definition.

The complexity of these algorithms is influenced by the sophistication of the language. For example, name resolution in assembly language usually involves only a single simple table lookup, while name resolution in C++ is extremely complicated as it involves:

  • namespaces, which make it possible for an identifier to have different meanings depending on its associated namespace;
  • scopes, which make it possible for an identifier to have different meanings at different scope levels, and which involves various scope overriding and hiding rules. At the most basic level name resolution usually attempts to find the binding in the smallest enclosing scope, so that for example local variables supersede global variables; this is called shadowing.
  • visibility rules, which determine whether identifiers from specific namespaces or scopes are visible from the current context;
  • overloading, which makes it possible for an identifier to have different meanings depending on how it is used, even in a single namespace or scope;
  • accessibility, which determines whether identifiers from an otherwise visible scope are actually accessible and participate in the name resolution process.

Static versus dynamic

In programming languages, name resolution can be performed either at compile time or at runtime. The former is called static name resolution, the latter is called dynamic name resolution.

A somewhat common misconception is that dynamic typing implies dynamic name resolution. However, static typing does imply static name resolution. For example, Erlang is dynamically typed but has static name resolution.

Static name resolution catches, at compile time, use of variables that are not in scope; preventing programmer errors. Languages with dynamic scope resolution sacrifice this safety for more flexibility; they can typically set and get variables in the some scope at runtime.

For example, in Python:

locals()['num'] = 999 # equivalent to: num = 999
noun = "troubles"
noun2 = "hound"
 
# which variables to use are decided at runtime
print("{num} {noun} and a {noun2} ain't one".format(**locals()))
 
# outputs: 999 troubles and a hound ain't one

However, relying on dynamic name resolution in code is discouraged by the Python community.[1][2] The feature also may be removed in a later version of Python.[3]

Examples of languages that use static name resolution include C, C++, E, Erlang, Haskell, Java, Pascal, Scheme, and Smalltalk. Examples of languages that use dynamic name resolution include some Lisp dialects, Perl, PHP, Python, REBOL, and Tcl.

Name masking

Masking occurs when the same identifier is used for different entities in overlapping lexical scopes. An identifier I' masks an identifier I when two conditions are met

  1. I' has the same name as I
  2. I' is defined in a scope which is a subset of the scope of I

For example, the parameter x masks the local variable in this common pattern:

  private int foo;  // A declaration with name "foo" in an outer scope
  public void setFoo(int foo) {  // A declaration with the same name in the inner scope
    // "foo" is resolved by looking in the innermost scope first,
    // so the author uses a different syntax, this.foo, to refer to the name "foo"
    // in the outer scope.
    this.foo = foo;
  }
  // "foo" here means the same as this.foo below,
  // since setFoo's parameter is no longer in scope.
  public void getFoo() { return foo; }

Alpha renaming to make name resolution trivial

In programming languages with lexical scoping that do not reflect over variable names, α-conversion (or α-renaming) can be used to make name resolution easy by finding a substitution that makes sure that no variable name masks another name in a containing scope. Alpha-renaming can make static code analysis easier since only the alpha renamer needs to understand the language's scoping rules.

For example, in this code:

  class Point {
  private:
    double x, y;
 
  public:
    Point(double x, double y) {  // x and y declared here mask the privates
      setX(x);
      setY(y);
    }
 
    void setX(double newx) { x = newx; }
    void setY(double newy) { y = newy; }
  }

within the Point constructor, the class variables x and y are shadowed by local variables of the same name. This might be alpha-renamed to:

  class Point {
  private:
    double x, y;
 
  public:
    Point(double a, double b) {
      setX(a);
      setY(b);
    }
 
    void setX(double newx) { x = newx; }
    void setY(double newy) { y = newy; }
  }

In the new version, there is no masking, so it is immediately obvious which uses correspond to which declarations.

In computer networks

In computer networks, name resolution is used to find a lower level address (such as an IP address) that corresponds to a given higher level address (such as a hostname). Commands that allow name resolution are: nslookup and host. See Domain Name System, OSI Model.

In semantics and text extraction

Also referred to as entity resolution, in this context name resolution refers to the ability of text mining software to determine which actual person, actor, or object a particular references refers to, by looking at natural language text.

Name resolution in simple text

For example, in the text mining field, software frequently needs to interpret the following text:

John gave Edward the book. He then stood up and called to John to come back into the room.

In these sentences, the software must determine whether the pronoun "he" refers to "John", or "Edward" from the first sentence. The software must also determine whether the "John" referred to in the second sentence is the same as the "John" in the first sentence, or a third person whose name also happens to be "John". Such examples apply to almost all languages, and not only English.

Name resolution across documents

Frequently, this type of name resolution is also used across documents, for example to determine whether the "George Bush" referenced in an old newspaper article as President of the United States (George H. W. Bush) is the same person as the "George Bush" mentioned in a separate news article years later about a man who is running for President (George W. Bush.) Because many people may have the same name, analysts and software must take into account substantially more information than only a name to determine whether two identical references ("George Bush") actually refer to the same specific entity or person.

Name/entity resolution in text extraction and semantics is a notoriously difficult problem, in part because in many cases there is not sufficient information to make an accurate determination. Numerous partial solutions exist that rely on specific contextual clues found in the data, but there is no currently known general solution.

For examples of software that might provide name resolution benefits, see also:

See also

References

  1. ^ "[Python-Ideas] str.format utility function". 9 May 2009. http://mail.python.org/pipermail/python-ideas/2009-May/004582.html. Retrieved 2011-01-23. 
  2. ^ "8.6. Dictionary-based string formatting". diveintopython.org. Mark Pilgrim. http://diveintopython.org/html_processing/dictionary_based_string_formatting.html. Retrieved 2011-01-23. 
  3. ^ "9. Classes - Python v2.7.1 documentation". http://docs.python.org/tutorial/classes.html#python-scopes-and-namespaces. Retrieved 2011-01-23. "search for names is done dynamically, at run time — however, the language definition is evolving towards static name resolution" 

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