I just discovered (to my surprise) that calling the following function

function foo()
if false
   fprintf = 1;
  % do nothing

gives and error Undefined function or variable "fprintf". My conclusion is that the scope of variables is determined before runtime (in my limited understanding how interpretation of computer languages and specifically Matlab works). Can anyone give me some background information on this?


Another interesting thing I forgot to mention above is that

function foo()
if false
   fprintf = 1;
  % do nothing

produces Reference to a cleared variable fprintf.

  • when are you calling fprintf? Before or after foo?
    – Junuxx
    Commented Oct 25, 2012 at 16:38

4 Answers 4


MATLAB parses the function before it's ever run. It looks for variable names, for instance, regardless of the branching that activates (or doesn't activate) those variables. That is, scope is not determined at runtime.

ADDENDUM: I wouldn't recommend doing this, but I've seen a lot of people doing things with MATLAB that I wouldn't recommend. But... consider what would happen if someone were to define their own function called "false". The pre-runtime parser couldn't know what would happen if that function were called.

  • I was hoping we could get a MathWorks person to weigh in on this. Welcome to the site!
    – gnovice
    Commented Oct 25, 2012 at 18:30
  • Initially I thought scoping would be determined at runtime, so it wouldn't matter if false is redefined or not. Anyway, thanks for clearing this up!
    – sebhofer
    Commented Oct 25, 2012 at 21:22

It seems that the first time the MATLAB JIT compiler parses the m-file, it identifies all variables declared in the function. It doesn't seem to care whether said variable is being declared in unreachable code. So your local fprintf variable immediately hides the builtin function fprintf. This means that, as far as this function is concerned, there is no builtin function named fprintf.

Of course, once that happens, every reference within the function to fprintf refers to the local variable, and since the variable never actually gets created, attempting to access it results in errors.

Clearing the variable simply clears the local variable, if it exists, it does not bring the builtin function back into scope.

To call a builtin function explicitly, you can use the builtin function.

builtin( 'fprintf', 'test' );

The line above will always print the text at the MATLAB command line, irrespective of local variables that may shadow the fprintf function.

  • I didn't know about builtin, interesting! Thanks
    – sebhofer
    Commented Oct 25, 2012 at 17:35
  • 1
    You can also bring fprintf back in as a function: fprintf=str2func('fprintf') which will overwrite the (nonexistent) variable that MATLAB thought was shadowing it.
    – tmpearce
    Commented Oct 25, 2012 at 18:20
  • @sebhofer: note that builtin only works for compiled Matlab functions, i.e. those that only show you the help and no code when you edit them.
    – Jonas
    Commented Oct 25, 2012 at 18:22

Interesting situation. I doubt if there is detailed information available about how the MATLAB interpreter works in regard to this strange case, but there are a couple of things to note in the documentation...

The function precedence order used by MATLAB places variables first:

Before assuming that a name matches a function, MATLAB checks for a variable with that name in the current workspace.

Of course, in your example the variable fprintf doesn't actually exist in the workspace, since that branch of the conditional statement is never entered. However, the documentation on variable naming says this:

Avoid creating variables with the same name as a function (such as i, j, mode, char, size, and path). In general, variable names take precedence over function names. If you create a variable that uses the name of a function, you sometimes get unexpected results.

This must be one of those "unexpected results", especially when the variable isn't actually created. The conclusion is that there must be some mechanism in MATLAB that parses a file at runtime to determine what possible variables could exist within a given scope, the net result of which is functions can still get shadowed by variables that appear in the m-file even if they don't ultimately appear in the workspace.

EDIT: Even more baffling is that functions like exist and which aren't even aware of the fact that the function appears to be shadowed. Adding these lines before the call to fprintf:


Gives this output before the error occurs:

ans =
built-in (C:\Program Files\MATLAB\R2012a\toolbox\matlab\iofun\fprintf)

Indicating that they still see the built-in fprintf.

  • I suspected the same. There's actually another interesting thing to observe here. See my edit.
    – sebhofer
    Commented Oct 25, 2012 at 17:20
  • exist and which check at runtime, they are not affected by the peculiarities of the JIT. Commented May 9, 2018 at 19:25
  • How could they? They don't know anything about local variables in their calling workspace. This is even the case in languages like C: if you shadow a global variable locally in a function, then this global variable is of course not shadowed in another function called from there. Not very puzzling if you ask me. Commented Nov 20, 2018 at 8:30

These may provide insight:

This can give you some info about what is shadowed:

which -all

(Below was confirmed as a bug) One gotcha is that Workspace structs, and classes on the path, have particular scoping and type precedence that (if you are me) may catch you out.

E.g. in 2017b:

% In C.m, saved in the current directory
classdef C
 properties (Constant)
   x = 100;

% In Command window
C.x = 1;
C.x       % 100
 C.x      % 1 (Note the space)
C.x*C.x   % 1
disp(C.x) % 1
  • 1
    This is truly bizarre. which C says C is a variable. C says C = struct with fields: x: 1. C.x gives 100. But not with a space in front of it. Commented May 9, 2018 at 19:29
  • 1
    You might want to submit a bug report to The MathWorks. The variable C should shadow the class C. Commented May 9, 2018 at 19:32
  • Nice find. I don't think you need the disclaimer: this is an answer. Well, it's additional info to the question in the title. Commented May 9, 2018 at 19:44

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.