# Difference between Clear and Remove in Mathematica

In Mathematica, the documentation for ClearAll states:

`ClearAll[symb1, symb2, ...]`
clears values, definitions, attributes, messages, and defaults with symbols.

It also supports a similar format where it can clear any values / definitions which match an input string pattern:

``````ClearAll["form1", "form2", ...]
``````

But there's also the function Remove, for which the documentation says:

`Remove[symbol1, ...]`
removes symbols completely, so that their names are no longer recognized by Mathematica.

It also supports the same pattern based string input that `ClearAll` supports.

To me, it seems like both functions accomplish the same exact thing. Is there any practical difference to using one or the other?

I know that if I give an attribute to a symbol, `Clear` won't remove it but `ClearAll` and `Remove` will. But it seems like `Remove` and `ClearAll` are doing the same thing.

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This recent Mathgroup thread seems relevant: groups.google.com/group/comp.soft-sys.math.mathematica/…. Look particularly at the third post of Oleksandr Rasputinov in that thread (it is 15-th from the beginning of the thread) - he gives some good reasons for when `Remove` might be needed and what makes it special. –  Leonid Shifrin Dec 15 '11 at 12:59
The mathematica proposal was closed for various reasons, however they're allowing us to see if we can get it up and running by creating a new one. We'd like your help, if you would. –  rcollyer Dec 17 '11 at 14:58

`ClearAll` leaves the symbol in the symbol table:

``````In[1]:= x=7;

In[2]:= ?x
Global`x

x = 7

In[3]:= ClearAll[x]

In[4]:= ?x
Global`x
``````

`Remove` removes it from the symbol table:

``````In[5]:= Remove[x]

In[6]:= ?x

``````

One reason to use `Remove` instead of `ClearAll` is if a symbol hides another symbol further down your \$ContextPath. Here's a contrived example:

``````In[1]:= \$ContextPath = { "Global`", "System`" };

In[2]:= Global`Sin[x_] := "hello"

Sin::shdw: Symbol Sin appears in multiple contexts {Global`, System`}
; definitions in context Global`

In[3]:= Sin[1.0]

Out[3]= hello

In[4]:= ClearAll[Sin]

In[5]:= Sin[1.0]

Out[5]= Sin[1.]

In[6]:= Remove[Sin]

In[7]:= Sin[1.0]

Out[7]= 0.841471
``````

Another reason to use `Remove` is that the notebook interface only includes known symbols when you choose Edit > Complete Selection (or on a Mac, press Command-K).

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Interesting. Is there any realistic cases where you might actually have to remove something from the symbol table? –  Mike Bantegui Dec 14 '11 at 21:54
I have amended my answer. –  rob mayoff Dec 14 '11 at 22:13
A common case occurs if one forgets to load a package before using a contained function -- for example evaluating `JavaClassPath[]` prior to calling `Needs["JLink`"]`. If the requisite `Needs` is called afterwards, you end up with `JLink`JavaClassPath` shadowing `Global`JavaClassPath`, with the front-end showing both symbols in red. `Remove[Global`JavaClassPath]` fixes the situation. –  WReach Dec 14 '11 at 22:20
@WReach: That actually explains and solves a problem I've been wondering about for ages. –  Mike Bantegui Dec 14 '11 at 22:56
@Szabolcs Actually `Removed` is not a normal head, but rather a print form. And once we `Remove` the `y`, we invalidate `x` in a subtle but permanent way - reintroducing the `y` into the session won't help. `Remove` is really a rather special-purpose destructuve operation, aimed more at removing auto-generated symbols. In a system of inter-connected functions (possibly from different packages), for this reason `Remove` is safe only if nothing depends on the symbol being removed. Resolving shadowing is the only mainstream (frequent, non-advanced) application of `Remove` I am aware of. –  Leonid Shifrin Dec 15 '11 at 21:28