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I have a function that returns equalities, which I want to print, for example, x==y, or 2x+5==10. These usually have no meaning for mathematica, it cannot simplify it furhter.

However, sometimes the both sides are equal, but I want to be able to print the equality in unevaluated form: that is, I want Mathematica to print x==x, and not True.

A very simple example:


should print x==y, while


should print x==x

Edit: The reason is that I have a relation among graphs. I would like to return things like

G1 == t*G2 + s*G3

where t,s are integers, and Gi are Graphics objects in Mathematica. Just returning this works great, (Since Mathematica cannot simplify such things) EXCEPT G1 == G1 which will be True.

The trouble is that using Defer, or HoldForm gives

Private`lhs$714 == Private`rhs$714

as output, that is, the private variables in my package is not evaluated as my Graphics.

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How about printableEqual[x_,y_]:=Row[{x," \\[LongEqual] ",y}]? –  Simon Jan 31 '11 at 21:32
That is an option! –  Per Alexandersson Feb 1 '11 at 13:31

4 Answers 4

Another thing you can do is to is use Grid[] to align all of your equalities - the added advantage is that since you don't actually create expressions with Equal[], you don't have to prevent their evaluation.

In[1]:= Grid[Table[{LHS[i],"\[LongEqual]",RHS[i]},{i,2}],
             Alignment -> {Right,Center,Left}]
Out[1]= LHS[1] == RHS[1]
        LHS[2] == RHS[2]

On a similar vein, you could manually typeset using

printableEqual[LHS_, RHS_] := Row[{LHS, " \[LongEqual] ", RHS}]

or more generally

printableEqual[LHS_, mid___, RHS_] := Row[Riffle[{LHS, mid, RHS}, " \[LongEqual] "]]

By the way, the output from the printableEqual[] defined above can be converted back to a real Expression using ToExpression[ToString[#]]& or something like

toRealEqual[Row[lst_List]] := Equal@@lst[[1;;-1;;2]] /; OddQ[Length[lst]] && Union[lst[[2;;-2;;2]]] == {" \[LongEqual] "}
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Another trick is to just use Unevaluated:

In[1] := Print[Unevaluated[1 == 1]]
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@Michael Could you clarify the difference of using Defer vs. Unevaluated here? –  belisarius Jan 31 '11 at 19:33
Unevaluated doesn't wrap anything around the expression. Defer[expr] is a wrapper that, when printed or output, displays as the unevaluated form of expr, but when used as input again, acts like the evaluated form of expr. Unevaluated just prevents evaluation "once", if you will. Put another way, Head[Unevaluated[1==1]] is Equals, but Head[Defer[1==1]] is Defer. –  Michael Pilat Jan 31 '11 at 21:49
Actually, I think that Unevaluated does wrap the expression - it's just that the wrapping is transparent to most functions. Compare {FullForm[Defer[1 + 1]],FullForm[Unevaluated[1 + 1]]} and {Head[Defer[1 + 1]], Head[Unevaluated[1 + 1]]}. Also, see @Leonid's answer here. –  Simon Jan 31 '11 at 22:45
Unevaluated does wrap, but is stripped, so its invisibility is a consequence of the evaluation process. If you wrap in several layers of Unevaluated, the inner ones will remain, for example Head[Unevaluated[Unevaluated[Print["*"]]]]. The problem with Unevaluated is that you never know how many times you need to nest it, and how many of them will be stripped - this depends on a particular evaluation, can also be data-dependent, so this is not a robust way of preventing the evaluation of expression except when we do it once, and need it once. –  Leonid Shifrin Jan 31 '11 at 22:58
@Simon: your example FullForm[Unevaluated[1 + 1]] is a very special case. What happens really is that this Unevaluated does get stripped during the evaluation process. But, since there are no surrounding functions (and FullForm is really not a surrounding function in the way it works), the result is Plus[1,1] (not evaluated). In such cases (when no applicable rules were found for the parts where Unevaluated was stripped), Unevaluated is restored, which is what you observed. A very similar example was given by David Wagner in his book - this is where I learned about this. –  Leonid Shifrin Jan 31 '11 at 23:09

Usually one uses HoldForm for this sort of thing. HoldForm is a head that works like Hold, in that it doesn't evaluate its contents, but it's not displayed when it's printed as output, like so:

In[1]:= HoldForm[x == 3]
Out[1]= x == 3

In[2]:= HoldForm[x == x]
Out[2]= x == x

As with Hold, you can interpolate things into a HoldForm using With or function argument substitution, like so:

In[3]:= PrintableEqual[x_, y_] := HoldForm[x == y]

In[4]:= PrintableEqual[x, x]
Out[4]= x == x

However, this will mean that the arguments are evaluated before substitution, like so:

In[5]:= PrintableEqual[x + x, 2 x]
Out[5]= 2 x == 2x

If you don't want this to happen, you can use SetAttributes and HoldAll:

In[6]:= SetAttributes[PrintableEqual, {HoldAll}]

In[7]:= PrintableEqual[x + x, 2 x]
Out[7]= x + x == 2 x

Note that HoldForm is always there, it's just not displayed in output form:

In[8]:= PrintableEqual[x, x] // InputForm
Out[8]= HoldForm[x == x]

If you want to evaluate things, use ReleaseHold:

In[9]:= ReleaseHold@PrintableEqual[x, x]
Out[9]= True
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Does this work if PrintableEqual is in a package? –  Per Alexandersson Feb 1 '11 at 13:40

You can use Defer to do this:

In[5]:= printableEqual[x_, y_] := Defer[x == y];
In[6]:= printableEqual[1, 2]
Out[6]= 1 == 2
share|improve this answer
Does not work if printableEqual is in a package, see my edit. –  Per Alexandersson Feb 1 '11 at 13:38

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