This is documentation for Mathematica 5, which was
based on an earlier version of the Wolfram Language.

 Complex Patterns and Advanced Features This section is intended for advanced users. Due to the complex inner workings of the Notation package it is helpful to outline some of the more advanced features and structures of the Mathematica front end and how they relate to the Notation package. The following sections give a small overview of the functionality of tag boxes the specific tags used by the Notation package and the tag box option SyntaxForm. Tag boxes A TagBox is a box structure just like, SubscriptBox, GridBox. It is used to change the structure of an expression or indicate a grouping or interpretation of a subexpression at an underlying level. To illustrate tag boxes consider the following input which contains an embedded TagBox. All Mathematica input and output is made up of box structures at a low level. When Mathematica receives input, these box structures are parsed into internal expressions, which can be thought of as full form expressions. Internal evaluation then takes place, and finally the internal structures are transformed back into box structures for displaying in the Mathematica front end.We can reveal how Mathematica sees this input at a low level by using the Show Expression command under the Format menu. Here is the underlying representation of the expression above in terms of boxes, displayed using the Show Expression menu item located under the Format menu. The above expression contains a subexpression TagBox[SuperscriptBox["x", "2"],foo]]. It is important to note that this box expression as normally viewed in Mathematica looks visually like even though it has an embedded TagBox. Information contained in the tag is visually hidden from the user. When an expression containing a TagBox is input into Mathematica the default interpretation of the subexpression surrounded by the TagBox is to wrap the TagBox name around the parsed subexpression, in this case to wrap foo around x^2. The embedded TagBox tag foo has no special parsing behavior associated with it. However you can define your own rules for the way specific tag boxes are parsed. For instance by using the low level function MakeExpression we can change how Mathematica will parse expressions containing TagBoxes. By defining a new rule for MakeExpression we can change how Mathematica will parse expressions containing a TagBox with the tag literalBoxes. The embedded TagBox tag literalBoxes now has the special parsing behavior associated with it to just return the boxes. Knowing that special behaviors can be set up for specific tags we can now examine the tags defined by the Notation package. The Notation package defines three tags that have special behaviors: NotationBoxTag, NotationPatternTag, and NotationMadeBoxesTag. The tag NotationBoxTag NotationBoxTag is a tag used by the Notation package to grab box structures before they can be parsed by Mathematica. In fact NotationBoxTag acts rather like the tag literalBoxes defined above. All Notation , Symbolize and InfixNotation templates on the notation palette contain tag boxes with an embedded NotationBoxTag. The embedded TagBox ensures that the Notation package can obtain the correct parsing information and retain the proper styling and grouping information. An expression containing an embedded NotationBoxTag tag. We can avoid using notation templates if we wrap raw box structures with a NotationBoxTag. Complex Patterns and the tag NotationPatternTag For normal purposes it is usually sufficient that the patterns present in Notation and Symbolize statements are simple patterns. However, it is sometimes necessary or desirable to use more complicated patterns in notations. For example, a notation might only be valid when a certain pattern is a number. To allow more complex patterns you can embed a NotationPatternTag tag box inside a notation statement. It is critical that any notation you define which uses a complex pattern has an embedded NotationPatternTag, otherwise the pattern will be treated as a verbatim expression and not function as a pattern. The notation palette has a button labeled InsertPatternWrapper which will embed a NotationPatternTag around the selection, as well as tint the background of the selection to indicate that a complex pattern is present. This creates a TraditionalForm notation that only functions with numbers. It must also be pointed out that the pattern matching on the external representation is performed on the box structures, so usually you will have to make small transformations to convert box structures into normal expressions. Pattern matching on the internal representation follows conventional pattern matching. This defines a function analogous to NumericQ that operates on box structures. Now only input which matches the above pattern will be interpreted as a foo object. Reciprocally only foo objects with numerical arguments will be formatted using the notation. You should be careful to avoid unwanted evaluation through testing functions when parsing expressions (see parsing without evaluation.) We can examine the form of the rules created by using the option Action PrintNotationRules. We can see that the patterns a_?StringNumericQ and a_?NumericQ do not appear literally since they were surrounded by a NotationPatternTag in the notation statement. The tag NotationMadeBoxesTag The tag NotationMadeBoxesTag is intended for advanced users. It is used to indicate that box processing and formatting has already been done and that the Notation package should not perform any processing. Typically you would use this tag for surrounding your own functions that return expressions that have already been turned into boxes or parsed into expressions. To illustrate the tag NotationMadeBoxesTag we can examine a notation statement that might be part of a number of statements used to create a notation for Tensors. An example notation for formatting tensors containing the tag NotationMadeBoxesTag. We can see from the internal definition returned that there is no further processing of the expression createGridBox[inds], i.e. it is not surrounded by a MakeBoxes[...,StandardForm]. Changing precedences and the TagBox option SyntaxForm Using the option SyntaxForm you can change the precedence of an expression containing a TagBox. A tag box containing a SyntaxForm option will look like TagBox[ box structure, tag, SyntaxForm string], where string is a string indicating the operator on which the precedence of the tag box is modeled. The following examples illustrate the SyntaxForm option . An expression which uses the arrow with standard precedences. We can define a new notation for a composite arrow surrounded by a TagBox that has the SyntaxForm option set to a low precedence. This new composite arrow has a low precedence. We can illustrate the underlying groupings of the expressions above in the following table. A table illustrating the precedences and grouping of expressions with and without precedence changing tag boxes. The SyntaxForm option value can be any operator string valid in Mathematica, that is, any operator contained in the UnicodeCharacters.tr file. The SyntaxForm value can also include symbols before and after the operator to indicate whether the precedence is that of a prefix operator, an infix operator, or a postfix operator. Some typical values for the SyntaxForm option are given in the table below. Typical SyntaxForm values and their associated precedence behaviors.