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# MathSemantics.sty
[](https://ronnybergmann.net/MathSemantics.sty/mathsemantics-documentation.pdf)

[](https://github.com/kellertuer/MathSemantics.sty/blob/master/LICENSE)
This LaTeX package `mathsemantics.sty` provides both syntactic and semantic helpers to typeset math in LaTeX. The syntactic layer eases typesetting of formular in general, while the semantic layer provides commands like `\inner{x}{y}` to unify
typesetting of inner products. These not only unify typesetting of math formulae but also allow to easily adapt Notation if a user prefers to.
The semantic layer is split into topics.
## Example
Instead of always writing
```latex
\lVert x \rVert
```
for the norm and maybe having to manually increase _both_ delimiters for example in
```latex
\Bigr\lVert \frac{x}{2} \Bigr\rVert
```
with the commands from this package this simplifies to
```latex
\norm{x}
```
and
```latex
\norm[Big]{\frac{1}{2}}
```
For a comprehensive overview over all commands, see the [mathsemantics-documentation.pdf](https://ronnybergmann.net/MathSemantics.sty/mathsemantics-documentation.pdf).
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