Context is always important.
- To answer questions like this.
- Also for naming itself.
If you as a reader (co-coder) need to guess what an identifier means, you start looking for more context, this may be supported through an API doc, often included in decent IDEs. But if you didn't provide a really great API doc (I read this from your question), the only context you get is by looking where your declaration is placed.
Here you may be interested in the name(s) of the containing library, subdirectory, file, namespace, or class, and last not least in the type being used.
If I read
kDefaultOrderAccuracy, I see a lot of context encoded (Default, Order, Accuracy), where Order could be related for sales or sorting, and the
k encoding doesn't say anything to me. Just to make you looking on your actual problem from a different perspective. C/C++ Identifiers have a poor grammar: they are restricted to rules for compound words.
This limitation of global identifiers is the most important reason why I mostly avoid global variables, even constants, sometimes even types. If its the meaning is limited to a given context, define a thing right within this context. Sometimes you first have to create this context.
Your explanation contains some unused context:
- numerical operators
- minimum precision (BTW: minimum doesn't mean default)
The problem of placing a definition into the right class is not very different from the problem to find the right place for a global: you have to find/create the right header file (and/or namespace).
As a side note, you may be interested to learn that also
enum can be used to get cheap compile-time constants, and enums can also be placed into classes (or namespaces). Also a scoped enumeration is an option you should consider before introducing global constants. As with enclosing class definitions, the
:: is a means of punctuation which separates more than
_ or an in-word
If you are interested in providing a useful default behaviour of your operations that can be overridden by your users, default arguments could be an option. If your API provides operators, you should study how the input/output manipulators for the standard I/O streams work.