I want to
abbreviate create a synonym for a type class name. Here's how I'm doing it now:
class fooC = linordered_idom instance int :: fooC proof qed definition foof :: "'a::fooC ⇒ 'a" where "foof x = x" term "foof (x::int)" value "foof (x::int)"
This works fine if there's not a better way to do it. The disadvantage is that I have to instantiate
int, and the
class command takes time to implement itself.
This update is to clarify for Makarius what it is I want, to explain my purpose in wanting it, and give a list of commands that I'm familiar with for creating notation, abbreviations, and synonyms, but commands which I couldn't get to work for what I want.
My initial choice of "abbreviation" rather than "synonym"
I guess "synonym" would have been a better word, but I chose "abbreviation" because it describes what I want, which is to be able to create a shorter name for for a type class, like renaming
losdC. Though Isar
abbreviation has some of the attributes of
definition, it also just defines syntax. So, because "abbreviate" describes what I want, and
abbreviation just defines syntax, I chose "abbreviation" instead of "synonym" or "alias".
Synonym/alias, Isar commands I couldn't get to work for that
"Alias" would describe what I want. As to the sentence "If you just want to save typing in the editor, you could use some abbreviations there," here are the commands I've experimented with to try and rename
linordered_idom, but I couldn't get them to work for me:
Rather than explain what I've tried, and try to remember what I tried, I just list them. I did searches on "class" and only found the Isar commands
classes. I thought maybe locale commands might be applicable, but I didn't find anything.
What I want is simple, like how
type_synonym is used to define synonyms for types.
There is my general desire to shorten type class names such as
linordered_idom, because eventually, I plan on using the algebra type classes extensively.
However, there is a second reason, and that is to rename something like
linordered_semidom to be part of a naming scheme of three types.
For any algebraic type class, such as
linordered_semidom, I can use that type class, along with
quotient_type, to create what I'll call a number system, such as how
nat is used to define
Int.thy as a template, I did that with
linordered_semidom, and then instantiated it as
comm_ring_1, which is as far as I have time to go these days.
typedef, for any algebraic type class which has the dependencies of
one (and others such as
ord), I can define a type of all elements greater than or equal to zero, and another one for all elements greater than zero. I did that for
linordered_idom, but then I figured out that I actually needed to go the
quotient_type route, to get things that model
That's the long explanation. Eventually, I'll start working with numerous algebraic type classes, and from one type class, I'll get two more. If I do that for 20 type classes, and also use them, then long, descriptive names don't work, and renaming type classes will help me in knowing what type classes go together.
Here would be the scheme for
linordered_semidom, where I don't know how this will actually work out, until I'm able to try it all:
linordered_semidomis the base class. I rename it to
losdC. It's the numbers greater than or equal to zero for these three types.
losdQis defined from
quotient_type. It gives me the negative numbers, and the ability to coerce
losd1is defined using
typedef, and is the numbers greater than zero.
I need a consistent naming scheme, to keep it all straight:
Finally, eventually even 4 types instead of 3 types
I haven't completely worked and thought things out (I'm not even close), but analogously, it's all related to implementing, for algebra type classes, the basic relationship between
real might eventually come into play. Additionally, it's about getting a type, from these types, of the non-negative or positive members, if those don't come by default.
nat used for
int used for
nat used for
int, we get the non-negative integers by default, which is
int used for
rat, we don't get the non-negative members of
rat, we get fractions. (Again, I'm talking about a type of non-negatives and positives, not a set of non-negatives and positives.)
So, if I use
quotient_type to define fractions, then I have to use
typedef twice to get the non-negative and positive members of those fractions, which means I would have 4 types to keep track of,
If there's a simple solution to renaming type classes, then I've unnecessarily said about 600 words.