natural-arithmetic: Arithmetic of natural numbers

A search for terms like arithmetic and natural on hackage reveals no shortage of libraries for handling the arithmetic of natural numbers. How is this library any different some of the others? It has a particular purpose: providing a foundation on top on which other libraries may define types indexed by sizes. This uses GHC's non-inductively-defined GHC.TypeNats.Nat. As a rule, this does not use unsafeCoerce internally anywhere.

Perhaps the most direct competitor to `natural-arithmetic` is a typechecker plugin like type-nat-solver. The big difference is that `type-nat-solver` can really only be used in application code, not in library code. This is because libraries should not require the presence of typechecker plugins. Technically, they can (you could document it), but many developers will not use libraries that have unusual install procedures like this.

This library, in places, requires users to use the TypeApplications language extension. This is done when a number is only need at the type level (without a runtime witness).

This library uses a non-minimal core, providing redundant primitives in Arithmetic.Lt and Arithmetic.Lte. This is done in the interest of making it easy for user to assemble proofs. Recall that proof assembly is done by hand rather than by an SMT solver, so removing some tediousness from this is helpful to users.

This library provides left and variants variants of several functions. For example, Arithmetic.Lte provides both substituteL and substituteR. This is only done when there are two variants of a function. For substitution, this is the case because we have `b = c, a ≤ b ==> a ≤ c` and `a = c, a ≤ b ==> c ≤ b`. So, we provide both substituteL and substituteR. However, for addition of inequalities, we have four possible variants: `a ≤ b, c ≤ d ==> a + c ≤ b + d`, `a ≤ b, c ≤ d ==> c + a ≤ b + d`, `a ≤ b, c ≤ d ==> a + c ≤ d + b`, `a ≤ b, c ≤ d ==> c + a ≤ d + b`. Consequently, we only provide a single plus function, and users must use Arithmetic.Plus.commutative to further manipulate the inequality.

Here are the proof-manipulation vocabulary used by this library. Many of these terms are not standard, but we try to be consistent in this library:

• Weaken: Increase an upper bound without changing the bounded value

• Increment: Increase an upper bound along with the bounded value

• Decrement: Decrease an upper bound along with the bounded value

• Substitute: Replace a number with an equal number

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• natural-arithmetic-0.1.2.0.tar.gz [browse] (Cabal source package)
• Package description (as included in the package)

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• andrewthad, l3c_amartin

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