# Brouwer–Heyting–Kolmogorov interpretation

In mathematical logic, the **Brouwer–Heyting–Kolmogorov interpretation**, or **BHK interpretation**, of intuitionistic logic was proposed by L. E. J. Brouwer and Arend Heyting, and independently by Andrey Kolmogorov. It is also sometimes called the **realizability interpretation**, because of the connection with the realizability theory of Stephen Kleene. It is the standard explanation of intuitionistic logic.^{[1]}

## The interpretation

[edit]The interpretation states what is intended to be a proof of a given formula. This is specified by induction on the structure of that formula:

- A proof of is a pair where is a proof of and is a proof of .
- A proof of is either where is a proof of or where is a proof of .
- A proof of is a function
^{[clarify]}that converts a proof of into a proof of . - A proof of is a pair where is an element of and is a proof of .
- A proof of is a function that converts an element of into a proof of .
- The formula is defined as , so a proof of it is a function that converts a proof of into a proof of .
- There is no proof of , the absurdity or bottom type (nontermination in some programming languages).

The interpretation of a primitive proposition is supposed to be known from context. In the context of arithmetic, a proof of the formula is a computation reducing the two terms to the same numeral.

Kolmogorov followed the same lines but phrased his interpretation in terms of problems and solutions. To assert a formula is to claim to know a solution to the problem represented by that formula. For instance is the problem of reducing to ; to solve it requires a method to solve problem given a solution to problem .

## Examples

[edit]The identity function is a proof of the formula , no matter what *P* is.

The law of non-contradiction expands to :

- A proof of is a function that converts a proof of into a proof of .
- A proof of is a pair of proofs <
*a*,*b*>, where is a proof of*P*, and is a proof of . - A proof of is a function that converts a proof of
*P*into a proof of .

Putting it all together, a proof of is a function that converts a pair <*a*, *b*> – where is a proof of , and is a function that converts a proof of into a proof of – into a proof of .
There is a function that does this, where , proving the law of non-contradiction, no matter what *P* is.

Indeed, the same line of thought provides a proof for the *modus ponens* rule as well, where is any proposition.

On the other hand, the law of excluded middle expands to , and in general has no proof. According to the interpretation, a proof of is a pair <*a*, *b*> where *a* is 0 and *b* is a proof of *P*, or *a* is 1 and *b* is a proof of . Thus if neither *P* nor is provable then neither is .

## Definition of absurdity

[edit]It is not, in general, possible for a logical system to have a formal negation operator such that there is a proof of "not" exactly when there isn't a proof of ; see Gödel's incompleteness theorems. The BHK interpretation instead takes "not" to mean that leads to absurdity, designated , so that a proof of is a function converting a proof of into a proof of absurdity.

A standard example of absurdity is found in dealing with arithmetic. Assume that 0 = 1, and proceed by mathematical induction: 0 = 0 by the axiom of equality. Now (induction hypothesis), if 0 were equal to a certain natural number *n*, then 1 would be equal to *n* + 1, (Peano axiom: **S***m* = **S***n* if and only if *m* = *n*), but since 0 = 1, therefore 0 would also be equal to *n* + 1. By induction, 0 is equal to all numbers, and therefore any two natural numbers become equal.

Therefore, there is a way to go from a proof of 0 = 1 to a proof of any basic arithmetic equality, and thus to a proof of any complex arithmetic proposition. Furthermore, to get this result it was not necessary to invoke the Peano axiom that states that 0 is "not" the successor of any natural number. This makes 0 = 1 suitable as in Heyting arithmetic (and the Peano axiom is rewritten 0 = **S***n* → 0 = **S**0). This use of 0 = 1 validates the principle of explosion.

## Definition of function

[edit]The BHK interpretation will depend on the view taken about what constitutes a *function* that converts one proof to another, or that converts an element of a domain to a proof. Different versions of constructivism will diverge on this point.

Kleene's realizability theory identifies the functions with the computable functions. It deals with Heyting arithmetic, where the domain of quantification is the natural numbers and the primitive propositions are of the form *x* = *y*. A proof of *x* = *y* is simply the trivial algorithm if *x* evaluates to the same number that *y* does (which is always decidable for natural numbers), otherwise there is no proof. These are then built up by induction into more complex algorithms.

If one takes lambda calculus as defining the notion of a function, then the BHK interpretation describes the correspondence between natural deduction and functions.

## See also

[edit]## Notes

[edit]## References

[edit]- Troelstra, A. (1991). "History of Constructivism in the Twentieth Century" (PDF).
- Troelstra, A. (2003). "Constructivism and Proof Theory (draft)". CiteSeerX 10.1.1.10.6972.

## External link

[edit]- Van Atten, Mark (4 May 2022). "The Development of Intuitionistic Logic". In Zalta, Edward N. (ed.).
*Stanford Encyclopedia of Philosophy*.