Packages

  • package root
    Definition Classes
    root
  • package provingground

    This is work towards automated theorem proving based on learning, using homotopy type theory (HoTT) as foundations and natural language processing.

    This is work towards automated theorem proving based on learning, using homotopy type theory (HoTT) as foundations and natural language processing.

    The implementation of homotopy type theory is split into:

    • the object HoTT with terms, types, functions and dependent functions, pairs etc
    • the package induction with general inductive types and recursion/induction on these.

    The learning package has the code for learning.

    Scala code, including the spire library, is integrated with homotopy type theory in the scalahott package

    We have implemented a functor based approach to translation in the translation package, used for nlp as well as serialization and parsing.

    The library package is contains basic structures implemented in HoTT.

    Definition Classes
    root
  • package induction

    Much of the richness of HoTT is in the definitions of Inductive types (and their indexed counterparts) and of (dependent) functions on these by recursion and induction These are implemented using several layers of recursive definitions and diagonals (i.e., fixed points).

    Much of the richness of HoTT is in the definitions of Inductive types (and their indexed counterparts) and of (dependent) functions on these by recursion and induction These are implemented using several layers of recursive definitions and diagonals (i.e., fixed points). In HoTT, recursion and induction are applications of (dependent) functions rec_W,X and ind_W, Xs to the definition data.

    It is useful to capture information regarding inductive types and the recursion and induction functions in scala types. Our implementation is designed to do this.

    Inductive Type Definitions

    Inductive types are specified by introduction rules. Each introduction rule is specified in ConstructorShape (without specifying the type) and ConstructorTL including the specific type. The full definition is in ConstructorSeqTL.

    Recursion and Induction functions

    These are defined recursively, first for each introduction rule and then for the inductive type as a whole. A subtlety is that the scala type of the rec_W,X and induc_W, Xs functions depends on the scala type of the codomain X (or family Xs). To make these types visible, some type level calculations using implicits are done, giving traits ConstructorPatternMap and ConstructorSeqMap that have recursive definition of the recursion and induction functions, the former for the case of a single introduction rule. Traits ConstructorSeqMapper and ConstructorPatternMapper provide the lifts.

    Indexed Versions

    There are indexed versions of all these definitions, to work with indexed inductive type families.

    Definition Classes
    provingground
  • object ConstructorSeqMap
    Definition Classes
    induction
  • Cons
  • ConsIndException
  • Empty
  • InducDataSym
  • RecDataSym

case class ConsIndException[C <: Term with Subs[C], H <: Term with Subs[H], Cod <: Term with Subs[Cod], RD <: Term with Subs[RD], ID <: Term with Subs[ID], TR <: Term with Subs[TR], TI <: Term with Subs[TI], TIntros <: HList](cons: Cons[C, H, Cod, RD, ID, TR, TI, TIntros], fibre: Func[H, Typ[Cod]], error: Throwable) extends Exception with Product with Serializable

Linear Supertypes
Product, Equals, Exception, Throwable, Serializable, AnyRef, Any
Type Hierarchy
Ordering
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  2. By Inheritance
Inherited
  1. ConsIndException
  2. Product
  3. Equals
  4. Exception
  5. Throwable
  6. Serializable
  7. AnyRef
  8. Any
Implicitly
  1. by any2stringadd
  2. by StringFormat
  3. by Ensuring
  4. by ArrowAssoc
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Visibility
  1. Public
  2. Protected

Instance Constructors

  1. new ConsIndException(cons: Cons[C, H, Cod, RD, ID, TR, TI, TIntros], fibre: Func[H, Typ[Cod]], error: Throwable)

Value Members

  1. final def addSuppressed(arg0: Throwable): Unit
    Definition Classes
    Throwable
  2. val cons: Cons[C, H, Cod, RD, ID, TR, TI, TIntros]
  3. val error: Throwable
  4. val fibre: Func[H, Typ[Cod]]
  5. def fillInStackTrace(): Throwable
    Definition Classes
    Throwable
  6. def getCause(): Throwable
    Definition Classes
    Throwable
  7. def getLocalizedMessage(): String
    Definition Classes
    Throwable
  8. def getMessage(): String
    Definition Classes
    Throwable
  9. def getStackTrace(): Array[StackTraceElement]
    Definition Classes
    Throwable
  10. final def getSuppressed(): Array[Throwable]
    Definition Classes
    Throwable
  11. def initCause(arg0: Throwable): Throwable
    Definition Classes
    Throwable
  12. def printStackTrace(arg0: PrintWriter): Unit
    Definition Classes
    Throwable
  13. def printStackTrace(arg0: PrintStream): Unit
    Definition Classes
    Throwable
  14. def printStackTrace(): Unit
    Definition Classes
    Throwable
  15. def productElementNames: Iterator[String]
    Definition Classes
    Product
  16. def setStackTrace(arg0: Array[StackTraceElement]): Unit
    Definition Classes
    Throwable
  17. def toString(): String
    Definition Classes
    Throwable → AnyRef → Any