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\documentclass{article}
\usepackage{open-axiom}
\author{Gabriel Dos~Reis}
\begin{document}
\begin{abstract}
\end{abstract}
\tableofcontents
\eject
\section{The Constructor domain}
<<domain CTORKIND ConstructorKinid>>=
)abbrev domain CTORKIND ConstructorKind
++ Author: Gabriel Dos Reis
++ Date Created: October 07, 2008.
++ Date Last Updated: October 07, 2008.
++ Related Constructors:
++ Description:
++ This domain enumerates the three kinds of constructors
++ available in OpenAxiom: category constructors, domain
++ constructors, and package constructors.
ConstructorKind(): Public == Private where
Public == SetCategory with
category: % ++ `category' is the kind of category constructors
domain: % ++ `domain' is the kind of domain constructors
package: % ++ `package' is the kind of package constructors.
Private == add
category == 'category : %
domain == 'domain : %
package == 'package : %
k1 = k2 == EQ(k1,k2)$Lisp
coerce(k: %): OutputForm == k : OutputForm
@
<<domain FUNDESC FunctionDescriptor>>=
)abbrev domain FUNDESC FunctionDescriptor
++ Author: Gabriel Dos Reis
++ Date Created: February 01, 2009
++ Date Last Modified:
++ Description:
++ This is the datatype for exported function descriptor.
++ A function descriptor consists of: (1) a signature;
++ (2) a predicate; and (3) a slot into the scope object.
FunctionDescriptor(): Public == Private where
Public == SetCategory with
signature: % -> Signature
++ \spad{signature(x)} returns the signature of function
++ described by \spad{x}.
Private == add
signature x == CAR(x)$Lisp
x = y == EQUAL(x,y)$Lisp
coerce x == (x : Syntax)::OutputForm
@
<<domain OVERSET OverloadSet>>=
)abbrev domain OVERSET OverloadSet
++ Author: Gabriel Dos Reis
++ Date Created: February 01, 2009
++ Date Last Modified:
++ Description:
++ This domain represents set of overloaded operators (in fact
++ operator descriptors).
OverloadSet(): Public == Private where
Public == SetCategory with
name: % -> Identifier
++ \spad{name(x)} returns the name of the overload set \spad{x}.
members: % -> List FunctionDescriptor
++ \spad{members(x)} returns the list of operator descriptors,
++ e.g. signature and implementation slots, of the
++ overload set \spad{x}.
Private == add
Rep == Pair(Identifier, List FunctionDescriptor)
name x == first rep x
members x == second rep x
x = y == rep x = rep y
coerce x ==
rarrow(name(x)::OutputForm, members(x)::OutputForm)
@
<<category CTORCAT ConstructorCategory>>=
import ConstructorKind
)abbrev category CTORCAT ConstructorCategory
++ Author: Gabriel Dos Reis
++ Date Create: December 17, 2008.
++ Date Last Updated: December 21, 2008.
++ Basic Operations: name, kind, arity.
++ Description:
++ This category declares basic operations on all constructors.
ConstructorCategory(): Category == OperatorCategory Identifier with
kind: % -> ConstructorKind
++ kind(ctor) returns the kind of the constructor `ctor'.
dualSignature: % -> List Boolean
++ dualSignature(c) returns a list l of Boolean values with
++ the following meaning:
++ l.(i+1) holds when the constructor takes a domain object
++ as the `i'th argument. Otherwise the argument
++ must be a non-domain object.
operations: % -> List OverloadSet
++ \spad{operations(c)} returns the list of all operator
++ exported by instantiations of constructor \spad{c}.
++ The operators are partitioned into overload sets.
add
kind x == getConstructorKind(x)$Lisp
arity x == getConstructorArity(x)$Lisp
dualSignature x == getDualSignatureFromDB(x)$Lisp
operations x == getOperationAlistFromLisplib(x)$Lisp
@
<<domain CTOR Constructor>>=
)abbrev domain CTOR Constructor
++ Author: Gabriel Dos Reis
++ Date Create: October 07, 2008.
++ Date Last Updated: December 17, 2008.
++ Related Constructors: Domain, Category
++ Basic Operations: name, kind, arity.
++ Description:
++ This domain provides implementations for constructors.
Constructor(): ConstructorCategory with
findConstructor: Identifier -> Maybe %
++ \spad{findConstructor(s)} attempts to find a constructor
++ named \spad{s}. If successful, returns that constructor;
++ otherwise, returns \spad{nothing}.
== add
Rep == Identifier
name x == rep x
kind x == getConstructorKind(x)$Lisp
arity x == getConstructorArity(x)$Lisp
findConstructor s ==
isConstructorName(s)$Lisp => just per(s pretend Identifier)
nothing
@
\section{domain ConstructorCall}
<<domain CTORCALL ConstructorCall>>=
import SetCategory
import List Syntax
)abbrev domain CTORCALL ConstructorCall
++ Author: Gabriel Dos Reis
++ Date Created: January 19, 2008
++ Date Last Updated: July 03, 2008
++ Description: This domains represents a syntax object that
++ designates a category, domain, or a package.
++ See Also: Syntax, Domain
ConstructorCall(C: ConstructorCategory): Public == Private where
Public == SetCategory with
constructor: % -> C
++ constructor(t) returns the name of the constructor used
++ to make the call.
arguments: % -> List Syntax
++ arguments(t) returns the list of syntax objects for the
++ arguments used to invoke the constructor.
Private == add
constructor x ==
CAR(x)$Lisp
arguments x ==
CDR(x)$Lisp
x = y ==
EQUAL(x,y)$Lisp
coerce(x: %): OutputForm ==
outputDomainConstructor(x)$Lisp
@
<<domain CATCTOR CategoryConstructor>>=
)abbrev domain CATCTOR CategoryConstructor
++ Author: Gabriel Dos Reis
++ Date Create: December 17, 2008.
++ Date Last Updated: December 20, 2008.
++ Related Constructors: Domain, Category
++ Description:
++ This domain provides representations for category constructors.
CategoryConstructor(): Public == Private where
Public == Join(ConstructorCategory, CoercibleTo Constructor)
Private == Constructor add
coerce(x: %): Constructor == rep x
@
<<domain DOMTMPLT DomainTemplate>>=
)abbrev domain DOMTMPLT DomainTemplate
++ Author: Gabriel Dos Reis
++ Date Created: June 06, 2009
++ Date Last Updated: June 06, 2009
++ Description:
++ Represntation of domain templates resulting from
++ compiling a domain constructor
DomainTemplate(): Public == Private where
Public == SetCategory with
#: % -> NonNegativeInteger
++ \spad{# x} returns the length of the domain template \spad{x}.
elt: (%,NonNegativeInteger) -> Syntax
++ \spad{x.i} yields the entry at slot \spad{i} in \spad{x}.
Private == add
Rep == PrimitiveArray Syntax
#x == # rep x
elt(x,i) == rep(x).i
x = y == rep x = rep y
coerce(x: %): OutputForm ==
rep(x)::OutputForm
@
<<domain FCTRDATA FunctorData>>=
)abbrev domain FCTRDATA FunctorData
++ Author: Gabriel Dos Reis
++ Date Created: June 06, 2009
++ Date Last Updated: June 06, 2009
++ Description:
++ Represntation of data needed to instantiate a domain constructor.
FunctorData(): Public == Private where
Public == SetCategory with
domainTemplate: % -> DomainTemplate
++ \spad{domainTemplate x} returns the domain template vector
++ associated with the functor data \spad{x}.
attributeData: % -> List Pair(Syntax, NonNegativeInteger)
++ \spad{attributeData x} returns the list of attribute-predicate
++ bit vector index pair associated with the functor data \spad{x}.
encodingDirectory: % -> PrimitiveArray NonNegativeInteger
++ \spad{encodintDirectory x} returns the directory of domain-wide
++ entity description.
categories: % -> PrimitiveArray ConstructorCall CategoryConstructor
++ \spad{categories x} returns the list of categories forms
++ each domain object obtained from the domain data \spad{x}
++ belongs to.
lookupFunction: % -> Identifier
++ \spad{lookupFunction x} returns the name of the lookup
++ function associated with the functor data \spad{x}.
Private == add
domainTemplate x == CAR(x)$Foreign(Builtin)
attributeData x == CADDR(x)$Foreign(Builtin)
part3Data(x: %): SExpression == CADDDR(x)$Foreign(Builtin)
categories x == CADDR(part3Data x)$Foreign(Builtin)
encodingDirectory x == CDDDR(part3Data x)$Foreign(Builtin)
lookupFunction x == CADDDDR(x)$Foreign(Builtin)
x = y == EQUAL(x,y)$Foreign(Builtin)
coerce(x: %): OutputForm ==
import SExpression
(x pretend SExpression)::OutputForm
@
<<domain DOMCTOR DomainConstructor>>=
)abbrev domain DOMCTOR DomainConstructor
++ Author: Gabriel Dos Reis
++ Date Create: December 17, 2008.
++ Date Last Updated: June 06, 2009.
++ Related Constructors: Domain, Category
++ Description:
++ This domain provides representations for domains constructors.
DomainConstructor(): Public == Private where
Public == Join(ConstructorCategory, CoercibleTo Constructor) with
functorData: % -> FunctorData
++ \spad{functorData x} returns the functor data associated
++ with the domain constructor \spad{x}.
Private == Constructor add
functorData x == GET(x,'infovec)$Foreign(Builtin)
coerce(x: %): Constructor == rep x
@
\section{The Signature domain}
<<domain SIG Signature>>=
import List
import Syntax
)abbrev domain SIG Signature
++ Author: Gabriel Dos Reis
++ Date Created: January 10, 2008
++ Date Last Updated: December 20, 2008
++ Description: This is the datatype for operation signatures as
++ used by the compiler and the interpreter. Note that this domain
++ differs from SignatureAst.
++ See also: ConstructorCall, Domain.
Signature(): Public == Private where
Public == SetCategory with
signature: (List Syntax,Syntax) -> %
++ signature(s,t) constructs a Signature object with parameter
++ types indicaded by `s', and return type indicated by `t'.
target: % -> Syntax
++ target(s) returns the target type of the signature `s'.
source: % -> List Syntax
++ source(s) returns the list of parameter types of `s'.
Private == add
Rep == List Syntax
signature(s,t) == per cons(t,s)
target x == first rep x
source x == rest rep x
x = y == rep x = rep y
printType(x: Syntax): OutputForm ==
x::InputForm::OutputForm
coerce(x: %): OutputForm ==
#source x = 1 =>
rarrow(printType first source x, printType target x)
rarrow(paren [printType s for s in source x],
printType target x)$OutputForm
@
\section{A domain for operator signatures}
<<domain OPSIG OperatorSignature>>=
)abbrev domain OPSIG OperatorSignature
++ Author: Gabriel Dos Reis
++ Date Created: December 20, 2008
++ Date Last Modified: December 20, 2008
++ Description:
++ This the datatype for an operator-signature pair.
OperatorSignature(): Public == Private where
Public == OperatorCategory Identifier with
signature: % -> Signature
++ signature(x) returns the signature of `x'.
construct: (Identifier,Signature) -> %
++ construct(op,sig) construct a signature-operator with
++ operator name `op', and signature `sig'.
Private == add
construct(o,s) == LIST(o,s)$Lisp
name x == CAR(x)$Lisp
signature x == CADR(x)$Lisp
x = y == EQUAL(x,y)$Lisp
arity x == (#source signature x)::Arity
coerce(x: %): OutputForm ==
infix('_:::OutputForm, name(x)::OutputForm,
signature(x)::OutputForm)
@
\section{The SystemPredicate domain}
<<domain SYSPRED SystemPredicate>>=
)abbrev domain SYSPRED SystemPredicate
SystemPredicate(): Public == Private where
Public == SetCategory
Private == add
x = y == EQUAL(x,y)$Lisp
coerce(x: %): OutputForm ==
NOT(x)$Lisp => 'false::OutputForm
EQ(x,'T)$Lisp => 'true::OutputForm
EQCAR(x,'NOT)$Lisp => not(CADR(x)$Lisp : % :: OutputForm)
@
\section{domain Category}
<<domain CATEGORY Category>>=
import CoercibleTo OutputForm
import CategoryConstructor
)abbrev domain CATEGORY Category
++ Author: Gabriel Dos Reis
++ Date Create: December 20, 2008.
++ Date Last Updated: February 16, 2008.
++ Basic Operations: coerce
++ Related Constructors:
++ Also See: Type
Category(): Public == Private where
Public == CoercibleTo OutputForm with
constructor: % -> CategoryConstructor
++ constructor(c) returns the category constructor used to
++ instantiate the category object `c'.
exportedOperators: % -> List OperatorSignature
++ exportedOperators(c) returns the list of all operator signatures
++ exported by the category `c', along with their predicates.
principalAncestors: % -> List ConstructorCall CategoryConstructor
++ principalAncestors(c) returns the list of all category
++ forms that are principal ancestors of the the category `c'.
parents: % -> List ConstructorCall CategoryConstructor
++ parents(c) returns the list of all category forms directly
++ extended by the category `c'.
Private == add
constructor x ==
CAR(devaluate(x)$Lisp)$Lisp
exportedOperators c ==
[CAR(x)$Lisp@OperatorSignature
for x in getCategoryExports(c)$Lisp@List(Syntax)]
principalAncestors c ==
getCategoryPrincipalAncestors(c)$Lisp
parents c ==
[CAR(x)$Lisp@ConstructorCall(CategoryConstructor)
for x in getCategoryParents(c)$Lisp@List(Syntax)]
coerce x ==
outputDomainConstructor(x)$Lisp
@
\section{domain Domain}
<<domain DOMAIN Domain>>=
import Void
import ConstructorCall
import DomainConstructor
)abbrev domain DOMAIN Domain
++ Author: Gabriel Dos Reis
++ Date Create: October 18, 2007.
++ Date Last Updated: December 20, 2008.
++ Basic Operations: coerce, reify
++ Related Constructors: Type, Syntax, OutputForm
++ Also See: Type, ConstructorCall
Domain(): Public == Private where
Public == SetCategory with
constructor: % -> DomainConstructor
++ constructor(d) returns the domain constructor that is
++ instantiated to the domain object `d'.
reify: % -> ConstructorCall DomainConstructor
++ reify(d) returns the abstract syntax for the domain `x'.
reflect: ConstructorCall DomainConstructor -> %
++ reflect cc returns the domain object designated by the
++ ConstructorCall syntax `cc'. The constructor implied
++ by `cc' must be known to the system since it is instantiated.
showSummary: % -> Void
++ showSummary(d) prints out implementation detail information
++ of domain `d'.
Private == add
constructor x ==
CAR(devaluate(x)$Lisp)$Lisp
coerce x ==
outputDomainConstructor(x)$Lisp
reify x ==
devaluate(x)$Lisp @ ConstructorCall(DomainConstructor)
reflect cc ==
evalDomain(cc)$Lisp @ %
x = y ==
reify x = reify y
showSummary x ==
showSummary(x)$Lisp
@
\section{License}
<<license>>=
--Copyright (C) 2007-2009, Gabriel Dos Reis.
--All rights reserved.
--
--Redistribution and use in source and binary forms, with or without
--modification, are permitted provided that the following conditions are
--met:
--
-- - Redistributions of source code must retain the above copyright
-- notice, this list of conditions and the following disclaimer.
--
-- - Redistributions in binary form must reproduce the above copyright
-- notice, this list of conditions and the following disclaimer in
-- the documentation and/or other materials provided with the
-- distribution.
--
-- - Neither the name of The Numerical Algorithms Group Ltd. nor the
-- names of its contributors may be used to endorse or promote products
-- derived from this software without specific prior written permission.
--
--THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
--IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
--TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
--PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER
--OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
--EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
--PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
--PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
--LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
--NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
--SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
@
<<*>>=
<<license>>
<<domain CTORKIND ConstructorKinid>>
<<domain FUNDESC FunctionDescriptor>>
<<domain OVERSET OverloadSet>>
<<category CTORCAT ConstructorCategory>>
<<domain CTOR Constructor>>
<<domain CTORCALL ConstructorCall>>
<<domain CATCTOR CategoryConstructor>>
<<domain DOMCTOR DomainConstructor>>
<<domain SIG Signature>>
<<domain OPSIG OperatorSignature>>
<<domain DOMTMPLT DomainTemplate>>
<<domain FCTRDATA FunctorData>>
<<domain CATEGORY Category>>
<<domain DOMAIN Domain>>
@
|