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\documentclass{article}
\usepackage{axiom}
\begin{document}
\title{\$SPAD/src/algebra kl.spad}
\author{Manuel Bronstein}
\maketitle
\begin{abstract}
\end{abstract}
\eject
\tableofcontents
\eject
\section{category CACHSET CachableSet}
<<category CACHSET CachableSet>>=
)abbrev category CACHSET CachableSet
++ Sets whose elements can cache an integer
++ Author: Manuel Bronstein
++ Date Created: 31 Oct 1988
++ Date Last Updated: 14 May 1991
++ Description:
++ A cachable set is a set whose elements keep an integer as part
++ of their structure.
CachableSet: Category == OrderedSet with
position : % -> NonNegativeInteger
++ position(x) returns the integer n associated to x.
setPosition: (%, NonNegativeInteger) -> Void
++ setPosition(x, n) associates the integer n to x.
@
\section{package SCACHE SortedCache}
<<package SCACHE SortedCache>>=
)abbrev package SCACHE SortedCache
++ Cache of elements in a set
++ Author: Manuel Bronstein
++ Date Created: 31 Oct 1988
++ Date Last Updated: 14 May 1991
++ A sorted cache of a cachable set S is a dynamic structure that
++ keeps the elements of S sorted and assigns an integer to each
++ element of S once it is in the cache. This way, equality and ordering
++ on S are tested directly on the integers associated with the elements
++ of S, once they have been entered in the cache.
SortedCache(S:CachableSet): Exports == Implementation where
N ==> NonNegativeInteger
DIFF ==> 1024
Exports ==> with
clearCache : () -> Void
++ clearCache() empties the cache.
cache : () -> List S
++ cache() returns the current cache as a list.
enterInCache: (S, S -> Boolean) -> S
++ enterInCache(x, f) enters x in the cache, calling \spad{f(y)} to
++ determine whether x is equal to y. It returns x with an integer
++ associated with it.
enterInCache: (S, (S, S) -> Integer) -> S
++ enterInCache(x, f) enters x in the cache, calling \spad{f(x, y)} to
++ determine whether \spad{x < y (f(x,y) < 0), x = y (f(x,y) = 0)}, or
++ \spad{x > y (f(x,y) > 0)}.
++ It returns x with an integer associated with it.
Implementation ==> add
import Reference List S
shiftCache : (List S, N) -> Void
insertInCache: (List S, List S, S, N) -> S
cach := ref(nil$List(S))
cache() == deref cach
shiftCache(l, n) ==
for x in l repeat setPosition(x, n + position x)
void
clearCache() ==
for x in cache repeat setPosition(x, 0)
setref(cach,nil$List(S))
void
enterInCache(x:S, equal?:S -> Boolean) ==
scan := cache()
while not null scan repeat
equal?(y := first scan) =>
setPosition(x, position y)
return y
scan := rest scan
setPosition(x, 1 + #cache())
setref(cach,concat(cache(), x))
x
enterInCache(x:S, triage:(S, S) -> Integer) ==
scan := cache()
pos:N:= 0
for i in 1..#scan repeat
zero?(n := triage(x, y := first scan)) =>
setPosition(x, position y)
return y
n<0 => return insertInCache(first(cache(),(i-1)::N),scan,x,pos)
scan := rest scan
pos := position y
setPosition(x, pos + DIFF)
setref(cach, concat(cache(), x))
x
insertInCache(before, after, x, pos) ==
if ((pos+1) = position first after) then shiftCache(after, DIFF)
setPosition(x, pos + (((position first after) - pos)::N quo 2))
setref(cach, concat(before, concat(x, after)))
x
@
\section{domain KERNEL Kernel}
<<domain KERNEL Kernel>>=
)abbrev domain KERNEL Kernel
++ Operators applied to elements of a set
++ Author: Manuel Bronstein
++ Date Created: 22 March 1988
++ Date Last Updated: May 09, 2009
++ Description:
++ A kernel over a set S is an operator applied to a given list
++ of arguments from S.
Kernel(S:OrderedSet): Exports == Implementation where
O ==> OutputForm
N ==> NonNegativeInteger
OP ==> BasicOperator
Exports ==> Join(CachableSet, Patternable S) with
name : % -> Symbol
++ name(op(a1,...,an)) returns the name of op.
operator: % -> OP
++ operator(op(a1,...,an)) returns the operator op.
argument: % -> List S
++ argument(op(a1,...,an)) returns \spad{[a1,...,an]}.
height : % -> N
++ height(k) returns the nesting level of k.
kernel : (OP, List S, N) -> %
++ kernel(op, [a1,...,an], m) returns the kernel \spad{op(a1,...,an)}
++ of nesting level m.
++ Error: if op is k-ary for some k not equal to m.
kernel : Symbol -> %
++ kernel(x) returns x viewed as a kernel.
symbolIfCan: % -> Union(Symbol, "failed")
++ symbolIfCan(k) returns k viewed as a symbol if k is a symbol, and
++ "failed" otherwise.
is? : (%, OP) -> Boolean
++ is?(op(a1,...,an), f) tests if op = f.
is? : (%, Symbol) -> Boolean
++ is?(op(a1,...,an), s) tests if the name of op is s.
if S has ConvertibleTo InputForm then ConvertibleTo InputForm
Implementation ==> add
macro SYMBOL == '%symbol
macro PMPRED == '%pmpredicate
macro PMOPT == '%pmoptional
macro PMMULT == '%pmmultiple
macro PMCONST == '%pmconstant
macro SPECIALDISP == '%specialDisp
macro SPECIALEQUAL == '%specialEqual
macro SPECIALINPUT == '%specialInput
import SortedCache(%)
Rep := Record(op:OP, arg:List S, nest:N, posit:N)
clearCache()
B2Z : Boolean -> Integer
triage: (%, %) -> Integer
preds : OP -> List Any
is?(k:%, s:Symbol) == is?(operator k, s)
is?(k:%, o:OP) == (operator k) = o
name k == name operator k
height k == k.nest
operator k == k.op
argument k == k.arg
position k == k.posit
setPosition(k, n) == k.posit := n
B2Z flag == (flag => -1; 1)
kernel s == kernel(assert(operator(s,0),SYMBOL), nil(), 1)
preds o ==
(u := property(o, PMPRED)) case nothing => nil()
(u@None) pretend List(Any)
symbolIfCan k ==
has?(operator k, SYMBOL) => name operator k
"failed"
k1 = k2 ==
if k1.posit = 0 then enterInCache(k1, triage)
if k2.posit = 0 then enterInCache(k2, triage)
k1.posit = k2.posit
k1 < k2 ==
if k1.posit = 0 then enterInCache(k1, triage)
if k2.posit = 0 then enterInCache(k2, triage)
k1.posit < k2.posit
kernel(fn, x, n) ==
(#x)::Arity ~= arity fn and (arity fn ~= arbitrary()) =>
error "Wrong number of arguments"
enterInCache([fn, x, n, 0]$Rep, triage)
-- SPECIALDISP contains a map List S -> OutputForm
-- it is used when the converting the arguments first is not good,
-- for instance with formal derivatives.
coerce(k:%):OutputForm ==
(v := symbolIfCan k) case Symbol => v::Symbol::OutputForm
(f := property(o := operator k, SPECIALDISP)) case None =>
((f@None) pretend (List S -> OutputForm)) (argument k)
l := [x::OutputForm for x in argument k]$List(OutputForm)
(u := display o) case "failed" => prefix(name(o)::OutputForm, l)
(u::(List OutputForm -> OutputForm)) l
triage(k1, k2) ==
k1.nest ~= k2.nest => B2Z(k1.nest < k2.nest)
k1.op ~= k2.op => B2Z(k1.op < k2.op)
(n1 := #(argument k1)) ~= (n2 := #(argument k2)) => B2Z(n1 < n2)
((func := property(operator k1, SPECIALEQUAL)) case None) and
(((func@None) pretend ((%, %) -> Boolean)) (k1, k2)) => 0
for x1 in argument(k1) for x2 in argument(k2) repeat
x1 ~= x2 => return B2Z(x1 < x2)
0
if S has ConvertibleTo InputForm then
convert(k:%):InputForm ==
(v := symbolIfCan k) case Symbol => convert(v::Symbol)@InputForm
(f := property(o := operator k, SPECIALINPUT)) case None =>
((f@None) pretend (List S -> InputForm)) (argument k)
l := [convert x for x in argument k]$List(InputForm)
(u := input operator k) case "failed" =>
convert concat(convert name operator k, l)
(u::(List InputForm -> InputForm)) l
if S has ConvertibleTo Pattern Integer then
convert(k:%):Pattern(Integer) ==
o := operator k
(v := symbolIfCan k) case Symbol =>
s := patternVariable(v::Symbol,
has?(o, PMCONST), has?(o, PMOPT), has?(o, PMMULT))
empty?(l := preds o) => s
setPredicates(s, l)
o [convert x for x in k.arg]$List(Pattern Integer)
if S has ConvertibleTo Pattern Float then
convert(k:%):Pattern(Float) ==
o := operator k
(v := symbolIfCan k) case Symbol =>
s := patternVariable(v::Symbol,
has?(o, PMCONST), has?(o, PMOPT), has?(o, PMMULT))
empty?(l := preds o) => s
setPredicates(s, l)
o [convert x for x in k.arg]$List(Pattern Float)
@
\section{package KERNEL2 KernelFunctions2}
<<package KERNEL2 KernelFunctions2>>=
)abbrev package KERNEL2 KernelFunctions2
++ Description:
++ This package exports some auxiliary functions on kernels
KernelFunctions2(R:OrderedSet, S:OrderedSet): with
constantKernel: R -> Kernel S
++ constantKernel(r) \undocumented
constantIfCan : Kernel S -> Union(R, "failed")
++ constantIfCan(k) \undocumented
== add
import BasicOperatorFunctions1(R)
constantKernel r == kernel(constantOperator r, nil(), 1)
constantIfCan k == constantOpIfCan operator k
@
\section{License}
<<license>>=
--Copyright (c) 1991-2002, The Numerical ALgorithms Group Ltd.
--All rights reserved.
--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>>
-- SPAD files for the functional world should be compiled in the
-- following order:
--
-- op KL expr function
<<category CACHSET CachableSet>>
<<package SCACHE SortedCache>>
<<domain KERNEL Kernel>>
<<package KERNEL2 KernelFunctions2>>
@
\eject
\begin{thebibliography}{99}
\bibitem{1} nothing
\end{thebibliography}
\end{document}
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