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\documentclass{article}
\usepackage{open-axiom}
\begin{document}
\title{\$SPAD/src/algebra expr2ups.spad}
\author{Clifton J. Williamson}
\maketitle
\begin{abstract}
\end{abstract}
\eject
\tableofcontents
\eject
\section{package EXPR2UPS ExpressionToUnivariatePowerSeries}
<<package EXPR2UPS ExpressionToUnivariatePowerSeries>>=
)abbrev package EXPR2UPS ExpressionToUnivariatePowerSeries
++ Author: Clifton J. Williamson
++ Date Created: 9 May 1989
++ Date Last Updated: 20 September 1993
++ Basic Operations: taylor, laurent, puiseux, series
++ Related Domains: UnivariateTaylorSeries, UnivariateLaurentSeries,
++ UnivariatePuiseuxSeries, Expression
++ Also See: FunctionSpaceToUnivariatePowerSeries
++ AMS Classifications:
++ Keywords: Taylor series, Laurent series, Puiseux series
++ Examples:
++ References:
++ Description:
++ This package provides functions to convert functional expressions
++ to power series.
ExpressionToUnivariatePowerSeries(R,FE): Exports == Implementation where
R : Join(GcdDomain,RetractableTo Integer,_
LinearlyExplicitRingOver Integer)
FE : Join(AlgebraicallyClosedField,TranscendentalFunctionCategory,_
FunctionSpace R)
EQ ==> Equation
I ==> Integer
NNI ==> NonNegativeInteger
RN ==> Fraction Integer
SY ==> Symbol
UTS ==> UnivariateTaylorSeries
ULS ==> UnivariateLaurentSeries
UPXS ==> UnivariatePuiseuxSeries
GSER ==> GeneralUnivariatePowerSeries
EFULS ==> ElementaryFunctionsUnivariateLaurentSeries
EFUPXS ==> ElementaryFunctionsUnivariatePuiseuxSeries
FS2UPS ==> FunctionSpaceToUnivariatePowerSeries
Prob ==> Record(func:String,prob:String)
ANY1 ==> AnyFunctions1
Exports ==> with
taylor: SY -> Any
++ \spad{taylor(x)} returns x viewed as a Taylor series.
taylor: FE -> Any
++ \spad{taylor(f)} returns a Taylor expansion of the expression f.
++ Note: f should have only one variable; the series will be
++ expanded in powers of that variable.
taylor: (FE,NNI) -> Any
++ \spad{taylor(f,n)} returns a Taylor expansion of the expression f.
++ Note: f should have only one variable; the series will be
++ expanded in powers of that variable and terms will be computed
++ up to order at least n.
taylor: (FE,EQ FE) -> Any
++ \spad{taylor(f,x = a)} expands the expression f as a Taylor series
++ in powers of \spad{(x - a)}.
taylor: (FE,EQ FE,NNI) -> Any
++ \spad{taylor(f,x = a)} expands the expression f as a Taylor series
++ in powers of \spad{(x - a)}; terms will be computed up to order
++ at least n.
laurent: SY -> Any
++ \spad{laurent(x)} returns x viewed as a Laurent series.
laurent: FE -> Any
++ \spad{laurent(f)} returns a Laurent expansion of the expression f.
++ Note: f should have only one variable; the series will be
++ expanded in powers of that variable.
laurent: (FE,I) -> Any
++ \spad{laurent(f,n)} returns a Laurent expansion of the expression f.
++ Note: f should have only one variable; the series will be
++ expanded in powers of that variable and terms will be computed
++ up to order at least n.
laurent: (FE,EQ FE) -> Any
++ \spad{laurent(f,x = a)} expands the expression f as a Laurent series
++ in powers of \spad{(x - a)}.
laurent: (FE,EQ FE,I) -> Any
++ \spad{laurent(f,x = a,n)} expands the expression f as a Laurent
++ series in powers of \spad{(x - a)}; terms will be computed up to order
++ at least n.
puiseux: SY -> Any
++ \spad{puiseux(x)} returns x viewed as a Puiseux series.
puiseux: FE -> Any
++ \spad{puiseux(f)} returns a Puiseux expansion of the expression f.
++ Note: f should have only one variable; the series will be
++ expanded in powers of that variable.
puiseux: (FE,RN) -> Any
++ \spad{puiseux(f,n)} returns a Puiseux expansion of the expression f.
++ Note: f should have only one variable; the series will be
++ expanded in powers of that variable and terms will be computed
++ up to order at least n.
puiseux: (FE,EQ FE) -> Any
++ \spad{puiseux(f,x = a)} expands the expression f as a Puiseux series
++ in powers of \spad{(x - a)}.
puiseux: (FE,EQ FE,RN) -> Any
++ \spad{puiseux(f,x = a,n)} expands the expression f as a Puiseux
++ series in powers of \spad{(x - a)}; terms will be computed up to order
++ at least n.
series: SY -> Any
++ \spad{series(x)} returns x viewed as a series.
series: FE -> Any
++ \spad{series(f)} returns a series expansion of the expression f.
++ Note: f should have only one variable; the series will be
++ expanded in powers of that variable.
series: (FE,RN) -> Any
++ \spad{series(f,n)} returns a series expansion of the expression f.
++ Note: f should have only one variable; the series will be
++ expanded in powers of that variable and terms will be computed
++ up to order at least n.
series: (FE,EQ FE) -> Any
++ \spad{series(f,x = a)} expands the expression f as a series
++ in powers of (x - a).
series: (FE,EQ FE,RN) -> Any
++ \spad{series(f,x = a,n)} expands the expression f as a series
++ in powers of (x - a); terms will be computed up to order
++ at least n.
Implementation ==> add
performSubstitution: (FE,SY,FE) -> FE
performSubstitution(fcn,x,a) ==
zero? a => fcn
xFE := x :: FE
eval(fcn,xFE = xFE + a)
iTaylor: (FE,SY,FE) -> Any
iTaylor(fcn,x,a) ==
pack := FS2UPS(R,FE,I,ULS(FE,x,a),_
EFULS(FE,UTS(FE,x,a),ULS(FE,x,a)),x)
ans := exprToUPS(fcn,false,"just do it")$pack
ans case %problem =>
ans.%problem.prob = "essential singularity" =>
error "No Taylor expansion: essential singularity"
ans.%problem.func = "log" =>
error "No Taylor expansion: logarithmic singularity"
ans.%problem.func = "nth root" =>
error "No Taylor expansion: fractional powers in expansion"
error "No Taylor expansion"
uls := ans.%series
(uts := taylorIfCan uls) case "failed" =>
error "No Taylor expansion: pole"
any1 := ANY1(UTS(FE,x,a))
coerce(uts :: UTS(FE,x,a))$any1
taylor(x:SY) ==
uts := UTS(FE,x,0$FE); any1 := ANY1(uts)
coerce(monomial(1,1)$uts)$any1
taylor(fcn:FE) ==
null(vars := variables fcn) =>
error "taylor: expression has no variables"
not null rest vars =>
error "taylor: expression has more than one variable"
taylor(fcn,(first(vars) :: FE) = 0)
taylor(fcn:FE,n:NNI) ==
null(vars := variables fcn) =>
error "taylor: expression has no variables"
not null rest vars =>
error "taylor: expression has more than one variable"
x := first vars
uts := UTS(FE,x,0$FE); any1 := ANY1(uts)
series := retract(taylor(fcn,(x :: FE) = 0))$any1
coerce(extend(series,n))$any1
taylor(fcn:FE,eq:EQ FE) ==
(xx := retractIfCan(lhs eq)@Union(SY,"failed")) case "failed" =>
error "taylor: left hand side must be a variable"
x := xx :: SY; a := rhs eq
iTaylor(performSubstitution(fcn,x,a),x,a)
taylor(fcn,eq,n) ==
(xx := retractIfCan(lhs eq)@Union(SY,"failed")) case "failed" =>
error "taylor: left hand side must be a variable"
x := xx :: SY; a := rhs eq
any1 := ANY1(UTS(FE,x,a))
series := retract(iTaylor(performSubstitution(fcn,x,a),x,a))$any1
coerce(extend(series,n))$any1
iLaurent: (FE,SY,FE) -> Any
iLaurent(fcn,x,a) ==
pack := FS2UPS(R,FE,I,ULS(FE,x,a),_
EFULS(FE,UTS(FE,x,a),ULS(FE,x,a)),x)
ans := exprToUPS(fcn,false,"just do it")$pack
ans case %problem =>
ans.%problem.prob = "essential singularity" =>
error "No Laurent expansion: essential singularity"
ans.%problem.func = "log" =>
error "No Laurent expansion: logarithmic singularity"
ans.%problem.func = "nth root" =>
error "No Laurent expansion: fractional powers in expansion"
error "No Laurent expansion"
any1 := ANY1(ULS(FE,x,a))
coerce(ans.%series)$any1
laurent(x:SY) ==
uls := ULS(FE,x,0$FE); any1 := ANY1(uls)
coerce(monomial(1,1)$uls)$any1
laurent(fcn:FE) ==
null(vars := variables fcn) =>
error "laurent: expression has no variables"
not null rest vars =>
error "laurent: expression has more than one variable"
laurent(fcn,(first(vars) :: FE) = 0)
laurent(fcn:FE,n:I) ==
null(vars := variables fcn) =>
error "laurent: expression has no variables"
not null rest vars =>
error "laurent: expression has more than one variable"
x := first vars
uls := ULS(FE,x,0$FE); any1 := ANY1(uls)
series := retract(laurent(fcn,(x :: FE) = 0))$any1
coerce(extend(series,n))$any1
laurent(fcn:FE,eq:EQ FE) ==
(xx := retractIfCan(lhs eq)@Union(SY,"failed")) case "failed" =>
error "taylor: left hand side must be a variable"
x := xx :: SY; a := rhs eq
iLaurent(performSubstitution(fcn,x,a),x,a)
laurent(fcn,eq,n) ==
(xx := retractIfCan(lhs eq)@Union(SY,"failed")) case "failed" =>
error "taylor: left hand side must be a variable"
x := xx :: SY; a := rhs eq
any1 := ANY1(ULS(FE,x,a))
series := retract(iLaurent(performSubstitution(fcn,x,a),x,a))$any1
coerce(extend(series,n))$any1
iPuiseux: (FE,SY,FE) -> Any
iPuiseux(fcn,x,a) ==
pack := FS2UPS(R,FE,RN,UPXS(FE,x,a),_
EFUPXS(FE,ULS(FE,x,a),UPXS(FE,x,a),_
EFULS(FE,UTS(FE,x,a),ULS(FE,x,a))),x)
ans := exprToUPS(fcn,false,"just do it")$pack
ans case %problem =>
ans.%problem.prob = "essential singularity" =>
error "No Puiseux expansion: essential singularity"
ans.%problem.func = "log" =>
error "No Puiseux expansion: logarithmic singularity"
error "No Puiseux expansion"
any1 := ANY1(UPXS(FE,x,a))
coerce(ans.%series)$any1
puiseux(x:SY) ==
upxs := UPXS(FE,x,0$FE); any1 := ANY1(upxs)
coerce(monomial(1,1)$upxs)$any1
puiseux(fcn:FE) ==
null(vars := variables fcn) =>
error "puiseux: expression has no variables"
not null rest vars =>
error "puiseux: expression has more than one variable"
puiseux(fcn,(first(vars) :: FE) = 0)
puiseux(fcn:FE,n:RN) ==
null(vars := variables fcn) =>
error "puiseux: expression has no variables"
not null rest vars =>
error "puiseux: expression has more than one variable"
x := first vars
upxs := UPXS(FE,x,0$FE); any1 := ANY1(upxs)
series := retract(puiseux(fcn,(x :: FE) = 0))$any1
coerce(extend(series,n))$any1
puiseux(fcn:FE,eq:EQ FE) ==
(xx := retractIfCan(lhs eq)@Union(SY,"failed")) case "failed" =>
error "taylor: left hand side must be a variable"
x := xx :: SY; a := rhs eq
iPuiseux(performSubstitution(fcn,x,a),x,a)
puiseux(fcn,eq,n) ==
(xx := retractIfCan(lhs eq)@Union(SY,"failed")) case "failed" =>
error "taylor: left hand side must be a variable"
x := xx :: SY; a := rhs eq
any1 := ANY1(UPXS(FE,x,a))
series := retract(iPuiseux(performSubstitution(fcn,x,a),x,a))$any1
coerce(extend(series,n))$any1
iSeries: (FE,SY,FE) -> Any
iSeries(fcn,x,a) ==
pack := FS2UPS(R,FE,RN,UPXS(FE,x,a), _
EFUPXS(FE,ULS(FE,x,a),UPXS(FE,x,a), _
EFULS(FE,UTS(FE,x,a),ULS(FE,x,a))),x)
ans := exprToUPS(fcn,false,"just do it")$pack
ans case %problem =>
ansG := exprToGenUPS(fcn,false,"just do it")$pack
ansG case %problem =>
ansG.%problem.prob = "essential singularity" =>
error "No series expansion: essential singularity"
error "No series expansion"
anyone := ANY1(GSER(FE,x,a))
coerce((ansG.%series) :: GSER(FE,x,a))$anyone
any1 := ANY1(UPXS(FE,x,a))
coerce(ans.%series)$any1
series(x:SY) ==
upxs := UPXS(FE,x,0$FE); any1 := ANY1(upxs)
coerce(monomial(1,1)$upxs)$any1
series(fcn:FE) ==
null(vars := variables fcn) =>
error "series: expression has no variables"
not null rest vars =>
error "series: expression has more than one variable"
series(fcn,(first(vars) :: FE) = 0)
series(fcn:FE,n:RN) ==
null(vars := variables fcn) =>
error "series: expression has no variables"
not null rest vars =>
error "series: expression has more than one variable"
x := first vars
upxs := UPXS(FE,x,0$FE); any1 := ANY1(upxs)
series := retract(series(fcn,(x :: FE) = 0))$any1
coerce(extend(series,n))$any1
series(fcn:FE,eq:EQ FE) ==
(xx := retractIfCan(lhs eq)@Union(SY,"failed")) case "failed" =>
error "taylor: left hand side must be a variable"
x := xx :: SY; a := rhs eq
iSeries(performSubstitution(fcn,x,a),x,a)
series(fcn,eq,n) ==
(xx := retractIfCan(lhs eq)@Union(SY,"failed")) case "failed" =>
error "taylor: left hand side must be a variable"
x := xx :: SY; a := rhs eq
any1 := ANY1(UPXS(FE,x,a))
series := retract(iSeries(performSubstitution(fcn,x,a),x,a))$any1
coerce(extend(series,n))$any1
@
\section{License}
<<license>>=
--Copyright (c) 1991-2002, The Numerical ALgorithms Group Ltd.
--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>>
<<package EXPR2UPS ExpressionToUnivariatePowerSeries>>
@
\eject
\begin{thebibliography}{99}
\bibitem{1} nothing
\end{thebibliography}
\end{document}
|