diff --git a/changelog b/changelog
index 776b956..43b1f80 100644
--- a/changelog
+++ b/changelog
@@ -1,3 +1,20 @@
+20080823 tpd src/algebra/s.spad remove ++CapitalLetter syntax
+20080823 tpd src/algebra/multsqfr.spad remove ++CapitalLetter syntax
+20080823 tpd src/algebra/f07.spad remove ++CapitalLetter syntax
+20080823 tpd src/algebra/f04.spad remove ++CapitalLetter syntax
+20080823 tpd src/algebra/f02.spad remove ++CapitalLetter syntax
+20080823 tpd src/algebra/f01.spad remove ++CapitalLetter syntax
+20080823 tpd src/algebra/e04.spad remove ++CapitalLetter syntax
+20080823 tpd src/algebra/e02.spad remove ++CapitalLetter syntax
+20080823 tpd src/algebra/e01.spad remove ++CapitalLetter syntax
+20080823 tpd src/algebra/d03.spad remove ++CapitalLetter syntax
+20080823 tpd src/algebra/d02.spad remove ++CapitalLetter syntax
+20080823 tpd src/algebra/d01.spad remove ++CapitalLetter syntax
+20080823 tpd src/algebra/c06.spad remove ++CapitalLetter syntax
+20080823 tpd src/algebra/c05.spad remove ++CapitalLetter syntax
+20080823 tpd src/algebra/c02.spad remove ++CapitalLetter syntax
+20080823 tpd src/algebra/axtimer.as remove ++CapitalLetter syntax
+20080823 tpd src/algebra/asp.spad remove ++CapitalLetter syntax
20080823 tpd src/algebra/stream.spad stream API examples
20080823 tpd src/algebra/aggcat.spad UnaryRecursiveAggregate API examples
20080822 tpd src/input/Makefile add linalg, overload regression tests
diff --git a/src/algebra/asp.spad.pamphlet b/src/algebra/asp.spad.pamphlet
index 7899fb3..220c4ab 100644
--- a/src/algebra/asp.spad.pamphlet
+++ b/src/algebra/asp.spad.pamphlet
@@ -18,9 +18,9 @@
++ 6 October 1994
++ Related Constructors: FortranFunctionCategory, FortranProgramCategory.
++ Description:
-++\spadtype{Asp1} produces Fortran for Type 1 ASPs, needed for various
-++NAG routines. Type 1 ASPs take a univariate expression (in the symbol
-++X) and turn it into a Fortran Function like the following:
+++ \spadtype{Asp1} produces Fortran for Type 1 ASPs, needed for various
+++ NAG routines. Type 1 ASPs take a univariate expression (in the symbol
+++ X) and turn it into a Fortran Function like the following:
++\begin{verbatim}
++ DOUBLE PRECISION FUNCTION F(X)
++ DOUBLE PRECISION X
@@ -2941,10 +2941,10 @@ Asp55(name): Exports == Implementation where
++ 6 October 1994
++ Related Constructors: FortranVectorFunctionCategory, FortranProgramCategory
++ Description:
-++\spadtype{Asp6} produces Fortran for Type 6 ASPs, needed for NAG routines
-++\axiomOpFrom{c05nbf}{c05Package}, \axiomOpFrom{c05ncf}{c05Package}.
-++These represent vectors of functions of X(i) and look like:
-++\begin{verbatim}
+++ \spadtype{Asp6} produces Fortran for Type 6 ASPs, needed for NAG routines
+++ \axiomOpFrom{c05nbf}{c05Package}, \axiomOpFrom{c05ncf}{c05Package}.
+++ These represent vectors of functions of X(i) and look like:
+++ \begin{verbatim}
++ SUBROUTINE FCN(N,X,FVEC,IFLAG)
++ DOUBLE PRECISION X(N),FVEC(N)
++ INTEGER N,IFLAG
@@ -2966,7 +2966,7 @@ Asp55(name): Exports == Implementation where
++ FVEC(9)=(-2.0D0*X(9)**2)+3.0D0*X(9)+(-1.0D0*X(8))+1.0D0
++ RETURN
++ END
-++\end{verbatim}
+++ \end{verbatim}
Asp6(name): Exports == Implementation where
name : Symbol
@@ -3088,11 +3088,11 @@ Asp6(name): Exports == Implementation where
++ 6 October 1994
++ Related Constructors: FortranVectorFunctionCategory, FortranProgramCategory
++ Description:
-++\spadtype{Asp7} produces Fortran for Type 7 ASPs, needed for NAG routines
-++\axiomOpFrom{d02bbf}{d02Package}, \axiomOpFrom{d02gaf}{d02Package}.
-++These represent a vector of functions of the scalar X and
-++the array Z, and look like:
-++\begin{verbatim}
+++ \spadtype{Asp7} produces Fortran for Type 7 ASPs, needed for NAG routines
+++ \axiomOpFrom{d02bbf}{d02Package}, \axiomOpFrom{d02gaf}{d02Package}.
+++ These represent a vector of functions of the scalar X and
+++ the array Z, and look like:
+++ \begin{verbatim}
++ SUBROUTINE FCN(X,Z,F)
++ DOUBLE PRECISION F(*),X,Z(*)
++ F(1)=DTAN(Z(3))
@@ -3101,7 +3101,7 @@ Asp6(name): Exports == Implementation where
++ F(3)=-0.03199999999999999D0/(X*Z(2)**2)
++ RETURN
++ END
-++\end{verbatim}
+++ \end{verbatim}
Asp7(name): Exports == Implementation where
name : Symbol
@@ -4106,19 +4106,21 @@ Asp80(name): Exports == Implementation where
++ 6 October 1994
++ Related Constructors: FortranVectorFunctionCategory, FortranProgramCategory
++ Description:
-++\spadtype{Asp9} produces Fortran for Type 9 ASPs, needed for NAG routines
-++\axiomOpFrom{d02bhf}{d02Package}, \axiomOpFrom{d02cjf}{d02Package}, \axiomOpFrom{d02ejf}{d02Package}.
-++These ASPs represent a function of a scalar X and a vector Y, for example:
-++\begin{verbatim}
+++ \spadtype{Asp9} produces Fortran for Type 9 ASPs, needed for NAG routines
+++ \axiomOpFrom{d02bhf}{d02Package},
+++ \axiomOpFrom{d02cjf}{d02Package},
+++ \axiomOpFrom{d02ejf}{d02Package}.
+++ These ASPs represent a function of a scalar X and a vector Y, for example:
+++ \begin{verbatim}
++ DOUBLE PRECISION FUNCTION G(X,Y)
++ DOUBLE PRECISION X,Y(*)
++ G=X+Y(1)
++ RETURN
++ END
-++\end{verbatim}
-++If the user provides a constant value for G, then extra information is added
-++via COMMON blocks used by certain routines. This specifies that the value
-++returned by G in this case is to be ignored.
+++ \end{verbatim}
+++ If the user provides a constant value for G, then extra information is added
+++ via COMMON blocks used by certain routines. This specifies that the value
+++ returned by G in this case is to be ignored.
Asp9(name): Exports == Implementation where
name : Symbol
diff --git a/src/algebra/axtimer.as.pamphlet b/src/algebra/axtimer.as.pamphlet
index b05a3aa..1f046bb 100644
--- a/src/algebra/axtimer.as.pamphlet
+++ b/src/algebra/axtimer.as.pamphlet
@@ -81,7 +81,7 @@ Timer: BasicType with {
++ and t is not stopped or affected.
reset!: % -> %;
++ Resets the timer t to 0 and stops it if it is running.
- ++Returns the timer t after it is reset.
+ ++ Returns the timer t after it is reset.
start!: % -> Z;
++ Starts or restarts t, without resetting it to 0,
++ It has no effect on t if it is already running.
diff --git a/src/algebra/c02.spad.pamphlet b/src/algebra/c02.spad.pamphlet
index f51481a..f3adcc8 100644
--- a/src/algebra/c02.spad.pamphlet
+++ b/src/algebra/c02.spad.pamphlet
@@ -15,10 +15,10 @@
++ Author: Godfrey Nolan and Mike Dewar
++ Date Created: Jan 1994
++ Date Last Updated: Thu May 12 17:44:27 1994
-++Description:
-++This package uses the NAG Library to compute the zeros of a
-++polynomial with real or complex coefficients.
-++See \downlink{Manual Page}{manpageXXc02}.
+++ Description:
+++ This package uses the NAG Library to compute the zeros of a
+++ polynomial with real or complex coefficients.
+++ See \downlink{Manual Page}{manpageXXc02}.
NagPolynomialRootsPackage(): Exports == Implementation where
S ==> Symbol
diff --git a/src/algebra/c05.spad.pamphlet b/src/algebra/c05.spad.pamphlet
index 61e2337..591b1fc 100644
--- a/src/algebra/c05.spad.pamphlet
+++ b/src/algebra/c05.spad.pamphlet
@@ -15,12 +15,12 @@
++ Author: Godfrey Nolan and Mike Dewar
++ Date Created: Jan 1994
++ Date Last Updated: Thu May 12 17:44:28 1994
-++Description:
-++This package uses the NAG Library to calculate real zeros of
-++continuous real functions of one or more variables. (Complex
-++equations must be expressed in terms of the equivalent larger
-++system of real equations.)
-++See \downlink{Manual Page}{manpageXXc05}.
+++ Description:
+++ This package uses the NAG Library to calculate real zeros of
+++ continuous real functions of one or more variables. (Complex
+++ equations must be expressed in terms of the equivalent larger
+++ system of real equations.)
+++ See \downlink{Manual Page}{manpageXXc05}.
NagRootFindingPackage(): Exports == Implementation where
S ==> Symbol
diff --git a/src/algebra/c06.spad.pamphlet b/src/algebra/c06.spad.pamphlet
index be504dd..a4ed2fe 100644
--- a/src/algebra/c06.spad.pamphlet
+++ b/src/algebra/c06.spad.pamphlet
@@ -15,11 +15,11 @@
++ Author: Godfrey Nolan and Mike Dewar
++ Date Created: Jan 1994
++ Date Last Updated: Thu May 12 17:44:30 1994
-++Description:
-++This package uses the NAG Library to calculate the discrete Fourier
-++transform of a sequence of real or complex data values, and
-++applies it to calculate convolutions and correlations.
-++See \downlink{Manual Page}{manpageXXc06}.
+++ Description:
+++ This package uses the NAG Library to calculate the discrete Fourier
+++ transform of a sequence of real or complex data values, and
+++ applies it to calculate convolutions and correlations.
+++ See \downlink{Manual Page}{manpageXXc06}.
NagSeriesSummationPackage(): Exports == Implementation where
S ==> Symbol
diff --git a/src/algebra/d01.spad.pamphlet b/src/algebra/d01.spad.pamphlet
index d3770e1..f3f99c5 100644
--- a/src/algebra/d01.spad.pamphlet
+++ b/src/algebra/d01.spad.pamphlet
@@ -15,11 +15,11 @@
++ Author: Godfrey Nolan and Mike Dewar
++ Date Created: Jan 1994
++ Date Last Updated: Thu May 12 17:44:37 1994
-++Description:
-++This package uses the NAG Library to calculate the numerical value of
-++definite integrals in one or more dimensions and to evaluate
-++weights and abscissae of integration rules.
-++See \downlink{Manual Page}{manpageXXd01}.
+++ Description:
+++ This package uses the NAG Library to calculate the numerical value of
+++ definite integrals in one or more dimensions and to evaluate
+++ weights and abscissae of integration rules.
+++ See \downlink{Manual Page}{manpageXXd01}.
NagIntegrationPackage(): Exports == Implementation where
S ==> Symbol
diff --git a/src/algebra/d02.spad.pamphlet b/src/algebra/d02.spad.pamphlet
index 2b4e3d2..3238c4c 100644
--- a/src/algebra/d02.spad.pamphlet
+++ b/src/algebra/d02.spad.pamphlet
@@ -15,16 +15,16 @@
++ Author: Godfrey Nolan and Mike Dewar
++ Date Created: Jan 1994
++ Date Last Updated: Mon Jun 20 17:56:33 1994
-++Description:
-++This package uses the NAG Library to calculate the numerical solution of ordinary
-++differential equations. There are two main types of problem,
-++those in which all boundary conditions are specified at one point
-++(initial-value problems), and those in which the boundary
-++conditions are distributed between two or more points (boundary-
-++value problems and eigenvalue problems). Routines are available
-++for initial-value problems, two-point boundary-value problems and
-++Sturm-Liouville eigenvalue problems.
-++See \downlink{Manual Page}{manpageXXd02}.
+++ Description:
+++ This package uses the NAG Library to calculate the numerical solution of
+++ ordinary differential equations. There are two main types of problem,
+++ those in which all boundary conditions are specified at one point
+++ (initial-value problems), and those in which the boundary
+++ conditions are distributed between two or more points (boundary-
+++ value problems and eigenvalue problems). Routines are available
+++ for initial-value problems, two-point boundary-value problems and
+++ Sturm-Liouville eigenvalue problems.
+++ See \downlink{Manual Page}{manpageXXd02}.
NagOrdinaryDifferentialEquationsPackage(): Exports == Implementation where
S ==> Symbol
FOP ==> FortranOutputStackPackage
diff --git a/src/algebra/d03.spad.pamphlet b/src/algebra/d03.spad.pamphlet
index 9f4e0cb..15eba88 100644
--- a/src/algebra/d03.spad.pamphlet
+++ b/src/algebra/d03.spad.pamphlet
@@ -15,10 +15,10 @@
++ Author: Godfrey Nolan and Mike Dewar
++ Date Created: Jan 1994
++ Date Last Updated: Thu May 12 17:44:51 1994
-++Description:
-++This package uses the NAG Library to solve partial
-++differential equations.
-++See \downlink{Manual Page}{manpageXXd03}.
+++ Description:
+++ This package uses the NAG Library to solve partial
+++ differential equations.
+++ See \downlink{Manual Page}{manpageXXd03}.
NagPartialDifferentialEquationsPackage(): Exports == Implementation where
S ==> Symbol
FOP ==> FortranOutputStackPackage
diff --git a/src/algebra/e01.spad.pamphlet b/src/algebra/e01.spad.pamphlet
index 9ad62c8..47a4131 100644
--- a/src/algebra/e01.spad.pamphlet
+++ b/src/algebra/e01.spad.pamphlet
@@ -15,16 +15,16 @@
++ Author: Godfrey Nolan and Mike Dewar
++ Date Created: Jan 1994
++ Date Last Updated: Thu May 12 17:44:53 1994
-++Description:
-++This package uses the NAG Library to calculate the interpolation of a function of
-++one or two variables. When provided with the value of the
-++function (and possibly one or more of its lowest-order
-++derivatives) at each of a number of values of the variable(s),
-++the routines provide either an interpolating function or an
-++interpolated value. For some of the interpolating functions,
-++there are supporting routines to evaluate, differentiate or
-++integrate them.
-++See \downlink{Manual Page}{manpageXXe01}.
+++ Description:
+++ This package uses the NAG Library to calculate the interpolation of a
+++ function of one or two variables. When provided with the value of the
+++ function (and possibly one or more of its lowest-order
+++ derivatives) at each of a number of values of the variable(s),
+++ the routines provide either an interpolating function or an
+++ interpolated value. For some of the interpolating functions,
+++ there are supporting routines to evaluate, differentiate or
+++ integrate them.
+++ See \downlink{Manual Page}{manpageXXe01}.
NagInterpolationPackage(): Exports == Implementation where
diff --git a/src/algebra/e02.spad.pamphlet b/src/algebra/e02.spad.pamphlet
index e09dfca..dfe3306 100644
--- a/src/algebra/e02.spad.pamphlet
+++ b/src/algebra/e02.spad.pamphlet
@@ -15,31 +15,31 @@
++ Author: Godfrey Nolan and Mike Dewar
++ Date Created: Jan 1994
++ Date Last Updated: Thu May 12 17:44:59 1994
-++Description:
-++This package uses the NAG Library to find a
-++function which approximates a set of data points. Typically the
-++data contain random errors, as of experimental measurement, which
-++need to be smoothed out. To seek an approximation to the data, it
-++is first necessary to specify for the approximating function a
-++mathematical form (a polynomial, for example) which contains a
-++number of unspecified coefficients: the appropriate fitting
-++routine then derives for the coefficients the values which
-++provide the best fit of that particular form. The package deals
-++mainly with curve and surface fitting (i.e., fitting with
-++functions of one and of two variables) when a polynomial or a
-++cubic spline is used as the fitting function, since these cover
-++the most common needs. However, fitting with other functions
-++and/or more variables can be undertaken by means of general
-++linear or nonlinear routines (some of which are contained in
-++other packages) depending on whether the coefficients in the
-++function occur linearly or nonlinearly. Cases where a graph
-++rather than a set of data points is given can be treated simply
-++by first reading a suitable set of points from the graph.
-++The package also contains routines for evaluating,
-++differentiating and integrating polynomial and spline curves and
-++surfaces, once the numerical values of their coefficients have
-++been determined.
-++See \downlink{Manual Page}{manpageXXe02}.
+++ Description:
+++ This package uses the NAG Library to find a
+++ function which approximates a set of data points. Typically the
+++ data contain random errors, as of experimental measurement, which
+++ need to be smoothed out. To seek an approximation to the data, it
+++ is first necessary to specify for the approximating function a
+++ mathematical form (a polynomial, for example) which contains a
+++ number of unspecified coefficients: the appropriate fitting
+++ routine then derives for the coefficients the values which
+++ provide the best fit of that particular form. The package deals
+++ mainly with curve and surface fitting (i.e., fitting with
+++ functions of one and of two variables) when a polynomial or a
+++ cubic spline is used as the fitting function, since these cover
+++ the most common needs. However, fitting with other functions
+++ and/or more variables can be undertaken by means of general
+++ linear or nonlinear routines (some of which are contained in
+++ other packages) depending on whether the coefficients in the
+++ function occur linearly or nonlinearly. Cases where a graph
+++ rather than a set of data points is given can be treated simply
+++ by first reading a suitable set of points from the graph.
+++ The package also contains routines for evaluating,
+++ differentiating and integrating polynomial and spline curves and
+++ surfaces, once the numerical values of their coefficients have
+++ been determined.
+++ See \downlink{Manual Page}{manpageXXe02}.
NagFittingPackage(): Exports == Implementation where
diff --git a/src/algebra/e04.spad.pamphlet b/src/algebra/e04.spad.pamphlet
index e0f482f..e8fd934 100644
--- a/src/algebra/e04.spad.pamphlet
+++ b/src/algebra/e04.spad.pamphlet
@@ -15,16 +15,16 @@
++ Author: Godfrey Nolan and Mike Dewar
++ Date Created: Jan 1994
++ Date Last Updated: Thu May 12 17:45:09 1994
-++Description:
-++This package uses the NAG Library to perform optimization.
-++An optimization problem involves minimizing a function (called
-++the objective function) of several variables, possibly subject to
-++restrictions on the values of the variables defined by a set of
-++constraint functions. The routines in the NAG Foundation Library
-++are concerned with function minimization only, since the problem
-++of maximizing a given function can be transformed into a
-++minimization problem simply by multiplying the function by -1.
-++See \downlink{Manual Page}{manpageXXe04}.
+++ Description:
+++ This package uses the NAG Library to perform optimization.
+++ An optimization problem involves minimizing a function (called
+++ the objective function) of several variables, possibly subject to
+++ restrictions on the values of the variables defined by a set of
+++ constraint functions. The routines in the NAG Foundation Library
+++ are concerned with function minimization only, since the problem
+++ of maximizing a given function can be transformed into a
+++ minimization problem simply by multiplying the function by -1.
+++ See \downlink{Manual Page}{manpageXXe04}.
NagOptimisationPackage(): Exports == Implementation where
S ==> Symbol
FOP ==> FortranOutputStackPackage
diff --git a/src/algebra/f01.spad.pamphlet b/src/algebra/f01.spad.pamphlet
index edbbc35..2799673 100644
--- a/src/algebra/f01.spad.pamphlet
+++ b/src/algebra/f01.spad.pamphlet
@@ -15,10 +15,10 @@
++ Author: Godfrey Nolan and Mike Dewar
++ Date Created: Jan 1994
++ Date Last Updated: Thu May 12 17:45:15 1994
-++Description:
-++This package uses the NAG Library to provide facilities for matrix factorizations and
-++associated transformations.
-++See \downlink{Manual Page}{manpageXXf01}.
+++ Description:
+++ This package uses the NAG Library to provide facilities for matrix
+++ factorizations and associated transformations.
+++ See \downlink{Manual Page}{manpageXXf01}.
NagMatrixOperationsPackage(): Exports == Implementation where
S ==> Symbol
FOP ==> FortranOutputStackPackage
diff --git a/src/algebra/f02.spad.pamphlet b/src/algebra/f02.spad.pamphlet
index e5db779..36c0a08 100644
--- a/src/algebra/f02.spad.pamphlet
+++ b/src/algebra/f02.spad.pamphlet
@@ -15,15 +15,15 @@
++ Author: Godfrey Nolan and Mike Dewar
++ Date Created: Jan 1994
++ Date Last Updated: Thu May 12 17:45:20 1994
-++Description:
-++This package uses the NAG Library to compute
-++\begin{items}
-++\item eigenvalues and eigenvectors of a matrix
-++\item eigenvalues and eigenvectors of generalized matrix
-++eigenvalue problems
-++\item singular values and singular vectors of a matrix.
-++\end{items}
-++See \downlink{Manual Page}{manpageXXf02}.
+++ Description:
+++ This package uses the NAG Library to compute
+++ \begin{items}
+++ \item eigenvalues and eigenvectors of a matrix
+++ \item eigenvalues and eigenvectors of generalized matrix
+++ eigenvalue problems
+++ \item singular values and singular vectors of a matrix.
+++ \end{items}
+++ See \downlink{Manual Page}{manpageXXf02}.
NagEigenPackage(): Exports == Implementation where
S ==> Symbol
diff --git a/src/algebra/f04.spad.pamphlet b/src/algebra/f04.spad.pamphlet
index 8be3d92..bbd3374 100644
--- a/src/algebra/f04.spad.pamphlet
+++ b/src/algebra/f04.spad.pamphlet
@@ -15,13 +15,14 @@
++ Author: Godfrey Nolan and Mike Dewar
++ Date Created: Jan 1994
++ Date Last Updated: Thu May 12 17:45:31 1994
-++Description:
-++This package uses the NAG Library to solve the matrix equation \axiom{AX=B}, where \axiom{B}
-++may be a single vector or a matrix of multiple right-hand sides.
-++The matrix \axiom{A} may be real, complex, symmetric, Hermitian positive-
-++definite, or sparse. It may also be rectangular, in which case a
-++least-squares solution is obtained.
-++See \downlink{Manual Page}{manpageXXf04}.
+++ Description:
+++ This package uses the NAG Library to solve the matrix equation
+++ \axiom{AX=B}, where \axiom{B}
+++ may be a single vector or a matrix of multiple right-hand sides.
+++ The matrix \axiom{A} may be real, complex, symmetric, Hermitian positive-
+++ definite, or sparse. It may also be rectangular, in which case a
+++ least-squares solution is obtained.
+++ See \downlink{Manual Page}{manpageXXf04}.
NagLinearEquationSolvingPackage(): Exports == Implementation where
S ==> Symbol
FOP ==> FortranOutputStackPackage
diff --git a/src/algebra/f07.spad.pamphlet b/src/algebra/f07.spad.pamphlet
index bc8f4ae..7b94a78 100644
--- a/src/algebra/f07.spad.pamphlet
+++ b/src/algebra/f07.spad.pamphlet
@@ -15,11 +15,11 @@
++ Author: Godfrey Nolan and Mike Dewar
++ Date Created: Jan 1994
++ Date Last Updated: Thu May 12 17:45:42 1994
-++Description:
-++This package uses the NAG Library to compute matrix
-++factorizations, and to solve systems of linear equations
-++following the matrix factorizations.
-++See \downlink{Manual Page}{manpageXXf07}.
+++ Description:
+++ This package uses the NAG Library to compute matrix
+++ factorizations, and to solve systems of linear equations
+++ following the matrix factorizations.
+++ See \downlink{Manual Page}{manpageXXf07}.
NagLapack(): Exports == Implementation where
S ==> Symbol
FOP ==> FortranOutputStackPackage
diff --git a/src/algebra/multsqfr.spad.pamphlet b/src/algebra/multsqfr.spad.pamphlet
index fbc32ee..271d61b 100644
--- a/src/algebra/multsqfr.spad.pamphlet
+++ b/src/algebra/multsqfr.spad.pamphlet
@@ -12,7 +12,7 @@
\section{package MULTSQFR MultivariateSquareFree}
<>=
)abbrev package MULTSQFR MultivariateSquareFree
-++Author : P.Gianni
+++ Author : P.Gianni
++ This package provides the functions for the computation of the square
++ free decomposition of a multivariate polynomial.
++ It uses the package GenExEuclid for the resolution of
diff --git a/src/algebra/s.spad.pamphlet b/src/algebra/s.spad.pamphlet
index 7da7e73..785bb5f 100644
--- a/src/algebra/s.spad.pamphlet
+++ b/src/algebra/s.spad.pamphlet
@@ -15,10 +15,10 @@
++ Author: Godfrey Nolan and Mike Dewar
++ Date Created: Jan 1994
++ Date Last Updated: Thu May 12 17:45:44 1994
-++Description:
-++This package uses the NAG Library to compute some commonly
-++occurring physical and mathematical functions.
-++See \downlink{Manual Page}{manpageXXs}.
+++ Description:
+++ This package uses the NAG Library to compute some commonly
+++ occurring physical and mathematical functions.
+++ See \downlink{Manual Page}{manpageXXs}.
NagSpecialFunctionsPackage(): Exports == Implementation where
S ==> Symbol
FOP ==> FortranOutputStackPackage