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Commit cf83a302 authored by liam's avatar liam
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Interpolation and splines added. New macro defvariable for access to

variables in the library.


git-svn-id: svn+ssh://pop/opt/space/mathematics/gsl/trunk@3243 a3d8a0fb-c1db-0310-ace7-a616afeb9e30
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......@@ -3,7 +3,7 @@
; description: Definition of GSLL system
; date:
; author: Liam Healy
; modified: Thu Oct 18 2007 - 22:18
; modified: Sat Nov 10 2007 - 21:15
;********************************************************
;;; $Id: $
......@@ -159,4 +159,11 @@
(:file "stepping")
(:file "control")
(:file "evolution")
(:file "ode-example" :depends-on (ode-system stepping))))))
(:file "ode-example" :depends-on (ode-system stepping))))
(:module interpolation
:depends-on (init)
:components
((:file "interpolation")
(:file "types")
(:file "lookup")
(:file "evaluation")))))
......@@ -85,7 +85,8 @@ to find that the Lisp function name is #'JACOBIAN-ELLIPTIC-FUNCTIONS.
</pre>
to get an explanation of the arguments etc.
</li>
<li>Look at the end of the Lisp source file for examples.</li>
<li>Look at the end of the Lisp source file, or in an "example" file
in the same directory, for examples.</li>
</ul>
</div>
......@@ -128,7 +129,7 @@ svn checkout svn://common-lisp.net/project/gsll/subversion/trunk</pre>
<h3>Project Development</h3>
<div class="content">
<p>This project has been in development for a year. A majority is
<p>This project has been in development since March 2006. A majority is
done, but there is still much work to do. The status is summarized
below, by reference to the Chapters in the GSL manual.</p>
<p>It is possible that the library API will change but probably not
......@@ -148,7 +149,7 @@ svn checkout svn://common-lisp.net/project/gsll/subversion/trunk</pre>
also serve as examples. The judgement of floating point numbers as
equivalent is a hack, and needs to be replaced; I am looking for
good ideas. Note that most of the result have not been verified
with an indpendent source; the values given are from previous
with an independent source; the values given are from previous
tests.</p>
<p>A Trac web page will soon be set up for those interested in
development, and for reporting bugs. In the meantime, send email to
......@@ -272,7 +273,7 @@ svn checkout svn://common-lisp.net/project/gsll/subversion/trunk</pre>
</tr>
<tr>
<td><a href="Interpolation.html">Interpolation</a></td>
<td>Not started</td>
<td>Done</td>
</tr>
<tr>
<td><a href="Numerical-Differentiation.html">Numerical Differentiation</a></td>
......
......@@ -3,7 +3,7 @@
; description: Macros to interface GSL functions.
; date: Mon Mar 6 2006 - 22:35
; author: Liam M. Healy
; modified: Sat Sep 29 2007 - 22:43
; modified: Sun Nov 4 2007 - 17:50
;********************************************************
(in-package :gsl)
......@@ -215,10 +215,6 @@
(map-name ',(or index name) ,gsl-name)
,@(when export `((export ',name))))))
;;;;****************************************************************************
;;;; Macro defun-gsl
;;;;****************************************************************************
(defmacro defun-optionals
(name arglist no-optional optionals &optional documentation)
"Define a function with and without optional arguments."
......@@ -234,3 +230,14 @@
(,(intern
(concatenate 'string (string name) (string no-optional)))
,@mandatory-arglist)))))
;;;;****************************************************************************
;;;; Variables in library
;;;;****************************************************************************
(defmacro defvariable (cl-symbol gsl-symbol documentation)
"Define a library variable pointer."
`(progn
(cffi:defcvar (,gsl-symbol ,cl-symbol) :pointer :read-only t)
(map-name ',cl-symbol ,gsl-symbol)
(setf (documentation ',cl-symbol 'variable) ,documentation)))
;********************************************************
; file: evaluation.lisp
; description: Evaluation of interpolation functions.
; date: Sun Nov 4 2007 - 18:40
; author: Liam Healy
; modified: Sun Nov 4 2007 - 19:04
;********************************************************
;;; $Id: $
(in-package :gsl)
(defun-gsl evaluate-interpolation (interpolation xa ya x acceleration)
"gsl_interp_eval"
((interpolation :pointer) (xa :pointer) (ya :pointer) (x :double)
(acceleration :pointer))
:c-return :double
:documentation
"Find the interpolated value of @var{y} for a given
point @var{x}, using the interpolation object 'interpolation, data arrays
@var{xa} and @var{ya} and the accelerator 'acceleration.")
(defun-gsl derivative-evaluate-interpolation (interpolation xa ya x acceleration)
"gsl_interp_eval_deriv"
((interpolation :pointer) (xa :pointer) (ya :pointer) (x :double)
(acceleration :pointer))
:c-return :double
:documentation
"Find the derivative of an interpolated function for a given point
@var{x}, using the interpolation object 'interpolation, data arrays
@var{xa} and @var{ya} and the accelerator 'acceleration.")
(defun-gsl second-derivative-evaluate-interpolation (interpolation xa ya x acceleration)
"gsl_interp_eval_deriv2"
((interpolation :pointer) (xa :pointer) (ya :pointer) (x :double)
(acceleration :pointer))
:c-return :double
:documentation
"Find the second derivative of an interpolated function for a given point
@var{x}, using the interpolation object 'interpolation, data arrays
@var{xa} and @var{ya} and the accelerator 'acceleration.")
(defun-gsl integral-evaluate-interpolation (interpolation xa ya x low high acceleration)
"gsl_interp_eval_integ"
((interpolation :pointer) (xa :pointer) (ya :pointer) (x :double)
(low :double) (high :double) (acceleration :pointer))
:c-return :double
:documentation
"Find the numerical integral of an interpolated function over the
range [low, high], using the interpolation object 'interpolation,
data arrays @var{xa} and @var{ya} and the accelerator 'acceleration.")
;;; Spline
(defun-gsl evaluate-spline (spline x acceleration)
"gsl_spline_eval"
((spline :pointer) (x :double) (acceleration :pointer))
:c-return :double
:documentation
"Find the interpolated value of @var{y} for a given
point @var{x}, using the spline object 'spline, data arrays
@var{xa} and @var{ya} and the accelerator 'acceleration.")
(defun-gsl derivative-evaluate-spline (spline x acceleration)
"gsl_spline_eval_deriv"
((spline :pointer) (x :double) (acceleration :pointer))
:c-return :double
:documentation
"Find the derivative of an interpolated function for a given point
@var{x}, using the spline object 'spline, data arrays
@var{xa} and @var{ya} and the accelerator 'acceleration.")
(defun-gsl second-derivative-evaluate-spline (spline x acceleration)
"gsl_spline_eval_deriv2"
((spline :pointer) (x :double) (acceleration :pointer))
:c-return :double
:documentation
"Find the second derivative of an interpolated function for a given point
@var{x}, using the spline object 'spline, data arrays
@var{xa} and @var{ya} and the accelerator 'acceleration.")
(defun-gsl integral-evaluate-spline (spline x low high acceleration)
"gsl_spline_eval_integ"
((spline :pointer) (x :double) (low :double) (high :double)
(acceleration :pointer))
:c-return :double
:documentation
"Find the numerical integral of an interpolated function over the
range [low, high], using the spline object 'spline,
data arrays @var{xa} and @var{ya} and the accelerator 'acceleration.")
;********************************************************
; file: interpolation.lisp
; description: Interpolation allocation, initialization,
; and freeing.
; date: Sun Nov 4 2007 - 17:24
; author: Liam Healy
; modified: Sun Nov 4 2007 - 19:00
;********************************************************
;;; $Id: $
(in-package :gsl)
;;; A spline is an interpolation that also stores the arrays xa and ya,
;;; so they need not be supplied on each call.
;;; Interpolation
(defun-gsl allocate-interpolation (type size)
"gsl_interp_alloc"
((type :pointer) (size :size))
:c-return :pointer
:documentation
"Allocate an interpolation object of type for size data-points,
and return the pointer to it.")
(defun-gsl initialize-interpolation (interpolation xa ya size)
"gsl_interp_init"
((interpolation :pointer) (xa :pointer) (ya :pointer) (size :size))
:documentation
"Initialize the interpolation object @var{interp} for the
data (@var{xa},@var{ya}) where @var{xa} and @var{ya} are arrays of size
@var{size}. The interpolation object (@code{gsl_interp}) does not save
the data arrays @var{xa} and @var{ya} and only stores the static state
computed from the data. The @var{xa} data array is always assumed to be
strictly ordered; the behavior for other arrangements is not defined.")
(defun-gsl free-interpolation (interpolation)
"gsl_interp_free"
((interpolation :pointer))
:c-return :void
:documentation
"Frees the interpolation object @var{interp}.")
;;; Spline
(defun-gsl allocate-spline (type size)
"gsl_spline_alloc"
((type :pointer) (size :size))
:c-return :pointer
:documentation
"Allocate an interpolation object of type for size data-points,
and return the pointer to it.")
(defun-gsl initialize-spline (interpolation xa ya size)
"gsl_spline_init"
((interpolation :pointer) (xa :pointer) (ya :pointer) (size :size))
:documentation
"Initialize the interpolation object @var{interp} for the
data (@var{xa},@var{ya}) where @var{xa} and @var{ya} are arrays of size
@var{size}. The interpolation object (@code{gsl_spline}) does not save
the data arrays @var{xa} and @var{ya} and only stores the static state
computed from the data. The @var{xa} data array is always assumed to be
strictly ordered; the behavior for other arrangements is not defined.")
(defun-gsl free-spline (interpolation)
"gsl_spline_free"
((interpolation :pointer))
:c-return :void
:documentation
"Frees the interpolation object @var{interp}.")
;********************************************************
; file: lookup.lisp
; description: Index lookup and acceleration
; date: Sun Nov 4 2007 - 18:09
; author: Liam Healy
; modified: Sat Nov 10 2007 - 21:16
;********************************************************
;;; $Id: $
(in-package :gsl)
;;; Lacks with-acceleration macro.
(defun-gsl interpolation-search (x-array x low-index high-index)
"gsl_interp_bsearch"
((x-array :pointer) (x :double) (low-index :size) (high-index :size))
:c-return :size
:documentation
"Find the index @math{i} of the array @var{x-array} such
that @code{x-array[i] <= x < x-array[i+1]}. The index is searched for
in the range [low-index, high-index].")
(defun-gsl allocate-acceleration ()
"gsl_interp_accel_alloc"
()
:c-return :pointer
:documentation
"Allocate an accelerator object, which is a
kind of iterator for interpolation lookups. It tracks the state of
lookups, thus allowing for application of various acceleration
strategies.")
(defun-gsl accelerated-interpolation-search (x-array x acceleration)
"gsl_interp_accel_find"
((acceleration :pointer) (x-array :pointer) (x :double))
:c-return :size
:documentation
"Search the data array @var{x_array}
of size @var{size}, using the given accelerator @var{a}. This is how
lookups are performed during evaluation of an interpolation. The
function returns an index @math{i} such that @code{x_array[i] <= x <
x_array[i+1]}.")
(defun-gsl free-acceleration (acceleration)
"gsl_interp_accel_free"
((acceleration :pointer))
:c-return :void
:documentation
"Frees the accelerator object.")
;********************************************************
; file: spline-example.lisp
; description: Example spline
; date: Sat Nov 10 2007 - 21:18
; author: Liam Healy
; modified: Sat Nov 10 2007 - 22:10
;********************************************************
;;; $Id: $
(in-package :gsl)
;;; Possible future improvements:
;;; Direct double-float vectors.
;;; Use generic alloc/free defined in data.lisp
(defun spline-example-arrays ()
(let ((xarr (make-array '(10) :element-type 'double-float))
(yarr (make-array '(10) :element-type 'double-float)))
(loop for i from 0 below 10
do (setf (aref xarr i) (+ i (* 0.5d0 (sin (coerce i 'double-float))))
(aref yarr i) (+ i (cos (expt (coerce i 'double-float) 2)))))
(values xarr yarr)))
(defun spline-example ()
"The first example in Sec. 26.7 of the GSL manual."
(let ((acc (allocate-acceleration))
(spline (allocate-spline *cubic-spline-interpolation* 10)))
(multiple-value-bind (xarr yarr)
(spline-example-arrays)
(with-data (cxarr vector-double 10)
(with-data (cyarr vector-double 10)
(setf (data cxarr) xarr (data cyarr) yarr)
(initialize-spline spline (gsl-array cxarr) (gsl-array cyarr) 10)
(prog1
(loop for xi from (aref xarr 0) below (aref xarr 9) by 0.01d0
collect (list xi (evaluate-spline spline xi acc)))
(free-spline spline)
(free-acceleration acc)))))))
;********************************************************
; file: types.lisp
; description: Interpolation types
; date: Sun Nov 4 2007 - 17:41
; author: Liam Healy
; modified: Sun Nov 4 2007 - 19:02
;********************************************************
;;; $Id: $
(in-package :gsl)
(defvariable *linear-interpolation* "gsl_interp_linear"
"Linear interpolation. This interpolation method does not require any
additional memory.")
(defvariable *polynomial-interpolation* "gsl_interp_polynomial"
"Polynomial interpolation. This method should only be used for
interpolating small numbers of points because polynomial interpolation
introduces large oscillations, even for well-behaved datasets. The
number of terms in the interpolating polynomial is equal to the number
of points.")
(defvariable *cubic-spline-interpolation* "gsl_interp_cspline"
"Cubic spline with natural boundary conditions. The resulting curve is
piecewise cubic on each interval, with matching first and second
derivatives at the supplied data-points. The second derivative is
chosen to be zero at the first point and last point.")
(defvariable *periodic-cubic-spline-interpolation* "gsl_interp_cspline_periodic"
"Cubic spline with periodic boundary conditions. The resulting curve
is piecewise cubic on each interval, with matching first and second
derivatives at the supplied data-points. The derivatives at the first
and last points are also matched. Note that the last point in the
data must have the same y-value as the first point, otherwise the
resulting periodic interpolation will have a discontinuity at the
boundary.")
(defvariable *akima-interpolation* "gsl_interp_akima"
"Non-rounded Akima spline with natural boundary conditions. This method
uses the non-rounded corner algorithm of Wodicka.")
(defvariable *periodic-akima-interpolation* "gsl_interp_akima_periodic"
"Non-rounded Akima spline with periodic boundary conditions. This method
uses the non-rounded corner algorithm of Wodicka.")
(defun-gsl interpolation-name (interpolation)
"gsl_interp_name"
((interpolation :pointer))
:c-return :string
:documentation
"This function returns the name of the interpolation type.")
(defun-gsl interpolation-minimum-size (interpolation)
"gsl_interp_min_size"
((interpolation :pointer))
:c-return :uint
:documentation
"The minimum number of points required by the
interpolation. For example, Akima spline interpolation
requires a minimum of 5 points.")
(defun-gsl spline-name (interpolation)
"gsl_spline_name"
((interpolation :pointer))
:c-return :string
:documentation
"This function returns the name of the interpolation type.")
(defun-gsl spline-minimum-size (interpolation)
"gsl_spline_min_size"
((interpolation :pointer))
:c-return :uint
:documentation
"The minimum number of points required by the
interpolation. For example, Akima spline interpolation
requires a minimum of 5 points.")
......@@ -3,7 +3,7 @@
; description: Stepping functions for ODE systems
; date: Mon Sep 24 2007 - 21:33
; author: Liam Healy
; modified: Tue Oct 16 2007 - 22:45
; modified: Sun Nov 4 2007 - 17:54
;********************************************************
;;; $Id: $
......@@ -78,39 +78,34 @@
those from @code{gsl_odeiv_step_apply} itself, any user-defined return
values should be distinct from the standard GSL error codes.")
(defmacro defstep (cl-symbol gsl-symbol documentation)
`(progn
(cffi:defcvar (,gsl-symbol ,cl-symbol) :pointer :read-only t)
(setf (documentation ',cl-symbol 'variable) ,documentation)))
(defstep *step-rk2* "gsl_odeiv_step_rk2"
(defvariable *step-rk2* "gsl_odeiv_step_rk2"
"Embedded Runge-Kutta (2, 3) method.")
(defstep *step-rk4* "gsl_odeiv_step_rk4"
(defvariable *step-rk4* "gsl_odeiv_step_rk4"
"4th order (classical) Runge-Kutta.")
(defstep *step-rkf45* "gsl_odeiv_step_rkf45"
(defvariable *step-rkf45* "gsl_odeiv_step_rkf45"
"Embedded Runge-Kutta-Fehlberg (4, 5) method. This method is a good
general-purpose integrator.")
(defstep *step-rkck* "gsl_odeiv_step_rkck"
(defvariable *step-rkck* "gsl_odeiv_step_rkck"
"Embedded Runge-Kutta Cash-Karp (4, 5) method.")
(defstep *step-rk8pd* "gsl_odeiv_step_rk8pd"
(defvariable *step-rk8pd* "gsl_odeiv_step_rk8pd"
"Embedded Runge-Kutta Prince-Dormand (8,9) method.")
(defstep *step-rk2imp* "gsl_odeiv_step_rk2imp"
(defvariable *step-rk2imp* "gsl_odeiv_step_rk2imp"
"Implicit 2nd order Runge-Kutta at Gaussian points.")
(defstep *step-rk4imp* "gsl_odeiv_step_rk4imp"
(defvariable *step-rk4imp* "gsl_odeiv_step_rk4imp"
"Implicit 4th order Runge-Kutta at Gaussian points.")
(defstep *step-bsimp* "gsl_odeiv_step_bsimp"
(defvariable *step-bsimp* "gsl_odeiv_step_bsimp"
"Implicit Bulirsch-Stoer method of Bader and Deuflhard. This algorithm
requires the Jacobian.")
(defstep *step-gear1* "gsl_odeiv_step_gear1"
(defvariable *step-gear1* "gsl_odeiv_step_gear1"
"M=1 implicit Gear method.")
(defstep *step-gear2* "gsl_odeiv_step_gear2"
(defvariable *step-gear2* "gsl_odeiv_step_gear2"
"M=2 implicit Gear method.")
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