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\documentclass{article}
\usepackage{open-axiom}
\begin{document}
\title{\$SPAD/src/algebra plot3d.spad}
\author{Clifton J. Williamson, Michael Monagan, Jon Steinbach}
\maketitle
\begin{abstract}
\end{abstract}
\eject
\tableofcontents
\eject
\section{domain PLOT3D Plot3D}
<<domain PLOT3D Plot3D>>=
)abbrev domain PLOT3D Plot3D
++ Author: Clifton J. Williamson based on code by Michael Monagan
++ Date Created: Jan 1989
++ Date Last Updated: 22 November 1990 (Jon Steinbach)
++ Basic Operations: pointPlot, plot, zoom, refine, tRange, tValues,
++ minPoints3D, setMinPoints3D, maxPoints3D, setMaxPoints3D,
++ screenResolution3D, setScreenResolution3D, adaptive3D?, setAdaptive3D,
++ numFunEvals3D, debug3D
++ Related Constructors:
++ Also See:
++ AMS Classifications:
++ Keywords: plot, parametric
++ References:
++ Description: Plot3D supports parametric plots defined over a real
++ number system. A real number system is a model for the real
++ numbers and as such may be an approximation. For example,
++ floating point numbers and infinite continued fractions are
++ real number systems. The facilities at this point are limited
++ to 3-dimensional parametric plots.
Plot3D(): Exports == Implementation where
B ==> Boolean
F ==> DoubleFloat
I ==> Integer
L ==> List
N ==> NonNegativeInteger
OUT ==> OutputForm
P ==> Point F
S ==> String
R ==> Segment F
O ==> OutputPackage
C ==> Record(source: F -> P,ranges: L R, knots: L F, points: L P)
Exports ==> PlottableSpaceCurveCategory with
pointPlot: (F -> P,R) -> %
++ pointPlot(f,g,h,a..b) plots {/emx = f(t), y = g(t), z = h(t)} as
++ t ranges over {/em[a,b]}.
pointPlot: (F -> P,R,R,R,R) -> %
++ pointPlot(f,x,y,z,w) \undocumented
plot: (F -> F,F -> F,F -> F,F -> F,R) -> %
++ plot(f,g,h,a..b) plots {/emx = f(t), y = g(t), z = h(t)} as
++ t ranges over {/em[a,b]}.
plot: (F -> F,F -> F,F -> F,F -> F,R,R,R,R) -> %
++ plot(f1,f2,f3,f4,x,y,z,w) \undocumented
plot: (%,R) -> % -- change the range
++ plot(x,r) \undocumented
zoom: (%,R,R,R) -> %
++ zoom(x,r,s,t) \undocumented
refine: (%,R) -> %
++ refine(x,r) \undocumented
refine: % -> %
++ refine(x) \undocumented
tRange: % -> R
++ tRange(p) returns the range of the parameter in a parametric plot p.
tValues: % -> L L F
++ tValues(p) returns a list of lists of the values of the parameter for
++ which a point is computed, one list for each curve in the plot p.
minPoints3D: () -> I
++ minPoints3D() returns the minimum number of points in a plot.
setMinPoints3D: I -> I
++ setMinPoints3D(i) sets the minimum number of points in a plot to i.
maxPoints3D: () -> I
++ maxPoints3D() returns the maximum number of points in a plot.
setMaxPoints3D: I -> I
++ setMaxPoints3D(i) sets the maximum number of points in a plot to i.
screenResolution3D: () -> I
++ screenResolution3D() returns the screen resolution for a 3d graph.
setScreenResolution3D: I -> I
++ setScreenResolution3D(i) sets the screen resolution for a 3d graph to i.
adaptive3D?: () -> B
++ adaptive3D?() determines whether plotting be done adaptively.
setAdaptive3D: B -> B
++ setAdaptive3D(true) turns adaptive plotting on;
++ setAdaptive3D(false) turns adaptive plotting off.
numFunEvals3D: () -> I
++ numFunEvals3D() returns the number of points computed.
debug3D: B -> B
++ debug3D(true) turns debug mode on;
++ debug3D(false) turns debug mode off.
Implementation ==> add
import PointPackage(F)
--% local functions
fourth : L R -> R
checkRange : R -> R
-- checks that left-hand endpoint is less than right-hand endpoint
intersect : (R,R) -> R
-- intersection of two intervals
union : (R,R) -> R
-- union of two intervals
join : (L C,I) -> R
parametricRange: % -> R
-- setColor : (P,F) -> F
select : (L P,P -> F,(F,F) -> F) -> F
-- normalizeColor : (P,F,F) -> F
rangeRefine : (C,R) -> C
adaptivePlot : (C,R,R,R,R,I,I) -> C
basicPlot : (F -> P,R) -> C
basicRefine : (C,R) -> C
point : (F,F,F,F) -> P
--% representation
Rep := Record( display: L R, _
bounds: L R, _
screenres: I, _
axisLabels: L S, _
functions: L C )
--% global constants
ADAPTIVE : B := true
MINPOINTS : I := 49
MAXPOINTS : I := 1000
NUMFUNEVALS : I := 0
SCREENRES : I := 500
ANGLEBOUND : F := cos inv (4::F)
DEBUG : B := false
point(xx,yy,zz,col) == point(l : L F := [xx,yy,zz,col])
fourth list == first rest rest rest list
checkRange r == (lo r > hi r => error "ranges cannot be negative"; r)
intersect(s,t) == checkRange (max(lo s,lo t) .. min(hi s,hi t))
union(s:R,t:R) == min(lo s,lo t) .. max(hi s,hi t)
join(l,i) ==
rr := first l
u : R :=
i = 0 => first(rr.ranges)
i = 1 => second(rr.ranges)
i = 2 => third(rr.ranges)
fourth(rr.ranges)
for r in rest l repeat
i = 0 => u := union(u,first(r.ranges))
i = 1 => u := union(u,second(r.ranges))
i = 2 => u := union(u,third(r.ranges))
u := union(u,fourth(r.ranges))
u
parametricRange r == first(r.bounds)
minPoints3D() == MINPOINTS
setMinPoints3D n ==
if n < 3 then error "three points minimum required"
if MAXPOINTS < n then MAXPOINTS := n
MINPOINTS := n
maxPoints3D() == MAXPOINTS
setMaxPoints3D n ==
if n < 3 then error "three points minimum required"
if MINPOINTS > n then MINPOINTS := n
MAXPOINTS := n
screenResolution3D() == SCREENRES
setScreenResolution3D n ==
if n < 2 then error "buy a new terminal"
SCREENRES := n
adaptive3D?() == ADAPTIVE
setAdaptive3D b == ADAPTIVE := b
numFunEvals3D() == NUMFUNEVALS
debug3D b == DEBUG := b
-- setColor(p,c) == p.colNum := c
xRange plot == second plot.bounds
yRange plot == third plot.bounds
zRange plot == fourth plot.bounds
tRange plot == first plot.bounds
tValues plot ==
outList : L L F := nil()
for curve in plot.functions repeat
outList := concat(curve.knots,outList)
outList
select(l,f,g) ==
m := f first l
if (EQL(m, quietDoubleNaN()$Lisp)$Lisp) then m := 0
-- for p in rest l repeat m := g(m,fp)
for p in rest l repeat
fp : F := f p
if (EQL(fp, quietDoubleNaN()$Lisp)$Lisp) then fp := 0
m := g(m,fp)
m
-- normalizeColor(p,lo,diff) ==
-- p.colNum := (p.colNum - lo)/diff
rangeRefine(curve,nRange) ==
checkRange nRange; l := lo nRange; h := hi nRange
t := curve.knots; p := curve.points; f := curve.source
while not null t and first t < l repeat
(t := rest t; p := rest p)
c : L F := nil(); q : L P := nil()
while not null t and first t <= h repeat
c := concat(first t,c); q := concat(first p,q)
t := rest t; p := rest p
if null c then return basicPlot(f,nRange)
if first c < h then
c := concat(h,c); q := concat(f h,q)
NUMFUNEVALS := NUMFUNEVALS + 1
t := c := reverse! c; p := q := reverse! q
s := (h-l)/(MINPOINTS::F-1)
if (first t) ~= l then
t := c := concat(l,c); p := q := concat(f l,p)
NUMFUNEVALS := NUMFUNEVALS + 1
while not null rest t repeat
n := wholePart((second(t) - first(t))/s)
d := (second(t) - first(t))/((n+1)::F)
for i in 1..n repeat
t.rest := concat(first(t) + d,rest t); t1 := second t
p.rest := concat(f t1,rest p)
NUMFUNEVALS := NUMFUNEVALS + 1
t := rest t; p := rest p
t := rest t
p := rest p
xRange := select(q,xCoord,min) .. select(q,xCoord,max)
yRange := select(q,yCoord,min) .. select(q,yCoord,max)
zRange := select(q,zCoord,min) .. select(q,zCoord,max)
-- colorLo := select(q,color,min); colorHi := select(q,color,max)
-- (diff := colorHi - colorLo) = 0 =>
-- error "all points are the same color"
-- map(normalizeColor(#1,colorLo,diff),q)$ListPackage1(P)
[f,[nRange,xRange,yRange,zRange],c,q]
adaptivePlot(curve,tRg,xRg,yRg,zRg,pixelfraction,resolution) ==
xDiff := hi xRg - lo xRg
yDiff := hi yRg - lo yRg
zDiff := hi zRg - lo zRg
-- xDiff = 0 or yDiff = 0 or zDiff = 0 => curve--!! delete this?
if xDiff = 0::F then xDiff := 1::F
if yDiff = 0::F then yDiff := 1::F
if zDiff = 0::F then zDiff := 1::F
l := lo tRg; h := hi tRg
(tDiff := h-l) = 0 => curve
t := curve.knots
#t < 3 => curve
p := curve.points; f := curve.source
minLength:F := 4::F/resolution::F
maxLength := 1/4::F
tLimit := tDiff/(pixelfraction*resolution)::F
while not null t and first t < l repeat (t := rest t; p := rest p)
#t < 3 => curve
headert := t; headerp := p
st := t; sp := p
todot : L L F := nil()
todop : L L P := nil()
while not null rest rest st repeat
todot := concat!(todot, st)
todop := concat!(todop, sp)
st := rest st; sp := rest sp
st := headert; sp := headerp
todo1 := todot; todo2 := todop
n : I := 0
while not null todo1 repeat
st := first(todo1)
t0 := first(st); t1 := second(st); t2 := third(st)
if t2 > h then leave
t2 - t0 < tLimit =>
todo1 := rest todo1
todo2 := rest todo2;
if not null todo1 then (t := first(todo1); p := first(todo2))
sp := first(todo2)
x0 := xCoord first(sp); y0 := yCoord first(sp); z0 := zCoord first(sp)
x1 := xCoord second(sp); y1 := yCoord second(sp); z1 := zCoord second(sp)
x2 := xCoord third(sp); y2 := yCoord third(sp); z2 := zCoord third(sp)
a1 := (x1-x0)/xDiff; b1 := (y1-y0)/yDiff; c1 := (z1-z0)/zDiff
a2 := (x2-x1)/xDiff; b2 := (y2-y1)/yDiff; c2 := (z2-z1)/zDiff
s1 := sqrt(a1**2+b1**2+c1**2); s2 := sqrt(a2**2+b2**2+c2**2)
dp := a1*a2+b1*b2+c1*c2
s1 < maxLength and s2 < maxLength and _
(s1 = 0 or s2 = 0 or
s1 < minLength and s2 < minLength or _
dp/s1/s2 > ANGLEBOUND) =>
todo1 := rest todo1
todo2 := rest todo2
if not null todo1 then (t := first(todo1); p := first(todo2))
if n = MAXPOINTS then leave else n := n + 1
--if DEBUG then
--r : L F := [minLength,maxLength,s1,s2,dp/s1/s2,ANGLEBOUND]
--output(r::E)$O
st := rest t
if not null rest rest st then
tm := (t0+t1)/2::F
tj := tm
t.rest := concat(tj,rest t)
p.rest := concat(f tj, rest p)
todo1 := concat!(todo1, t)
todo2 := concat!(todo2, p)
t := rest t; p := rest p
todo1 := concat!(todo1, t)
todo2 := concat!(todo2, p)
t := rest t; p := rest p
todo1 := rest todo1; todo2 := rest todo2
tm := (t1+t2)/2::F
tj := tm
t.rest := concat(tj, rest t)
p.rest := concat(f tj, rest p)
todo1 := concat!(todo1, t)
todo2 := concat!(todo2, p)
t := rest t; p := rest p
todo1 := concat!(todo1, t)
todo2 := concat!(todo2, p)
todo1 := rest todo1; todo2 := rest todo2
if not null todo1 then (t := first(todo1); p := first(todo2))
else
tm := (t0+t1)/2::F
tj := tm
t.rest := concat(tj,rest t)
p.rest := concat(f tj, rest p)
todo1 := concat!(todo1, t)
todo2 := concat!(todo2, p)
t := rest t; p := rest p
todo1 := concat!(todo1, t)
todo2 := concat!(todo2, p)
t := rest t; p := rest p
tm := (t1+t2)/2::F
tj := tm
t.rest := concat(tj, rest t)
p.rest := concat(f tj, rest p)
todo1 := concat!(todo1, t)
todo2 := concat!(todo2, p)
todo1 := rest todo1; todo2 := rest todo2
if not null todo1 then (t := first(todo1); p := first(todo2))
if n > 0 then
NUMFUNEVALS := NUMFUNEVALS + n
t := curve.knots; p := curve.points
xRg := select(p,xCoord,min) .. select(p,xCoord,max)
yRg := select(p,yCoord,min) .. select(p,yCoord,max)
zRg := select(p,zCoord,min) .. select(p,zCoord,max)
[curve.source,[tRg,xRg,yRg,zRg],t,p]
else curve
basicPlot(f,tRange) ==
checkRange tRange; l := lo tRange; h := hi tRange
t : L F := list l; p : L P := list f l
s := (h-l)/(MINPOINTS-1)::F
for i in 2..MINPOINTS-1 repeat
l := l+s; t := concat(l,t)
p := concat(f l,p)
t := reverse! concat(h,t)
p := reverse! concat(f h,p)
xRange : R := select(p,xCoord,min) .. select(p,xCoord,max)
yRange : R := select(p,yCoord,min) .. select(p,yCoord,max)
zRange : R := select(p,zCoord,min) .. select(p,zCoord,max)
[f,[tRange,xRange,yRange,zRange],t,p]
zoom(p,xRange,yRange,zRange) ==
[[xRange,yRange,zRange],p.bounds,
p.screenres,p.axisLabels,p.functions]
basicRefine(curve,nRange) ==
tRange:R := first curve.ranges
-- curve := copy$C curve -- Yet another @#$%^&* compiler bug
curve: C := [curve.source,curve.ranges,curve.knots,curve.points]
t := curve.knots := copy curve.knots
p := curve.points := copy curve.points
l := lo nRange; h := hi nRange
f := curve.source
while not null rest t and first(t) < h repeat
second(t) < l => (t := rest t; p := rest p)
-- insert new point between t.0 and t.1
tm:F := (first(t) + second(t))/2::F
-- if DEBUG then output$O (tm::E)
pm := f tm
NUMFUNEVALS := NUMFUNEVALS + 1
t.rest := concat(tm,rest t); t := rest rest t
p.rest := concat(pm,rest p); p := rest rest p
t := curve.knots; p := curve.points
xRange := select(p,xCoord,min) .. select(p,xCoord,max)
yRange := select(p,yCoord,min) .. select(p,yCoord,max)
zRange := select(p,zCoord,min) .. select(p,zCoord,max)
[curve.source,[tRange,xRange,yRange,zRange],t,p]
refine p == refine(p,parametricRange p)
refine(p,nRange) ==
NUMFUNEVALS := 0
tRange := parametricRange p
nRange := intersect(tRange,nRange)
curves: L C := [basicRefine(c,nRange) for c in p.functions]
xRange := join(curves,1); yRange := join(curves,2)
zRange := join(curves,3)
scrres := p.screenres
if adaptive3D? then
tlimit := 8
curves := [adaptivePlot(c,nRange,xRange,yRange,zRange, _
tlimit,scrres := 2*scrres) for c in curves]
xRange := join(curves,1); yRange := join(curves,2)
zRange := join(curves,3)
[p.display,[tRange,xRange,yRange,zRange], _
scrres,p.axisLabels,curves]
plot(p:%,tRange:R) ==
-- re plot p on a new range making use of the points already
-- computed if possible
NUMFUNEVALS := 0
curves: L C := [rangeRefine(c,tRange) for c in p.functions]
xRange := join(curves,1); yRange := join(curves,2)
zRange := join(curves,3)
if adaptive3D? then
tlimit := 8
curves := [adaptivePlot(c,tRange,xRange,yRange,zRange,tlimit, _
p.screenres) for c in curves]
xRange := join(curves,1); yRange := join(curves,2)
zRange := join(curves,3)
-- print(NUMFUNEVALS::OUT)
[[xRange,yRange,zRange],[tRange,xRange,yRange,zRange],
p.screenres,p.axisLabels,curves]
pointPlot(f:F -> P,tRange:R) ==
p := basicPlot(f,tRange)
r := p.ranges
NUMFUNEVALS := MINPOINTS
if adaptive3D? then
p := adaptivePlot(p,first r,second r,third r,fourth r,8,SCREENRES)
-- print(NUMFUNEVALS::OUT)
-- print(p::OUT)
[ rest r, r, SCREENRES, nil(), [ p ] ]
pointPlot(f:F -> P,tRange:R,xRange:R,yRange:R,zRange:R) ==
p := pointPlot(f,tRange)
p.display:= [checkRange xRange,checkRange yRange,checkRange zRange]
p
myTrap: (F-> F, F) -> F
myTrap(ff:F-> F, f:F):F ==
s := trapNumericErrors(ff(f))$Lisp :: Union(F, "failed")
if (s) case "failed" then
r:F := quietDoubleNaN()$Lisp
else
r:F := s
r
plot(f1:F -> F,f2:F -> F,f3:F -> F,col:F -> F,tRange:R) ==
p := basicPlot(point(myTrap(f1,#1),myTrap(f2,#1),myTrap(f3,#1),col(#1)),tRange)
r := p.ranges
NUMFUNEVALS := MINPOINTS
if adaptive3D? then
p := adaptivePlot(p,first r,second r,third r,fourth r,8,SCREENRES)
-- print(NUMFUNEVALS::OUT)
[ rest r, r, SCREENRES, nil(), [ p ] ]
plot(f1:F -> F,f2:F -> F,f3:F -> F,col:F -> F,_
tRange:R,xRange:R,yRange:R,zRange:R) ==
p := plot(f1,f2,f3,col,tRange)
p.display:= [checkRange xRange,checkRange yRange,checkRange zRange]
p
--% terminal output
coerce r ==
spaces := " " :: OUT
xSymbol := "x = " :: OUT; ySymbol := "y = " :: OUT
zSymbol := "z = " :: OUT; tSymbol := "t = " :: OUT
tRange := (parametricRange r) :: OUT
f : L OUT := nil()
for curve in r.functions repeat
xRange := coerce curve.ranges.1
yRange := coerce curve.ranges.2
zRange := coerce curve.ranges.3
l : L OUT := [xSymbol,xRange,spaces,ySymbol,yRange,_
spaces,zSymbol,zRange]
l := concat!([tSymbol,tRange,spaces],l)
h : OUT := hconcat l
l := [p::OUT for p in curve.points]
f := concat(vconcat concat(h,l),f)
prefix("PLOT" :: OUT,reverse! f)
----% graphics output
listBranches plot ==
outList : L L P := nil()
for curve in plot.functions repeat
outList := concat(curve.points,outList)
outList
@
\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>>
<<domain PLOT3D Plot3D>>
@
\eject
\begin{thebibliography}{99}
\bibitem{1} nothing
\end{thebibliography}
\end{document}
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