summaryrefslogtreecommitdiff
path: root/Build/source/utils/asymptote/asy.list
diff options
context:
space:
mode:
Diffstat (limited to 'Build/source/utils/asymptote/asy.list')
-rw-r--r--Build/source/utils/asymptote/asy.list516
1 files changed, 287 insertions, 229 deletions
diff --git a/Build/source/utils/asymptote/asy.list b/Build/source/utils/asymptote/asy.list
index 8fcde70b569..e63fac45207 100644
--- a/Build/source/utils/asymptote/asy.list
+++ b/Build/source/utils/asymptote/asy.list
@@ -158,6 +158,8 @@ int JOIN_IN;
int JOIN_OUT;
projection currentprojection;
void endScript();
+real orient(pair a, pair b, pair c);
+real orient(triple a, triple b, triple c, triple d);
pen linetype(real[] pattern, real offset=<default>, bool scale=<default>, bool adjust=<default>);
real[] linetype(pen p=<default>);
pen linetype(string pattern, real offset=<default>, bool scale=<default>, bool adjust=<default>);
@@ -235,7 +237,7 @@ string min(string[][] a);
string min(string[][][] a);
pair min(pen p);
pair min(frame f);
-pair min(path p);
+pair min(explicit path p);
pair min(path[] p);
triple min(path3 p);
pair min(picture pic, bool user=<default>);
@@ -251,9 +253,9 @@ int search(void()()[] a, void key()(), bool less(void()(), void()()));
int search(real[] a, real key, bool less(real, real));
int search(guide[] a, guide key, bool less(guide, guide));
int search(coord[] a, coord key, bool less(coord, coord));
+int search(Legend[] a, Legend key, bool less(Legend, Legend));
int search(pair[] a, pair key, bool less(pair, pair));
int search(object[] a, object key, bool less(object, object));
-int search(Legend[] a, Legend key, bool less(Legend, Legend));
int search(frame[] a, frame key, bool less(frame, frame));
int search(coord[] a, coord key, bool less(coord, coord));
int search(Label[] a, Label key, bool less(Label, Label));
@@ -337,7 +339,7 @@ string max(string[][] a);
string max(string[][][] a);
pair max(pen p);
pair max(frame f);
-pair max(path p);
+pair max(explicit path p);
pair max(path[] p);
triple max(path3 p);
real max(real M, scaling s, coord[] c);
@@ -520,6 +522,7 @@ pen[] copy(pen[] a, int depth=<default>);
coord[] copy(coord[] a, int depth=<default>);
coord[] copy(coord[] a, int depth=<default>);
marker[] copy(marker[] a, int depth=<default>);
+Legend[] copy(Legend[] a, int depth=<default>);
Label[] copy(Label[] a, int depth=<default>);
pen[][] copy(pen[][] a, int depth=<default>);
path[] copy(path[] a, int depth=<default>);
@@ -532,7 +535,6 @@ pair[] copy(pair[] a, int depth=<default>);
bool3[] copy(bool3[] a, int depth=<default>);
object[] copy(object[] a, int depth=<default>);
picture[] copy(picture[] a, int depth=<default>);
-Legend[] copy(Legend[] a, int depth=<default>);
pair[][] copy(pair[][] a, int depth=<default>);
real[] abs(pair[] a);
real[] abs(triple[] a);
@@ -573,9 +575,9 @@ pen[][] map(pen[] f(pen[]), pen[][] a);
triple[] map(triple f(triple), triple[] a);
pen[] map(pen f(pen), pen[] a);
object[] map(object f(object), object[] a);
-Legend[] map(Legend f(Legend), Legend[] a);
pair[] map(pair f(pair), pair[] a);
coord[] map(coord f(coord), coord[] a);
+Legend[] map(Legend f(Legend), Legend[] a);
string[] map(string f(string), string[] a);
void()()[] map(void f()()(void()()), void()()[] a);
pair[][] map(pair[] f(pair[]), pair[][] a);
@@ -603,6 +605,7 @@ pen[][] sequence(pen[] f(int), int n);
coord[] sequence(coord f(int), int n);
coord[] sequence(coord f(int), int n);
marker[] sequence(marker f(int), int n);
+Legend[] sequence(Legend f(int), int n);
Label[] sequence(Label f(int), int n);
int[] sequence(int f(int), int n);
string[][] sequence(string[] f(int), int n);
@@ -616,7 +619,6 @@ pair[][] sequence(pair[] f(int), int n);
bool3[] sequence(bool3 f(int), int n);
object[] sequence(object f(int), int n);
picture[] sequence(picture f(int), int n);
-Legend[] sequence(Legend f(int), int n);
real[][] sequence(real[] f(int), int n);
real[] sequence(real f(int), int n);
int[] sequence(int n, int m);
@@ -739,7 +741,6 @@ pair[][] array(int n, pair[] value, int depth=<default>);
bool3[] array(int n, bool3 value, int depth=<default>);
object[] array(int n, object value, int depth=<default>);
picture[] array(int n, picture value, int depth=<default>);
-Legend[] array(int n, Legend value, int depth=<default>);
real[][] array(int n, real[] value, int depth=<default>);
real[] array(int n, real value, int depth=<default>);
triple[] array(int n, triple value, int depth=<default>);
@@ -749,6 +750,7 @@ pen[][] array(int n, pen[] value, int depth=<default>);
coord[] array(int n, coord value, int depth=<default>);
coord[] array(int n, coord value, int depth=<default>);
marker[] array(int n, marker value, int depth=<default>);
+Legend[] array(int n, Legend value, int depth=<default>);
Label[] array(int n, Label value, int depth=<default>);
int[] array(int n, int value, int depth=<default>);
string[][] array(int n, string[] value, int depth=<default>);
@@ -938,9 +940,9 @@ arrowhead HookHead(real dir=<default>, real barb=<default>);
real[] concat(... real[][]);
pair[] concat(... pair[][]);
coord[] concat(... coord[][]);
+Legend[] concat(... Legend[][]);
pen[] concat(... pen[][]);
object[] concat(... object[][]);
-Legend[] concat(... Legend[][]);
path[] concat(... path[][]);
coord[] concat(... coord[][]);
Label[] concat(... Label[][]);
@@ -969,8 +971,8 @@ bool alias(Label[] a, Label[] b);
bool alias(pair[] a, pair[] b);
bool alias(scaling a, scaling b);
bool alias(bounds a, bounds b);
-bool alias(scaleT a, scaleT b);
-bool alias(Legend a, Legend b);
+bool alias(coords3 a, coords3 b);
+bool alias(ScaleT a, ScaleT b);
bool alias(object a, object b);
bool alias(cputime a, cputime b);
bool alias(int[] a, int[] b);
@@ -980,10 +982,10 @@ bool alias(coord[] a, coord[] b);
bool alias(coords2 a, coords2 b);
bool alias(pairOrTriple a, pairOrTriple b);
bool alias(framedTransformStack a, framedTransformStack b);
+bool alias(Legend[] a, Legend[] b);
bool alias(real[][] a, real[][] b);
bool alias(bool3 a, bool3 b);
bool alias(bool3[] a, bool3[] b);
-bool alias(light a, light b);
bool alias(picture a, picture b);
bool alias(position a, position b);
bool alias(picture[] a, picture[] b);
@@ -992,7 +994,8 @@ bool alias(string[] a, string[] b);
bool alias(frame[] a, frame[] b);
bool alias(coords2 a, coords2 b);
bool alias(coord a, coord b);
-bool alias(autoscaleT a, autoscaleT b);
+bool alias(scaleT a, scaleT b);
+bool alias(Legend a, Legend b);
bool alias(bool[] a, bool[] b);
bool alias(void()()[] a, void()()[] b);
bool alias(pen[][] a, pen[][] b);
@@ -1001,11 +1004,10 @@ bool alias(freezableBounds a, freezableBounds b);
bool alias(transformation a, transformation b);
bool alias(align a, align b);
bool alias(object[] a, object[] b);
-bool alias(Legend[] a, Legend[] b);
bool alias(path[] a, path[] b);
bool alias(triple[] a, triple[] b);
bool alias(coord a, coord b);
-bool alias(coords3 a, coords3 b);
+bool alias(light a, light b);
bool alias(Label a, Label b);
bool alias(marker[] a, marker[] b);
bool alias(processtime a, processtime b);
@@ -1013,7 +1015,7 @@ bool alias(real[] a, real[] b);
bool alias(pen[] a, pen[] b);
bool alias(hsv a, hsv b);
bool alias(scaling a, scaling b);
-bool alias(ScaleT a, ScaleT b);
+bool alias(autoscaleT a, autoscaleT b);
bool alias(indexedTransform a, indexedTransform b);
real pi;
int getint(string name=<default>, int default=<default>, string prompt=<default>, bool store=<default>);
@@ -1046,10 +1048,10 @@ void()()[] sort(void()()[] a, bool less(void()(), void()()));
real[] sort(real[] a, bool less(real, real));
bool[] sort(bool[] a, bool less(bool, bool));
coord[] sort(coord[] a, bool less(coord, coord));
+Legend[] sort(Legend[] a, bool less(Legend, Legend));
pen[] sort(pen[] a, bool less(pen, pen));
pen[][] sort(pen[][] a, bool less(pen[], pen[]));
object[] sort(object[] a, bool less(object, object));
-Legend[] sort(Legend[] a, bool less(Legend, Legend));
guide[] sort(guide[] a, bool less(guide, guide));
real[][] sort(real[][] a, bool less(real[], real[]));
triple[] sort(triple[] a, bool less(triple, triple));
@@ -1166,7 +1168,6 @@ pair point(object F, pair dir, transform t=<default>);
pair point(frame f, pair dir);
pen longdashdotted;
void usepackage(string s, string options=<default>);
-real side(pair a, pair b, pair c);
void drawarrow(frame f, arrowhead arrowhead=<default>, path g, pen p=<default>, real size=<default>, real angle=<default>, filltype filltype=<default>, position position=<default>, bool forwards=<default>, marginT margin(path, pen)=<default>, bool center=<default>);
void drawarrow2(frame f, arrowhead arrowhead=<default>, path g, pen p=<default>, real size=<default>, real angle=<default>, filltype filltype=<default>, marginT margin(path, pen)=<default>);
pen fillrule(int n);
@@ -1238,6 +1239,7 @@ real legendlinelength;
bool diagnostics;
string minipage(string s, real width=<default>);
real legendmaxrelativewidth;
+real cross(explicit pair z, explicit pair w);
triple cross(triple u, triple v);
path cross(int n, bool round=<default>, real r=<default>);
string operator +(string a, string b);
@@ -1382,23 +1384,23 @@ pairOrTriple operator init();
framedTransformStack operator init();
hsv operator init();
scaling operator init();
-ScaleT operator init();
+autoscaleT operator init();
indexedTransform operator init();
coords2 operator init();
coord operator init();
-autoscaleT operator init();
-scaling operator init();
-bounds operator init();
scaleT operator init();
Legend operator init();
+scaling operator init();
+bounds operator init();
+coords3 operator init();
+ScaleT operator init();
object operator init();
cputime operator init();
coord operator init();
-coords3 operator init();
+light operator init();
Label operator init();
processtime operator init();
bool3 operator init();
-light operator init();
picture operator init();
position operator init();
arrowhead operator init();
@@ -1570,24 +1572,24 @@ bool operator ==(file a, file b);
bool operator ==(path a, path b);
bool operator ==(path3 a, path3 b);
bool operator ==(bool3 a, bool3 b);
-bool operator ==(light a, light b);
bool operator ==(picture a, picture b);
bool operator ==(position a, position b);
bool operator ==(arrowhead a, arrowhead b);
bool operator ==(coords2 a, coords2 b);
bool operator ==(coord a, coord b);
-bool operator ==(autoscaleT a, autoscaleT b);
+bool operator ==(scaleT a, scaleT b);
+bool operator ==(Legend a, Legend b);
bool operator ==(filltype a, filltype b);
bool operator ==(freezableBounds a, freezableBounds b);
bool operator ==(transformation a, transformation b);
bool operator ==(align a, align b);
bool operator ==(coord a, coord b);
-bool operator ==(coords3 a, coords3 b);
+bool operator ==(light a, light b);
bool operator ==(Label a, Label b);
bool operator ==(processtime a, processtime b);
bool operator ==(hsv a, hsv b);
bool operator ==(scaling a, scaling b);
-bool operator ==(ScaleT a, ScaleT b);
+bool operator ==(autoscaleT a, autoscaleT b);
bool operator ==(indexedTransform a, indexedTransform b);
bool operator ==(bool3 a, bool b);
bool operator ==(marginT a, marginT b);
@@ -1596,8 +1598,8 @@ bool operator ==(side a, side b);
bool operator ==(marker a, marker b);
bool operator ==(scaling a, scaling b);
bool operator ==(bounds a, bounds b);
-bool operator ==(scaleT a, scaleT b);
-bool operator ==(Legend a, Legend b);
+bool operator ==(coords3 a, coords3 b);
+bool operator ==(ScaleT a, ScaleT b);
bool operator ==(object a, object b);
bool operator ==(cputime a, cputime b);
bool operator ==(bool a, bool3 b);
@@ -1642,24 +1644,24 @@ bool operator !=(file a, file b);
bool operator !=(path a, path b);
bool operator !=(path3 a, path3 b);
bool operator !=(bool3 a, bool3 b);
-bool operator !=(light a, light b);
bool operator !=(picture a, picture b);
bool operator !=(position a, position b);
bool operator !=(arrowhead a, arrowhead b);
bool operator !=(coords2 a, coords2 b);
bool operator !=(coord a, coord b);
-bool operator !=(autoscaleT a, autoscaleT b);
+bool operator !=(scaleT a, scaleT b);
+bool operator !=(Legend a, Legend b);
bool operator !=(filltype a, filltype b);
bool operator !=(freezableBounds a, freezableBounds b);
bool operator !=(transformation a, transformation b);
bool operator !=(align a, align b);
bool operator !=(coord a, coord b);
-bool operator !=(coords3 a, coords3 b);
+bool operator !=(light a, light b);
bool operator !=(Label a, Label b);
bool operator !=(processtime a, processtime b);
bool operator !=(hsv a, hsv b);
bool operator !=(scaling a, scaling b);
-bool operator !=(ScaleT a, ScaleT b);
+bool operator !=(autoscaleT a, autoscaleT b);
bool operator !=(indexedTransform a, indexedTransform b);
bool operator !=(bool3 a, bool b);
bool operator !=(marginT a, marginT b);
@@ -1668,8 +1670,8 @@ bool operator !=(side a, side b);
bool operator !=(marker a, marker b);
bool operator !=(scaling a, scaling b);
bool operator !=(bounds a, bounds b);
-bool operator !=(scaleT a, scaleT b);
-bool operator !=(Legend a, Legend b);
+bool operator !=(coords3 a, coords3 b);
+bool operator !=(ScaleT a, ScaleT b);
bool operator !=(object a, object b);
bool operator !=(cputime a, cputime b);
bool operator !=(bool a, bool3 b);
@@ -1791,6 +1793,7 @@ frame Seascape(frame f);
bool interior(int windingnumber, pen fillrule);
real[] intersect(path p, path q, real fuzz=<default>);
real[] intersect(path3 p, path3 q, real fuzz=<default>);
+real[] intersect(path3 p, triple[][] p, real fuzz=<default>);
bool interactive();
real[][] intersections(path p, path q, real fuzz=<default>);
real[] intersections(path p, explicit pair a, explicit pair b, real fuzz=<default>);
@@ -1812,6 +1815,7 @@ real[] uniform(real a, real b, int n);
pair viewportsize;
pair viewportmargin;
string VERSION;
+real insphere(triple a, triple b, triple c, triple d, triple e);
void filldraw(picture pic=<default>, path[] g, pen fillpen=<default>, pen drawpen=<default>);
void filldraw(frame f, path[] g, pen fillpen=<default>, pen drawpen=<default>);
real dot(real[] a, real[] b);
@@ -1952,7 +1956,6 @@ bool shipped;
pair[] fft(pair[] a, int sign=<default>);
pair SE;
pen nobasealign;
-sCAD operator init();
real animationdelay;
animation operator init();
frame NoBox(frame f);
@@ -1999,6 +2002,16 @@ bsp operator init();
picture operator cast(face f);
face operator cast(path3 p);
void add(picture pic=<default>, face[] faces, projection P=<default>);
+sCAD operator init();
+surface surface(vertex[][] g);
+weighted operator init();
+bucket operator init();
+vertex operator init();
+object operator init();
+vertex[][] contour3(triple[][][] v, real[][][] f, real[][][] midpoint=<default>, projection P=<default>);
+vertex[][] contour3(real[][][] f, real[][][] midpoint=<default>, triple a, triple b, projection P=<default>);
+vertex[][] contour3(real f(real, real, real), triple a, triple b, int nx=<default>, int ny=<default>, int nz=<default>, projection P=<default>);
+real eps;
segment case1(pair p0, pair p1, int edge);
void draw(picture pic=<default>, Label[] L=<default>, guide[][] g, pen[] p);
void draw(picture pic=<default>, Label[] L=<default>, guide[][] g, pen p=<default>);
@@ -2018,15 +2031,6 @@ guide[][] contour(real f(real, real), pair a, pair b, real[] c, int nx=<default>
guide[][] contour(real f(pair), pair a, pair b, real[] c, int nx=<default>, int ny=<default>, guide join(... guide[])=<default>);
guide[][] contour(pair[] z, real[] f, real[] c, guide join(... guide[])=<default>);
real eps;
-surface surface(vertex[][] g);
-weighted operator init();
-bucket operator init();
-vertex operator init();
-object operator init();
-vertex[][] contour3(triple[][][] v, real[][][] f, real[][][] midpoint=<default>, projection P=<default>);
-vertex[][] contour3(real[][][] f, real[][][] midpoint=<default>, triple a, triple b, projection P=<default>);
-vertex[][] contour3(real f(real, real, real), triple a, triple b, int nx=<default>, int ny=<default>, int nz=<default>, projection P=<default>);
-real eps;
void draw(TreeNode root, pair pos);
real treeNodeStep;
void drawAll(TreeNode node, frame f);
@@ -2432,6 +2436,9 @@ transform projection(line l1, line l2, bool safe=<default>);
bool degenerate(conic c);
bool degenerate(circle c);
bool degenerate(ellipse el);
+segment segment(point A, point B);
+segment segment(line l);
+segment segment(explicit side side);
line line(point A, bool extendA=<default>, point B, bool extendB=<default>);
line line(segment s);
line line(real a, point A=<default>);
@@ -2647,9 +2654,6 @@ mass operator /(explicit mass M, real x);
mass operator /(explicit mass M, int x);
transform scaleO(real x);
real operator ^(point M, explicit circle c);
-segment segment(point A, point B);
-segment segment(line l);
-segment segment(explicit side side);
bool operator ==(coordsys c1, coordsys c2);
bool operator ==(explicit point M, explicit point N);
bool operator ==(explicit vector u, explicit vector v);
@@ -2797,6 +2801,118 @@ abscissa curabscissa(ellipse el, point M);
abscissa curabscissa(parabola p, point M);
abscissa curabscissa(conic co, point M);
abscissa curabscissa(arc a, point M);
+locateT operator init();
+void Straight(flatguide3)(... void(flatguide3)[]);
+void graph(flatguide3)(triple F(real), real, real, int)(void join(flatguide3)(... void(flatguide3)[]));
+void(flatguide3)[] graph(triple F(real), real, real, int)(void join(flatguide3)(... void(flatguide3)[]), bool3 cond(real));
+void graph(flatguide3)(picture pic=<default>, real x(real), real y(real), real z(real), real a, real b, int n=<default>, void join(flatguide3)(... void(flatguide3)[])=<default>);
+void(flatguide3)[] graph(picture pic=<default>, real x(real), real y(real), real z(real), real a, real b, int n=<default>, bool3 cond(real), void join(flatguide3)(... void(flatguide3)[])=<default>);
+void graph(flatguide3)(picture pic=<default>, triple v(real), real a, real b, int n=<default>, void join(flatguide3)(... void(flatguide3)[])=<default>);
+void(flatguide3)[] graph(picture pic=<default>, triple v(real), real a, real b, int n=<default>, bool3 cond(real), void join(flatguide3)(... void(flatguide3)[])=<default>);
+void graph(flatguide3)(picture pic=<default>, triple[] v, void join(flatguide3)(... void(flatguide3)[])=<default>);
+void(flatguide3)[] graph(picture pic=<default>, triple[] v, bool3[] cond, void join(flatguide3)(... void(flatguide3)[])=<default>);
+void graph(flatguide3)(picture pic=<default>, real[] x, real[] y, real[] z, void join(flatguide3)(... void(flatguide3)[])=<default>);
+void(flatguide3)[] graph(picture pic=<default>, real[] x, real[] y, real[] z, bool3[] cond, void join(flatguide3)(... void(flatguide3)[])=<default>);
+void graph(flatguide3)(triple F(path, real), path p, int n=<default>, void join(flatguide3)(... void(flatguide3)[])=<default>);
+void graph(flatguide3)(triple F(pair), path p, int n=<default>, void join(flatguide3)(... void(flatguide3)[])=<default>);
+void graph(flatguide3)(picture pic=<default>, real f(pair), path p, int n=<default>, void join(flatguide3)(... void(flatguide3)[])=<default>);
+void graph(flatguide3)(real f(pair), path p, int n=<default>, real T(pair), void join(flatguide3)(... void(flatguide3)[])=<default>);
+void(flatguide3)[][] lift(real f(real x, real y), guide[][] g, void join(flatguide3)(... void(flatguide3)[])=<default>);
+void(flatguide3)[][] lift(real f(pair z), guide[][] g, void join(flatguide3)(... void(flatguide3)[])=<default>);
+triple polar(real r, real theta, real phi);
+void polargraph(flatguide3)(real r(real, real), real theta(real), real phi(real), int n=<default>, void join(flatguide3)(... void(flatguide3)[])=<default>);
+void xaxis3At(picture pic=<default>, Label L=<default>, void axis(picture, axisT), real xmin=<default>, real xmax=<default>, pen p=<default>, void ticks(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>)=<default>, bool arrow(picture, path3, material, marginT3(path3, pen), light, light)=<default>, marginT3 margin(path3, pen)=<default>, bool above=<default>, bool opposite=<default>, bool opposite2=<default>, bool primary=<default>);
+void yaxis3At(picture pic=<default>, Label L=<default>, void axis(picture, axisT), real ymin=<default>, real ymax=<default>, pen p=<default>, void ticks(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>)=<default>, bool arrow(picture, path3, material, marginT3(path3, pen), light, light)=<default>, marginT3 margin(path3, pen)=<default>, bool above=<default>, bool opposite=<default>, bool opposite2=<default>, bool primary=<default>);
+void zaxis3At(picture pic=<default>, Label L=<default>, void axis(picture, axisT), real zmin=<default>, real zmax=<default>, pen p=<default>, void ticks(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>)=<default>, bool arrow(picture, path3, material, marginT3(path3, pen), light, light)=<default>, marginT3 margin(path3, pen)=<default>, bool above=<default>, bool opposite=<default>, bool opposite2=<default>, bool primary=<default>);
+void xaxis3(picture pic=<default>, Label L=<default>, void axis(picture, axisT)=<default>, real xmin=<default>, real xmax=<default>, pen p=<default>, void ticks(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>)=<default>, bool arrow(picture, path3, material, marginT3(path3, pen), light, light)=<default>, marginT3 margin(path3, pen)=<default>, bool above=<default>);
+void yaxis3(picture pic=<default>, Label L=<default>, void axis(picture, axisT)=<default>, real ymin=<default>, real ymax=<default>, pen p=<default>, void ticks(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>)=<default>, bool arrow(picture, path3, material, marginT3(path3, pen), light, light)=<default>, marginT3 margin(path3, pen)=<default>, bool above=<default>);
+void zaxis3(picture pic=<default>, Label L=<default>, void axis(picture, axisT)=<default>, real zmin=<default>, real zmax=<default>, pen p=<default>, void ticks(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>)=<default>, bool arrow(picture, path3, material, marginT3(path3, pen), light, light)=<default>, marginT3 margin(path3, pen)=<default>, bool above=<default>);
+bool uperiodic(triple[][] a);
+bool vperiodic(triple[][] a);
+void OutTicks(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>)(Label format=<default>, string ticklabel(real)=<default>, bool beginlabel=<default>, bool endlabel=<default>, int N=<default>, int n=<default>, real Step=<default>, real step=<default>, bool begin=<default>, bool end=<default>, tickvalues modify(tickvalues)=<default>, real Size=<default>, real size=<default>, bool extend=<default>, pen pTick=<default>, pen ptick=<default>);
+void OutTicks(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>)(Label format=<default>, string ticklabel(real)=<default>, bool beginlabel=<default>, bool endlabel=<default>, real[] Ticks, real[] ticks=<default>, real Size=<default>, real size=<default>, bool extend=<default>, pen pTick=<default>, pen ptick=<default>);
+void OutTicks(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>);
+void axis(picture pic=<default>, Label L=<default>, path3 g, path3 g2=<default>, pen p=<default>, void ticks(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>), ticklocate locate, bool arrow(picture, path3, material, marginT3(path3, pen), light, light)=<default>, marginT3 margin(path3, pen)=<default>, int[] divisor=<default>, bool above=<default>, bool opposite=<default>);
+void Bounds(picture, axisT)(int type=<default>, int type2=<default>, triple align=<default>, bool extend=<default>);
+void Bounds(picture, axisT);
+void XZZero(picture, axisT)(triple align=<default>, bool extend=<default>);
+void XZZero(picture, axisT);
+void YZZero(picture, axisT)(triple align=<default>, bool extend=<default>);
+void YZZero(picture, axisT);
+surface surface(triple[][] f, bool[][] cond=<default>);
+surface surface(real[][] f, real[] x, real[] y, real[] xsplinetype(real[], real[])=<default>, real[] ysplinetype(real[], real[])=<default>, bool[][] cond=<default>);
+surface surface(real[][] f, pair a, pair b, real[] xsplinetype(real[], real[]), real[] ysplinetype(real[], real[])=<default>, bool[][] cond=<default>);
+surface surface(real[][] f, pair a, pair b, bool[][] cond=<default>);
+surface surface(triple f(pair z), pair a, pair b, int nu=<default>, int nv=<default>, bool cond(pair z)=<default>);
+surface surface(triple f(pair z), pair a, pair b, int nu=<default>, int nv=<default>, real[](real[], real[])[] usplinetype, real[](real[], real[])[] vsplinetype=<default>, bool cond(pair z)=<default>);
+surface surface(real f(pair z), pair a, pair b, int nx=<default>, int ny=<default>, bool cond(pair z)=<default>);
+surface surface(real f(pair z), pair a, pair b, int nx=<default>, int ny=<default>, real[] xsplinetype(real[], real[]), real[] ysplinetype(real[], real[])=<default>, bool cond(pair z)=<default>);
+void XYEquals(picture, axisT)(real x, real y, triple align=<default>, bool extend=<default>);
+triple Dir(real)(triple dir);
+void draw(picture pic=<default>, Label[] L=<default>, void(flatguide3)[][] g, pen[] p, light light=<default>, string name=<default>, render render=<default>, interaction interaction=<default>);
+void draw(picture pic=<default>, Label[] L=<default>, void(flatguide3)[][] g, pen p=<default>, light light=<default>, string name=<default>, render render=<default>, interaction interaction=<default>);
+void Ticks3(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>)(int sign, Label F=<default>, string ticklabel(real)=<default>, bool beginlabel=<default>, bool endlabel=<default>, real[] Ticks=<default>, real[] ticks=<default>, int N=<default>, bool begin=<default>, bool end=<default>, real Size=<default>, real size=<default>, bool extend=<default>, pen pTick=<default>, pen ptick=<default>);
+void Ticks3(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>)(int sign, Label F=<default>, string ticklabel(real)=<default>, bool beginlabel=<default>, bool endlabel=<default>, int N, int n=<default>, real Step=<default>, real step=<default>, bool begin=<default>, bool end=<default>, tickvalues modify(tickvalues)=<default>, real Size=<default>, real size=<default>, bool extend=<default>, pen pTick=<default>, pen ptick=<default>);
+real maxlength(triple f(pair z), pair a, pair b, int nu, int nv);
+void drawtick(picture pic, real[][] T, path3 g, path3 g2, ticklocate locate, real val, real Size, int sign, pen p, bool extend);
+triple tickMin3(picture pic);
+triple tickMax3(picture pic);
+triple Scale(picture pic=<default>, triple v);
+real ScaleZ(picture pic=<default>, real z);
+picture vectorfield(path3 vector(pair v), triple f(pair z), pair a, pair b, int nu=<default>, int nv=<default>, bool truesize=<default>, real maxlength=<default>, bool cond(pair z)=<default>, pen p=<default>, bool arrow(picture, path3, material, marginT3(path3, pen), light, light)=<default>, marginT3 margin(path3, pen)=<default>, string name=<default>, render render=<default>);
+path3 Circle(triple c, real r, triple normal=<default>, int n=<default>);
+void InTicks(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>)(Label format=<default>, string ticklabel(real)=<default>, bool beginlabel=<default>, bool endlabel=<default>, int N=<default>, int n=<default>, real Step=<default>, real step=<default>, bool begin=<default>, bool end=<default>, tickvalues modify(tickvalues)=<default>, real Size=<default>, real size=<default>, bool extend=<default>, pen pTick=<default>, pen ptick=<default>);
+void InTicks(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>)(Label format=<default>, string ticklabel(real)=<default>, bool beginlabel=<default>, bool endlabel=<default>, real[] Ticks, real[] ticks=<default>, real Size=<default>, real size=<default>, bool extend=<default>, pen pTick=<default>, pen ptick=<default>);
+void InTicks(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>);
+void Spline(flatguide3)(... void(flatguide3)[]);
+void InOutTicks(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>)(Label format=<default>, string ticklabel(real)=<default>, bool beginlabel=<default>, bool endlabel=<default>, int N=<default>, int n=<default>, real Step=<default>, real step=<default>, bool begin=<default>, bool end=<default>, tickvalues modify(tickvalues)=<default>, real Size=<default>, real size=<default>, bool extend=<default>, pen pTick=<default>, pen ptick=<default>);
+void InOutTicks(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>)(Label format=<default>, string ticklabel(real)=<default>, bool beginlabel=<default>, bool endlabel=<default>, real[] Ticks, real[] ticks=<default>, real Size=<default>, real size=<default>, bool extend=<default>, pen pTick=<default>, pen ptick=<default>);
+void InOutTicks(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>);
+void axes3(picture pic=<default>, Label xlabel=<default>, Label ylabel=<default>, Label zlabel=<default>, bool extend=<default>, triple min=<default>, triple max=<default>, pen p=<default>, bool arrow(picture, path3, material, marginT3(path3, pen), light, light)=<default>, marginT3 margin(path3, pen)=<default>);
+void label(picture pic, Label L, triple v, real x, align align, string format, pen p);
+void labelx(picture pic=<default>, Label L=<default>, triple v, align align=<default>, string format=<default>, pen p=<default>);
+void labelx3(picture pic=<default>, Label L=<default>, real x, align align=<default>, string format=<default>, pen p=<default>);
+void labeltick(picture pic, real[][] T, path3 g, ticklocate locate, real val, int sign, real Size, string ticklabel(real), Label F, real norm=<default>);
+void labelaxis(picture pic, real[][] T, Label L, path3 g, ticklocate locate=<default>, int sign=<default>, bool ticklabels=<default>);
+void labely(picture pic=<default>, Label L=<default>, triple v, align align=<default>, string format=<default>, pen p=<default>);
+void labely3(picture pic=<default>, Label L=<default>, real y, align align=<default>, string format=<default>, pen p=<default>);
+void labelz(picture pic=<default>, Label L=<default>, triple v, align align=<default>, string format=<default>, pen p=<default>);
+void labelz3(picture pic=<default>, Label L=<default>, real z, align align=<default>, string format=<default>, pen p=<default>);
+void autoscale3(picture pic=<default>, void axis(picture, axisT));
+void xtick(picture pic=<default>, triple v, triple dir=<default>, real size=<default>, pen p=<default>);
+void xtick(picture pic=<default>, Label L, triple v, triple dir=<default>, string format=<default>, real size=<default>, pen p=<default>);
+void xtick3(picture pic=<default>, real x, triple dir=<default>, real size=<default>, pen p=<default>);
+void xtick3(picture pic=<default>, Label L, real x, triple dir=<default>, string format=<default>, real size=<default>, pen p=<default>);
+void ytick(picture pic=<default>, triple v, triple dir=<default>, real size=<default>, pen p=<default>);
+void ytick(picture pic=<default>, Label L, triple v, triple dir=<default>, string format=<default>, real size=<default>, pen p=<default>);
+void ytick3(picture pic=<default>, real y, triple dir=<default>, real size=<default>, pen p=<default>);
+void ytick3(picture pic=<default>, Label L, real y, triple dir=<default>, string format=<default>, real size=<default>, pen p=<default>);
+void ztick(picture pic=<default>, triple v, triple dir=<default>, real size=<default>, pen p=<default>);
+void ztick(picture pic=<default>, Label L, triple v, triple dir=<default>, string format=<default>, real size=<default>, pen p=<default>);
+void ztick3(picture pic=<default>, real z, triple dir=<default>, real size=<default>, pen p=<default>);
+void ztick3(picture pic=<default>, Label L, real z, triple dir=<default>, string format=<default>, real size=<default>, pen p=<default>);
+triple zero3(real);
+triple defaultdir(triple X, triple Y, triple Z, bool opposite=<default>, projection P);
+real xtrans(real[][] t, real x);
+real ytrans(real[][] t, real y);
+real ztrans(real[][] t, real z);
+ticklocate ticklocate(real a, real b, autoscaleT S=<default>, real tickmin=<default>, real tickmax=<default>, real time(real)=<default>, triple dir(real));
+triple ticklabelshift(triple align, pen p=<default>);
+path3 Arc(triple c, triple v1, triple v2, triple normal=<default>, bool direction=<default>, int n=<default>);
+path3 Arc(triple c, real r, real theta1, real phi1, real theta2, real phi2, triple normal=<default>, bool direction, int n=<default>);
+path3 Arc(triple c, real r, real theta1, real phi1, real theta2, real phi2, triple normal=<default>, int n=<default>);
+void limits(picture pic=<default>, triple min, triple max);
+void XZEquals(picture, axisT)(real x, real z, triple align=<default>, bool extend=<default>);
+void YZEquals(picture, axisT)(real y, real z, triple align=<default>, bool extend=<default>);
+void XYZero(picture, axisT)(triple align=<default>, bool extend=<default>);
+void XYZero(picture, axisT);
+void zlimits(picture pic=<default>, real min=<default>, real max=<default>, bool crop=<default>);
+void tick(picture pic=<default>, triple v, triple dir, real size=<default>, pen p=<default>);
+void tick(picture pic=<default>, Label L, real value, triple v, triple dir, string format=<default>, real size=<default>, pen p=<default>);
+surface bispline(real[][] z, real[][] p, real[][] q, real[][] r, real[] x, real[] y, bool[][] cond=<default>);
+path3[] segment(triple[] v, bool[] cond, void join(flatguide3)(... void(flatguide3)[])=<default>);
+void NoTicks3(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>)();
+void NoTicks3(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>);
string DefaultFormat(real);
string DefaultLogFormat(real)(int base);
string DefaultLogFormat(real);
@@ -2824,9 +2940,6 @@ axisT axis;
void axis(picture pic=<default>, Label L=<default>, path g, path g2=<default>, pen p=<default>, void ticks(frame, transform, Label, pair, path, path, pen, bool(picture, path, pen, marginT(path, pen)), marginT(path, pen), ticklocate, int[], bool opposite=<default>), ticklocate locate, bool arrow(picture, path, pen, marginT(path, pen))=<default>, marginT margin(path, pen)=<default>, int[] divisor=<default>, bool above=<default>, bool opposite=<default>);
void drawtick(frame f, transform T, path g, path g2, ticklocate locate, real val, real Size, int sign, pen p, bool extend);
real maxlength(pair a, pair b, int nx, int ny);
-tickvalues OmitTickIntervals(tickvalues)(real[] a, real[] b);
-tickvalues OmitTickInterval(tickvalues)(real a, real b);
-tickvalues OmitTick(tickvalues)(... real[] x);
void errorbar(picture pic, pair z, pair dp, pair dm, pen p=<default>, real size=<default>);
void errorbars(picture pic=<default>, pair[] z, pair[] dp, pair[] dm=<default>, bool[] cond=<default>, pen p=<default>, real size=<default>);
void errorbars(picture pic=<default>, real[] x, real[] y, real[] dpx, real[] dpy, real[] dmx=<default>, real[] dmy=<default>, bool[] cond=<default>, pen p=<default>, real size=<default>);
@@ -2841,6 +2954,9 @@ void crop(picture pic=<default>);
picture vectorfield(path vector(real), path g, int n, bool truesize=<default>, pen p=<default>, bool arrow(picture, path, pen, marginT(path, pen))=<default>, marginT margin(path, pen)=<default>);
picture vectorfield(path vector(pair), pair a, pair b, int nx=<default>, int ny=<default>, bool truesize=<default>, real maxlength=<default>, bool cond(pair z)=<default>, pen p=<default>, bool arrow(picture, path, pen, marginT(path, pen))=<default>, marginT margin(path, pen)=<default>);
string OmitFormat(real)(string s=<default> ... real[] x);
+tickvalues OmitTickIntervals(tickvalues)(real[] a, real[] b);
+tickvalues OmitTickInterval(tickvalues)(real a, real b);
+tickvalues OmitTick(tickvalues)(... real[] x);
guide Straight(... guide[]);
int Min;
string trailingzero;
@@ -2851,23 +2967,19 @@ void labelx(picture pic=<default>, Label L, string format=<default>, explicit pe
path Arc(pair c, real r, real angle1, real angle2, bool direction, int n=<default>);
path Arc(pair c, real r, real angle1, real angle2, int n=<default>);
path Arc(pair c, explicit pair z1, explicit pair z2, bool direction=<default>, int n=<default>);
+pair labeltick(frame d, transform T, path g, ticklocate locate, real val, pair side, int sign, real Size, string ticklabel(real), Label F, real norm=<default>);
+void labelaxis(frame f, transform T, Label L, path g, ticklocate locate=<default>, int sign=<default>, bool ticklabels=<default>);
void labely(picture pic=<default>, Label L=<default>, explicit pair z, align align=<default>, string format=<default>, pen p=<default>);
void labely(picture pic=<default>, Label L=<default>, real y, align align=<default>, string format=<default>, pen p=<default>);
void labely(picture pic=<default>, Label L, string format=<default>, explicit pen p=<default>);
-pair labeltick(frame d, transform T, path g, ticklocate locate, real val, pair side, int sign, real Size, string ticklabel(real), Label F, real norm=<default>);
-void labelaxis(frame f, transform T, Label L, path g, ticklocate locate=<default>, int sign=<default>, bool ticklabels=<default>);
-void xaxisAt(picture pic=<default>, Label L=<default>, void axis(picture, axisT), real xmin=<default>, real xmax=<default>, pen p=<default>, void ticks(frame, transform, Label, pair, path, path, pen, bool(picture, path, pen, marginT(path, pen)), marginT(path, pen), ticklocate, int[], bool opposite=<default>)=<default>, bool arrow(picture, path, pen, marginT(path, pen))=<default>, marginT margin(path, pen)=<default>, bool above=<default>, bool opposite=<default>);
void xtick(picture pic=<default>, explicit pair z, pair dir=<default>, real size=<default>, pen p=<default>);
void xtick(picture pic=<default>, real x, pair dir=<default>, real size=<default>, pen p=<default>);
void xtick(picture pic=<default>, Label L, explicit pair z, pair dir=<default>, string format=<default>, real size=<default>, pen p=<default>);
void xtick(picture pic=<default>, Label L, real x, pair dir=<default>, string format=<default>, real size=<default>, pen p=<default>);
-void yaxisAt(picture pic=<default>, Label L=<default>, void axis(picture, axisT), real ymin=<default>, real ymax=<default>, pen p=<default>, void ticks(frame, transform, Label, pair, path, path, pen, bool(picture, path, pen, marginT(path, pen)), marginT(path, pen), ticklocate, int[], bool opposite=<default>)=<default>, bool arrow(picture, path, pen, marginT(path, pen))=<default>, marginT margin(path, pen)=<default>, bool above=<default>, bool opposite=<default>);
void ytick(picture pic=<default>, explicit pair z, pair dir=<default>, real size=<default>, pen p=<default>);
void ytick(picture pic=<default>, real y, pair dir=<default>, real size=<default>, pen p=<default>);
void ytick(picture pic=<default>, Label L, explicit pair z, pair dir=<default>, string format=<default>, real size=<default>, pen p=<default>);
void ytick(picture pic=<default>, Label L, real y, pair dir=<default>, string format=<default>, real size=<default>, pen p=<default>);
-void xaxis(picture pic=<default>, Label L=<default>, void axis(picture, axisT)=<default>, real xmin=<default>, real xmax=<default>, pen p=<default>, void ticks(frame, transform, Label, pair, path, path, pen, bool(picture, path, pen, marginT(path, pen)), marginT(path, pen), ticklocate, int[], bool opposite=<default>)=<default>, bool arrow(picture, path, pen, marginT(path, pen))=<default>, marginT margin(path, pen)=<default>, bool above=<default>);
-void yaxis(picture pic=<default>, Label L=<default>, void axis(picture, axisT)=<default>, real ymin=<default>, real ymax=<default>, pen p=<default>, void ticks(frame, transform, Label, pair, path, path, pen, bool(picture, path, pen, marginT(path, pen)), marginT(path, pen), ticklocate, int[], bool opposite=<default>)=<default>, bool arrow(picture, path, pen, marginT(path, pen))=<default>, marginT margin(path, pen)=<default>, bool above=<default>, bool autorotate=<default>);
picture secondaryX(picture primary=<default>, void f(picture));
picture secondaryY(picture primary=<default>, void f(picture));
Label Break;
@@ -2876,6 +2988,10 @@ scaleT Linear;
scaleT Linear(bool automin=<default>, bool automax=<default>, real s=<default>, real intercept=<default>);
pair tickMin(picture pic);
pair tickMax(picture pic);
+void xaxisAt(picture pic=<default>, Label L=<default>, void axis(picture, axisT), real xmin=<default>, real xmax=<default>, pen p=<default>, void ticks(frame, transform, Label, pair, path, path, pen, bool(picture, path, pen, marginT(path, pen)), marginT(path, pen), ticklocate, int[], bool opposite=<default>)=<default>, bool arrow(picture, path, pen, marginT(path, pen))=<default>, marginT margin(path, pen)=<default>, bool above=<default>, bool opposite=<default>);
+void yaxisAt(picture pic=<default>, Label L=<default>, void axis(picture, axisT), real ymin=<default>, real ymax=<default>, pen p=<default>, void ticks(frame, transform, Label, pair, path, path, pen, bool(picture, path, pen, marginT(path, pen)), marginT(path, pen), ticklocate, int[], bool opposite=<default>)=<default>, bool arrow(picture, path, pen, marginT(path, pen))=<default>, marginT margin(path, pen)=<default>, bool above=<default>, bool opposite=<default>);
+void xaxis(picture pic=<default>, Label L=<default>, void axis(picture, axisT)=<default>, real xmin=<default>, real xmax=<default>, pen p=<default>, void ticks(frame, transform, Label, pair, path, path, pen, bool(picture, path, pen, marginT(path, pen)), marginT(path, pen), ticklocate, int[], bool opposite=<default>)=<default>, bool arrow(picture, path, pen, marginT(path, pen))=<default>, marginT margin(path, pen)=<default>, bool above=<default>);
+void yaxis(picture pic=<default>, Label L=<default>, void axis(picture, axisT)=<default>, real ymin=<default>, real ymax=<default>, pen p=<default>, void ticks(frame, transform, Label, pair, path, path, pen, bool(picture, path, pen, marginT(path, pen)), marginT(path, pen), ticklocate, int[], bool opposite=<default>)=<default>, bool arrow(picture, path, pen, marginT(path, pen))=<default>, marginT margin(path, pen)=<default>, bool above=<default>, bool autorotate=<default>);
string autoformat(string format=<default>, real norm ... real[] a);
real linear(real)(real S(real x)=<default>, real Min, real Max);
pair polar(real r, real theta);
@@ -2887,6 +3003,7 @@ void LeftTicks(frame, transform, Label, pair, path, path, pen, bool(picture, pat
void LeftTicks(frame, transform, Label, pair, path, path, pen, bool(picture, path, pen, marginT(path, pen)), marginT(path, pen), ticklocate, int[], bool opposite=<default>);
tickvalues NoZero(tickvalues);
string NoZeroFormat(real);
+path[] segment(pair[] z, bool[] cond, guide join(... guide[])=<default>);
guide Hermite(... guide[])(real[] splinetype(real[], real[]));
guide Hermite(... guide[]);
path Circle(pair c, real r, int n=<default>);
@@ -2919,7 +3036,6 @@ ticklocate operator init();
locateT operator init();
tickvalues operator init();
axisT operator init();
-path[] segment(pair[] z, bool[] cond, guide join(... guide[])=<default>);
int Both;
void axes(picture pic=<default>, Label xlabel=<default>, Label ylabel=<default>, bool extend=<default>, pair min=<default>, pair max=<default>, pen p=<default>, bool arrow(picture, path, pen, marginT(path, pen))=<default>, marginT margin(path, pen)=<default>, bool above=<default>);
string signedtrailingzero;
@@ -2956,118 +3072,6 @@ void autoscale(picture pic=<default>, void axis(picture, axisT));
guide Spline(... guide[]);
void LeftRight(picture, axisT)(bool extend=<default>);
void LeftRight(picture, axisT);
-locateT operator init();
-void Straight(flatguide3)(... void(flatguide3)[]);
-void graph(flatguide3)(triple F(real), real, real, int)(void join(flatguide3)(... void(flatguide3)[]));
-void(flatguide3)[] graph(triple F(real), real, real, int)(void join(flatguide3)(... void(flatguide3)[]), bool3 cond(real));
-void graph(flatguide3)(picture pic=<default>, real x(real), real y(real), real z(real), real a, real b, int n=<default>, void join(flatguide3)(... void(flatguide3)[])=<default>);
-void(flatguide3)[] graph(picture pic=<default>, real x(real), real y(real), real z(real), real a, real b, int n=<default>, bool3 cond(real), void join(flatguide3)(... void(flatguide3)[])=<default>);
-void graph(flatguide3)(picture pic=<default>, triple v(real), real a, real b, int n=<default>, void join(flatguide3)(... void(flatguide3)[])=<default>);
-void(flatguide3)[] graph(picture pic=<default>, triple v(real), real a, real b, int n=<default>, bool3 cond(real), void join(flatguide3)(... void(flatguide3)[])=<default>);
-void graph(flatguide3)(picture pic=<default>, triple[] v, void join(flatguide3)(... void(flatguide3)[])=<default>);
-void(flatguide3)[] graph(picture pic=<default>, triple[] v, bool3[] cond, void join(flatguide3)(... void(flatguide3)[])=<default>);
-void graph(flatguide3)(picture pic=<default>, real[] x, real[] y, real[] z, void join(flatguide3)(... void(flatguide3)[])=<default>);
-void(flatguide3)[] graph(picture pic=<default>, real[] x, real[] y, real[] z, bool3[] cond, void join(flatguide3)(... void(flatguide3)[])=<default>);
-void graph(flatguide3)(triple F(path, real), path p, int n=<default>, void join(flatguide3)(... void(flatguide3)[])=<default>);
-void graph(flatguide3)(triple F(pair), path p, int n=<default>, void join(flatguide3)(... void(flatguide3)[])=<default>);
-void graph(flatguide3)(picture pic=<default>, real f(pair), path p, int n=<default>, void join(flatguide3)(... void(flatguide3)[])=<default>);
-void graph(flatguide3)(real f(pair), path p, int n=<default>, real T(pair), void join(flatguide3)(... void(flatguide3)[])=<default>);
-void(flatguide3)[][] lift(real f(real x, real y), guide[][] g, void join(flatguide3)(... void(flatguide3)[])=<default>);
-void(flatguide3)[][] lift(real f(pair z), guide[][] g, void join(flatguide3)(... void(flatguide3)[])=<default>);
-triple polar(real r, real theta, real phi);
-void polargraph(flatguide3)(real r(real, real), real theta(real), real phi(real), int n=<default>, void join(flatguide3)(... void(flatguide3)[])=<default>);
-void xaxis3At(picture pic=<default>, Label L=<default>, void axis(picture, axisT), real xmin=<default>, real xmax=<default>, pen p=<default>, void ticks(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>)=<default>, bool arrow(picture, path3, material, marginT3(path3, pen), light, light)=<default>, marginT3 margin(path3, pen)=<default>, bool above=<default>, bool opposite=<default>, bool opposite2=<default>, bool primary=<default>);
-void yaxis3At(picture pic=<default>, Label L=<default>, void axis(picture, axisT), real ymin=<default>, real ymax=<default>, pen p=<default>, void ticks(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>)=<default>, bool arrow(picture, path3, material, marginT3(path3, pen), light, light)=<default>, marginT3 margin(path3, pen)=<default>, bool above=<default>, bool opposite=<default>, bool opposite2=<default>, bool primary=<default>);
-void zaxis3At(picture pic=<default>, Label L=<default>, void axis(picture, axisT), real zmin=<default>, real zmax=<default>, pen p=<default>, void ticks(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>)=<default>, bool arrow(picture, path3, material, marginT3(path3, pen), light, light)=<default>, marginT3 margin(path3, pen)=<default>, bool above=<default>, bool opposite=<default>, bool opposite2=<default>, bool primary=<default>);
-void xaxis3(picture pic=<default>, Label L=<default>, void axis(picture, axisT)=<default>, real xmin=<default>, real xmax=<default>, pen p=<default>, void ticks(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>)=<default>, bool arrow(picture, path3, material, marginT3(path3, pen), light, light)=<default>, marginT3 margin(path3, pen)=<default>, bool above=<default>);
-void yaxis3(picture pic=<default>, Label L=<default>, void axis(picture, axisT)=<default>, real ymin=<default>, real ymax=<default>, pen p=<default>, void ticks(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>)=<default>, bool arrow(picture, path3, material, marginT3(path3, pen), light, light)=<default>, marginT3 margin(path3, pen)=<default>, bool above=<default>);
-bool uperiodic(triple[][] a);
-void zaxis3(picture pic=<default>, Label L=<default>, void axis(picture, axisT)=<default>, real zmin=<default>, real zmax=<default>, pen p=<default>, void ticks(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>)=<default>, bool arrow(picture, path3, material, marginT3(path3, pen), light, light)=<default>, marginT3 margin(path3, pen)=<default>, bool above=<default>);
-bool vperiodic(triple[][] a);
-void OutTicks(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>)(Label format=<default>, string ticklabel(real)=<default>, bool beginlabel=<default>, bool endlabel=<default>, int N=<default>, int n=<default>, real Step=<default>, real step=<default>, bool begin=<default>, bool end=<default>, tickvalues modify(tickvalues)=<default>, real Size=<default>, real size=<default>, bool extend=<default>, pen pTick=<default>, pen ptick=<default>);
-void OutTicks(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>)(Label format=<default>, string ticklabel(real)=<default>, bool beginlabel=<default>, bool endlabel=<default>, real[] Ticks, real[] ticks=<default>, real Size=<default>, real size=<default>, bool extend=<default>, pen pTick=<default>, pen ptick=<default>);
-void OutTicks(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>);
-void axis(picture pic=<default>, Label L=<default>, path3 g, path3 g2=<default>, pen p=<default>, void ticks(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>), ticklocate locate, bool arrow(picture, path3, material, marginT3(path3, pen), light, light)=<default>, marginT3 margin(path3, pen)=<default>, int[] divisor=<default>, bool above=<default>, bool opposite=<default>);
-void Bounds(picture, axisT)(int type=<default>, int type2=<default>, triple align=<default>, bool extend=<default>);
-void Bounds(picture, axisT);
-void XZZero(picture, axisT)(triple align=<default>, bool extend=<default>);
-void XZZero(picture, axisT);
-void YZZero(picture, axisT)(triple align=<default>, bool extend=<default>);
-void YZZero(picture, axisT);
-surface surface(triple[][] f, bool[][] cond=<default>);
-surface surface(real[][] f, real[] x, real[] y, real[] xsplinetype(real[], real[])=<default>, real[] ysplinetype(real[], real[])=<default>, bool[][] cond=<default>);
-surface surface(real[][] f, pair a, pair b, real[] xsplinetype(real[], real[]), real[] ysplinetype(real[], real[])=<default>, bool[][] cond=<default>);
-surface surface(real[][] f, pair a, pair b, bool[][] cond=<default>);
-surface surface(triple f(pair z), pair a, pair b, int nu=<default>, int nv=<default>, bool cond(pair z)=<default>);
-surface surface(triple f(pair z), pair a, pair b, int nu=<default>, int nv=<default>, real[](real[], real[])[] usplinetype, real[](real[], real[])[] vsplinetype=<default>, bool cond(pair z)=<default>);
-surface surface(real f(pair z), pair a, pair b, int nx=<default>, int ny=<default>, bool cond(pair z)=<default>);
-surface surface(real f(pair z), pair a, pair b, int nx=<default>, int ny=<default>, real[] xsplinetype(real[], real[]), real[] ysplinetype(real[], real[])=<default>, bool cond(pair z)=<default>);
-void XYEquals(picture, axisT)(real x, real y, triple align=<default>, bool extend=<default>);
-triple Dir(real)(triple dir);
-void draw(picture pic=<default>, Label[] L=<default>, void(flatguide3)[][] g, pen[] p, light light=<default>, string name=<default>, render render=<default>, interaction interaction=<default>);
-void draw(picture pic=<default>, Label[] L=<default>, void(flatguide3)[][] g, pen p=<default>, light light=<default>, string name=<default>, render render=<default>, interaction interaction=<default>);
-void Ticks3(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>)(int sign, Label F=<default>, string ticklabel(real)=<default>, bool beginlabel=<default>, bool endlabel=<default>, real[] Ticks=<default>, real[] ticks=<default>, int N=<default>, bool begin=<default>, bool end=<default>, real Size=<default>, real size=<default>, bool extend=<default>, pen pTick=<default>, pen ptick=<default>);
-void Ticks3(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>)(int sign, Label F=<default>, string ticklabel(real)=<default>, bool beginlabel=<default>, bool endlabel=<default>, int N, int n=<default>, real Step=<default>, real step=<default>, bool begin=<default>, bool end=<default>, tickvalues modify(tickvalues)=<default>, real Size=<default>, real size=<default>, bool extend=<default>, pen pTick=<default>, pen ptick=<default>);
-real maxlength(triple f(pair z), pair a, pair b, int nu, int nv);
-void drawtick(picture pic, real[][] T, path3 g, path3 g2, ticklocate locate, real val, real Size, int sign, pen p, bool extend);
-triple tickMin3(picture pic);
-triple tickMax3(picture pic);
-triple Scale(picture pic=<default>, triple v);
-real ScaleZ(picture pic=<default>, real z);
-picture vectorfield(path3 vector(pair v), triple f(pair z), pair a, pair b, int nu=<default>, int nv=<default>, bool truesize=<default>, real maxlength=<default>, bool cond(pair z)=<default>, pen p=<default>, bool arrow(picture, path3, material, marginT3(path3, pen), light, light)=<default>, marginT3 margin(path3, pen)=<default>, string name=<default>, render render=<default>);
-path3 Circle(triple c, real r, triple normal=<default>, int n=<default>);
-void InTicks(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>)(Label format=<default>, string ticklabel(real)=<default>, bool beginlabel=<default>, bool endlabel=<default>, int N=<default>, int n=<default>, real Step=<default>, real step=<default>, bool begin=<default>, bool end=<default>, tickvalues modify(tickvalues)=<default>, real Size=<default>, real size=<default>, bool extend=<default>, pen pTick=<default>, pen ptick=<default>);
-void InTicks(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>)(Label format=<default>, string ticklabel(real)=<default>, bool beginlabel=<default>, bool endlabel=<default>, real[] Ticks, real[] ticks=<default>, real Size=<default>, real size=<default>, bool extend=<default>, pen pTick=<default>, pen ptick=<default>);
-void InTicks(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>);
-void Spline(flatguide3)(... void(flatguide3)[]);
-void InOutTicks(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>)(Label format=<default>, string ticklabel(real)=<default>, bool beginlabel=<default>, bool endlabel=<default>, int N=<default>, int n=<default>, real Step=<default>, real step=<default>, bool begin=<default>, bool end=<default>, tickvalues modify(tickvalues)=<default>, real Size=<default>, real size=<default>, bool extend=<default>, pen pTick=<default>, pen ptick=<default>);
-void InOutTicks(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>)(Label format=<default>, string ticklabel(real)=<default>, bool beginlabel=<default>, bool endlabel=<default>, real[] Ticks, real[] ticks=<default>, real Size=<default>, real size=<default>, bool extend=<default>, pen pTick=<default>, pen ptick=<default>);
-void InOutTicks(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>);
-void axes3(picture pic=<default>, Label xlabel=<default>, Label ylabel=<default>, Label zlabel=<default>, bool extend=<default>, triple min=<default>, triple max=<default>, pen p=<default>, bool arrow(picture, path3, material, marginT3(path3, pen), light, light)=<default>, marginT3 margin(path3, pen)=<default>);
-void label(picture pic, Label L, triple v, real x, align align, string format, pen p);
-void labelx(picture pic=<default>, Label L=<default>, triple v, align align=<default>, string format=<default>, pen p=<default>);
-void labely(picture pic=<default>, Label L=<default>, triple v, align align=<default>, string format=<default>, pen p=<default>);
-void labeltick(picture pic, real[][] T, path3 g, ticklocate locate, real val, int sign, real Size, string ticklabel(real), Label F, real norm=<default>);
-void labelaxis(picture pic, real[][] T, Label L, path3 g, ticklocate locate=<default>, int sign=<default>, bool ticklabels=<default>);
-void labelx3(picture pic=<default>, Label L=<default>, real x, align align=<default>, string format=<default>, pen p=<default>);
-void labely3(picture pic=<default>, Label L=<default>, real y, align align=<default>, string format=<default>, pen p=<default>);
-void labelz(picture pic=<default>, Label L=<default>, triple v, align align=<default>, string format=<default>, pen p=<default>);
-void labelz3(picture pic=<default>, Label L=<default>, real z, align align=<default>, string format=<default>, pen p=<default>);
-void autoscale3(picture pic=<default>, void axis(picture, axisT));
-void xtick(picture pic=<default>, triple v, triple dir=<default>, real size=<default>, pen p=<default>);
-void xtick(picture pic=<default>, Label L, triple v, triple dir=<default>, string format=<default>, real size=<default>, pen p=<default>);
-void ytick(picture pic=<default>, triple v, triple dir=<default>, real size=<default>, pen p=<default>);
-void ytick(picture pic=<default>, Label L, triple v, triple dir=<default>, string format=<default>, real size=<default>, pen p=<default>);
-void xtick3(picture pic=<default>, real x, triple dir=<default>, real size=<default>, pen p=<default>);
-void xtick3(picture pic=<default>, Label L, real x, triple dir=<default>, string format=<default>, real size=<default>, pen p=<default>);
-void ytick3(picture pic=<default>, real y, triple dir=<default>, real size=<default>, pen p=<default>);
-void ytick3(picture pic=<default>, Label L, real y, triple dir=<default>, string format=<default>, real size=<default>, pen p=<default>);
-void ztick(picture pic=<default>, triple v, triple dir=<default>, real size=<default>, pen p=<default>);
-void ztick(picture pic=<default>, Label L, triple v, triple dir=<default>, string format=<default>, real size=<default>, pen p=<default>);
-void ztick3(picture pic=<default>, real z, triple dir=<default>, real size=<default>, pen p=<default>);
-void ztick3(picture pic=<default>, Label L, real z, triple dir=<default>, string format=<default>, real size=<default>, pen p=<default>);
-triple zero3(real);
-triple defaultdir(triple X, triple Y, triple Z, bool opposite=<default>, projection P);
-real xtrans(real[][] t, real x);
-real ytrans(real[][] t, real y);
-real ztrans(real[][] t, real z);
-ticklocate ticklocate(real a, real b, autoscaleT S=<default>, real tickmin=<default>, real tickmax=<default>, real time(real)=<default>, triple dir(real));
-triple ticklabelshift(triple align, pen p=<default>);
-path3 Arc(triple c, triple v1, triple v2, triple normal=<default>, bool direction=<default>, int n=<default>);
-path3 Arc(triple c, real r, real theta1, real phi1, real theta2, real phi2, triple normal=<default>, bool direction, int n=<default>);
-path3 Arc(triple c, real r, real theta1, real phi1, real theta2, real phi2, triple normal=<default>, int n=<default>);
-void limits(picture pic=<default>, triple min, triple max);
-void XZEquals(picture, axisT)(real x, real z, triple align=<default>, bool extend=<default>);
-void YZEquals(picture, axisT)(real y, real z, triple align=<default>, bool extend=<default>);
-void XYZero(picture, axisT)(triple align=<default>, bool extend=<default>);
-void XYZero(picture, axisT);
-void zlimits(picture pic=<default>, real min=<default>, real max=<default>, bool crop=<default>);
-void tick(picture pic=<default>, triple v, triple dir, real size=<default>, pen p=<default>);
-void tick(picture pic=<default>, Label L, real value, triple v, triple dir, string format=<default>, real size=<default>, pen p=<default>);
-surface bispline(real[][] z, real[][] p, real[][] q, real[][] r, real[] x, real[] y, bool[][] cond=<default>);
-path3[] segment(triple[] v, bool[] cond, void join(flatguide3)(... void(flatguide3)[])=<default>);
-void NoTicks3(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>)();
-void NoTicks3(picture, real[][], Label, path3, path3, pen, bool(picture, path3, material, marginT3(path3, pen), light, light), marginT3(path3, pen), ticklocate, int[], bool opposite=<default>, bool primary=<default>);
bool Crop;
int ngraph;
real epsilon;
@@ -3106,16 +3110,16 @@ grid3(picture pic)[] XYXgrid(position pos=<default>);
grid3(picture pic)[] XYXgrid;
grid3(picture pic)[] XY_XZgrid(position posa=<default>, position posb=<default>);
grid3(picture pic)[] XY_XZgrid;
-position middle;
grid3(picture pic)[] ZX_ZYgrid(position posa=<default>, position posb=<default>);
grid3(picture pic)[] ZX_ZYgrid;
+void xaxis3(picture pic=<default>, Label L=<default>, void axis(picture, axisT)=<default>, pen p=<default>, ticksgridT ticks(), bool arrow(picture, path3, material, marginT3(path3, pen), light, light)=<default>, bool above=<default>);
+void yaxis3(picture pic=<default>, Label L=<default>, void axis(picture, axisT)=<default>, pen p=<default>, ticksgridT ticks(), bool arrow(picture, path3, material, marginT3(path3, pen), light, light)=<default>, bool above=<default>);
+void zaxis3(picture pic=<default>, Label L=<default>, void axis(picture, axisT)=<default>, pen p=<default>, ticksgridT ticks(), bool arrow(picture, path3, material, marginT3(path3, pen), light, light)=<default>, bool above=<default>);
grid3 XYgrid(picture pic)(position pos=<default>);
grid3 XYgrid(picture pic);
grid3 ZYgrid(picture pic)(position pos=<default>);
grid3 ZYgrid(picture pic);
-void xaxis3(picture pic=<default>, Label L=<default>, void axis(picture, axisT)=<default>, pen p=<default>, ticksgridT ticks(), bool arrow(picture, path3, material, marginT3(path3, pen), light, light)=<default>, bool above=<default>);
-void yaxis3(picture pic=<default>, Label L=<default>, void axis(picture, axisT)=<default>, pen p=<default>, ticksgridT ticks(), bool arrow(picture, path3, material, marginT3(path3, pen), light, light)=<default>, bool above=<default>);
-void zaxis3(picture pic=<default>, Label L=<default>, void axis(picture, axisT)=<default>, pen p=<default>, ticksgridT ticks(), bool arrow(picture, path3, material, marginT3(path3, pen), light, light)=<default>, bool above=<default>);
+position middle;
void grid3(picture pic=<default>, grid3(picture pic)[][] gridroutine=<default>, int N=<default>, int n=<default>, real Step=<default>, real step=<default>, bool begin=<default>, bool end=<default>, pen pGrid=<default>, pen pgrid=<default>, bool above=<default>);
void grid3(picture pic=<default>, grid3(picture pic)[][] gridroutine, int N=<default>, int n=<default>, real Step=<default>, real step=<default>, bool begin=<default>, bool end=<default>, pen[] pGrid, pen[] pgrid, bool above=<default>);
ticksgridT OutTicks()(Label F=<default>, string ticklabel(real)=<default>, bool beginlabel=<default>, bool endlabel=<default>, int N=<default>, int n=<default>, real Step=<default>, real step=<default>, bool begin=<default>, bool end=<default>, real Size=<default>, real size=<default>, pen pTick=<default>, pen ptick=<default>, grid3(picture pic)[][] gridroutine, pen pGrid=<default>, pen pgrid=<default>);
@@ -3152,16 +3156,16 @@ horner diffdiv(real[] x, real[] y);
horner hdiffdiv(real[] x, real[] y, real[] dy);
horner operator init();
real fhorner(real)(horner sh);
-void labelpath(frame f, Label L, path g, string justify=<default>, pen p=<default>);
-void labelpath(picture pic=<default>, Label L, path g, string justify=<default>, pen p=<default>);
-string LeftJustified;
-string Centered;
-string RightJustified;
surface labelpath(string s, path3 p, real angle=<default>, triple optional=<default>);
triple[] firstframe(path3 p, triple optional=<default>);
triple[] nextframe(path3 p, real reltimestart, triple[] start, real reltimeend, int subdiv=<default>);
real eps;
triple nextnormal(triple p, triple q);
+void labelpath(frame f, Label L, path g, string justify=<default>, pen p=<default>);
+void labelpath(picture pic=<default>, Label L, path g, string justify=<default>, pen p=<default>);
+string LeftJustified;
+string Centered;
+string RightJustified;
string[] lm_infmsg;
void lm_qrfac(int m, int n, real[] a, bool pivot, int[] ipvt, real[] rdiag, real[] acnorm, real[] wa);
void lm_qrsolv(int n, real[] r, int ldr, int[] ipvt, real[] diag, real[] qtb, real[] x, real[] sdiag, real[] wa);
@@ -3248,13 +3252,13 @@ bool rectangular(pair[][] m);
bool rectangular(triple[][] m);
bool polygon(path p);
pair unityroot(int n, int k=<default>);
+int[][] segmentlimits(bool[] b);
+int[][] segment(bool[] b);
real acot(real x);
pair[][] fft(pair[][] a, int sign=<default>);
real slope(path g, real x, int n=<default>);
real slope(path g, explicit pair z, int n=<default>);
picture grid(int Nx, int Ny, pen p=<default>);
-int[][] segmentlimits(bool[] b);
-int[][] segment(bool[] b);
real frac(real x);
real asec(real x);
real time(path g, real x, int n=<default>);
@@ -3279,7 +3283,7 @@ RKTableau E_Euler;
real error(real error, real initial, real lowOrder, real norm, real diff);
RKTableau RK5;
real stepfactor;
-solution integrate(real y, real c=<default>, real g(real t, real y), real a, real b=<default>, real h=<default>, int n=<default>, bool dynamic=<default>, real tolmin=<default>, real tolmax=<default>, real dtmin=<default>, real dtmax=<default>, RKTableau tableau, bool verbose=<default>);
+solution integrate(real y, real c=<default>, real f(real t, real y), real a, real b=<default>, real h=<default>, int n=<default>, bool dynamic=<default>, real tolmin=<default>, real tolmax=<default>, real dtmin=<default>, real dtmax=<default>, RKTableau tableau, bool verbose=<default>);
Solution integrate(real[] y, real[] f(real t, real[] y), real a, real b=<default>, real h=<default>, int n=<default>, bool dynamic=<default>, real tolmin=<default>, real tolmax=<default>, real dtmin=<default>, real dtmax=<default>, RKTableau tableau, bool verbose=<default>);
RKTableau RK4;
real[] newton(int iterations=<default>, real[] f(real[]), real[][] jacobian(real[]), real[] t);
@@ -3394,8 +3398,8 @@ pen backgroundcolor;
void normalvideo();
void title(string s, pair position=<default>, pair align=<default>, pen p=<default>, bool newslide=<default>);
pen titlepen;
-void nextpage(pen p=<default>);
real titleskip;
+void nextpage(pen p=<default>);
pair dateskip;
pair titlealign;
pen titlepagepen;
@@ -3422,8 +3426,8 @@ void incrementposition(pair z);
pen institutionpen;
void skip(real n=<default>);
bool stepping;
-void item(string s, pen p=<default>, bool step=<default>);
real pagemargin;
+void item(string s, pen p=<default>, bool step=<default>);
pen steppagenumberpen;
bool empty();
void currentexitfunction();
@@ -3449,6 +3453,60 @@ path curve(pair c, real f(real, real), pair a, pair b);
path curve(pair c, real f(real), pair a, pair b);
picture slopefield(real f(real, real), pair a, pair b, int nx=<default>, int ny=<default>, real tickfactor=<default>, pen p=<default>, bool arrow(picture, path, pen, marginT(path, pen))=<default>);
picture slopefield(real f(real), pair a, pair b, int nx=<default>, int ny=<default>, pen p=<default>, bool arrow(picture, path, pen, marginT(path, pen))=<default>);
+real[] apply(real[][] matrix, real[] v);
+real[] applytranspose(real[][] matrix, real[] v);
+real B23(real t);
+path3 pathinface(positionedvector v1, positionedvector v2, triple facenorm, triple edge1normout, triple edge2normout);
+path3 pathinface(positionedvector v1, positionedvector v2, int face, int edge1face, int edge2face);
+path3 bisector(path3 edgecycle, int[] savevertices);
+int XHIGH;
+int YHIGH;
+int ZHIGH;
+real B03(real t);
+real[][] AtA(real[][] matrix);
+real(real)[] bernstein;
+path3 pathbetween(positionedvector v1, positionedvector v2);
+path3 pathbetween(path3 edgecycle, int vertex1, int vertex2);
+patch patchwithnormals(path3 external, triple[] u0normals, triple[] u1normals, triple[] v0normals, triple[] v1normals);
+patch patchwithnormals(path3 external, triple normalat(triple));
+real angledegrees(triple a, triple b);
+triple projecttospan(triple toproject, triple v1, triple v2, real mincoeff=<default>);
+real[] projecttospan_findcoeffs(triple toproject, triple v1, triple v2, bool warn=<default>);
+triple nGrad(triple)(real f(triple));
+triple normalout(int face);
+patch[] quadpatches(path3 edgecycle, positionedvector[] corners, real f(triple), triple grad(triple), triple a, triple b);
+int NULL_VERTEX;
+int[] makecircle(edge[] edges);
+real B13(real t);
+bool check_fpt_zero(triple testpoint, real f(triple), triple grad(triple));
+bool checkptincube(triple pt, triple a, triple b);
+bool checkpt(triple testpt, real f(triple), triple grad(triple), triple a, triple b);
+int XLOW;
+int YLOW;
+int ZLOW;
+pathwithnormals_settings operator init();
+rootfinder_settings operator init();
+intset operator init();
+int_to_intset operator init();
+edge operator init();
+positionedvector operator init();
+evaluatedpoint operator init();
+gridwithzeros operator init();
+surface implicitsurface(real f(triple)=<default>, real ff(real, real, real)=<default>, triple a, triple b, int n=<default>, bool keyword overlapedges=<default>, int keyword nx=<default>, int keyword ny=<default>, int keyword nz=<default>, int keyword maxdepth=<default>);
+string operator cast(edge e);
+string operator cast(edge[] edges);
+string operator cast(positionedvector vv);
+triple operator cast(evaluatedpoint p);
+bool operator ==(edge a, edge b);
+patch[] triangletoquads(path3 external, real f(triple), triple grad(triple), triple a, triple b);
+real[] leastsquares(real[][] A, real[] b, bool warn=<default>);
+evaluatedpoint[][][] make3dgrid(triple a, triple b, int nx, int ny, int nz, real f(triple), bool allowzero=<default>);
+real B33(real t);
+evaluatedpoint[][] slice(evaluatedpoint[][] a, int start1, int end1, int start2, int end2);
+evaluatedpoint[][][] slice(evaluatedpoint[][][] a, int start1, int end1, int start2, int end2, int start3, int end3);
+positionedvector[][] slice(positionedvector[][] a, int start1, int end1, int start2, int end2);
+positionedvector[][][] slice(positionedvector[][][] a, int start1, int end1, int start2, int end2, int start3, int end3);
+real findroot(real f(real), real a, real b, real tolerance=<default>, real fa=<default>, real fb=<default>);
revolution operator *(real[][] t, revolution r);
skeleton operator init();
revolution operator init();
@@ -3461,8 +3519,6 @@ pen defaultbackpen;
path[] cylinder(path3 base, real h, triple axis=<default>, projection P);
revolution cylinder(triple c=<default>, real r, real h, triple axis=<default>);
revolution cone(triple c=<default>, real r, real h, triple axis=<default>, int n=<default>);
-void histogram(picture pic=<default>, real[] bins, real[] count, real low=<default>, pen fillpen=<default>, pen drawpen=<default>, bool bars=<default>, Label legend=<default>, real markersize=<default>);
-void histogram(picture pic=<default>, real[] data, real a, real b, int n, bool normalize=<default>, real low=<default>, pen fillpen=<default>, pen drawpen=<default>, bool bars=<default>, Label legend=<default>, real markersize=<default>);
real rms(real[] A);
int[] frequency(real[] data, real[] bins);
int[] frequency(real[] data, real a, real b, int n);
@@ -3472,28 +3528,33 @@ int[][] frequency(pair[] z, pair a, pair b, int nx, int ny=<default>);
real mean(real[] A);
int bins(real[] data, int max=<default>);
path topbox(pair a, pair b);
-real stdev(real[] A);
+void histogram(picture pic=<default>, real[] bins, real[] count, real low=<default>, pen fillpen=<default>, pen drawpen=<default>, bool bars=<default>, Label legend=<default>, real markersize=<default>);
+void histogram(picture pic=<default>, real[] data, real a, real b, int n, bool normalize=<default>, real low=<default>, pen fillpen=<default>, pen drawpen=<default>, bool bars=<default>, Label legend=<default>, real markersize=<default>);
path halfbox(pair a, pair b);
+real stdev(real[] A);
real variance(real[] A);
real legendmarkersize;
real variancebiased(real[] A);
-real Gaussian(real x, real sigma);
-real Gaussian(real x);
-pair Gaussrandpair();
-real Gaussrand();
linefit operator init();
real skewness(real[] A);
linefit leastsquares(real[] x, real[] y);
real kurtosis(real[] A);
real kurtosisexcess(real[] A);
+real Gaussian(real x, real sigma);
+real Gaussian(real x);
+pair Gaussrandpair();
+real Gaussrand();
+Component wye;
pair[] endpoints(guide[] a);
+Braid apply(Relation r, Braid b, int step, int place);
+real hwratio;
Relation r3;
+Relation r4a;
picture tableau(frame[] cards, bool number=<default>);
pair min(pair[] z);
Component bp;
Component phi;
real gapfactor;
-Braid apply(Relation r, Braid b, int step, int place);
Component bm;
Relation operator -(Relation r);
Component operator init();
@@ -3501,37 +3562,37 @@ Braid operator init();
Relation operator init();
Syzygy operator init();
Relation r4b;
-Component wye;
-real hwratio;
-Relation r4a;
pair max(pair[] z);
pen Orchid;
pen Magenta;
+pen VioletRed;
pen BrickRed;
-pen Salmon;
+pen Violet;
pen CadetBlue;
pen CarnationPink;
pen SpringGreen;
pen MidnightBlue;
pen OliveGreen;
+pen Thistle;
pen Apricot;
pen Cyan;
+pen DarkOrchid;
pen Red;
pen RawSienna;
pen Mahogany;
+pen WildStrawberry;
pen Gray;
pen Plum;
pen BlueGreen;
pen Cerulean;
-pen Aquamarine;
pen Blue;
pen BlueViolet;
pen RedOrange;
pen Goldenrod;
pen ForestGreen;
-pen Lavender;
pen BurntOrange;
pen Tan;
+pen Salmon;
pen Brown;
pen RubineRed;
pen TealBlue;
@@ -3544,34 +3605,31 @@ pen Fuchsia;
pen Peach;
pen PineGreen;
pen Dandelion;
-pen YellowOrange;
-pen Maroon;
-pen YellowGreen;
pen Black;
pen NavyBlue;
pen Rhodamine;
pen ProcessBlue;
-pen Sepia;
pen LimeGreen;
+pen Aquamarine;
pen Green;
pen GreenYellow;
-pen VioletRed;
-pen Violet;
+pen Lavender;
pen Emerald;
pen Mulberry;
pen RedViolet;
pen SkyBlue;
pen SeaGreen;
-pen Thistle;
pen Periwinkle;
-pen DarkOrchid;
+pen YellowOrange;
+pen Maroon;
+pen YellowGreen;
pen Yellow;
-pen WildStrawberry;
pen JungleGreen;
pen CornflowerBlue;
pen RoyalBlue;
pen Melon;
pen RoyalPurple;
+pen Sepia;
pen Turquoise;
int lookup(tree t, int key);
tree newtree();
@@ -3598,30 +3656,32 @@ real degrees(rmf a, rmf b);
string VERSION;
pen Orchid;
pen Indigo;
-pen GhostWhite;
pen Beige;
pen SlateBlue;
pen SlateGray;
+pen SandyBrown;
pen Magenta;
-pen Salmon;
+pen Violet;
pen CadetBlue;
pen DeepPink;
+pen DeepSkyBlue;
pen SpringGreen;
pen MidnightBlue;
-pen LavenderBlush;
pen Olive;
-pen Wheat;
pen OliveDrab;
+pen Thistle;
pen Chocolate;
+pen Cornsilk;
pen Cyan;
pen Gainsboro;
-pen SteelBlue;
+pen DarkOrchid;
pen Ivory;
pen PapayaWhip;
pen Red;
pen Pink;
pen MintCream;
pen DarkTurquoise;
+pen Seashell;
pen Gray;
pen MediumBlue;
pen MediumOrchid;
@@ -3632,17 +3692,14 @@ pen MediumAquamarine;
pen MediumSpringGreen;
pen MediumTurquoise;
pen MediumVioletRed;
+pen GhostWhite;
pen Plum;
-pen LemonChiffon;
-pen Aquamarine;
pen Blue;
pen Sienna;
pen Gold;
pen BlueViolet;
pen Goldenrod;
pen ForestGreen;
-pen Lavender;
-pen Aqua;
pen Chartreuse;
pen NavajoWhite;
pen Tan;
@@ -3650,8 +3707,11 @@ pen DarkMagenta;
pen AntiqueWhite;
pen PaleTurquoise;
pen IndianRed;
+pen LavenderBlush;
pen Crimson;
+pen Wheat;
pen Azure;
+pen Salmon;
pen LawnGreen;
pen Brown;
pen BurlyWood;
@@ -3665,29 +3725,27 @@ pen DimGray;
pen Orange;
pen OrangeRed;
pen Fuchsia;
+pen SteelBlue;
pen PeachPuff;
pen Honeydew;
-pen Maroon;
pen Bisque;
-pen YellowGreen;
pen RosyBrown;
pen Black;
pen Khaki;
pen FireBrick;
+pen LemonChiffon;
pen Snow;
-pen DarkOliveGreen;
-pen DarkOrange;
pen LimeGreen;
+pen Aqua;
pen Lime;
+pen Aquamarine;
pen OldLace;
-pen Silver;
pen Green;
pen GreenYellow;
+pen Lavender;
pen DarkCyan;
pen FloralWhite;
-pen Violet;
pen DarkRed;
-pen SandyBrown;
pen BlanchedAlmond;
pen PowderBlue;
pen DarkGray;
@@ -3696,23 +3754,23 @@ pen DarkGoldenrod;
pen SkyBlue;
pen SeaGreen;
pen DarkViolet;
-pen Thistle;
pen Teal;
pen AliceBlue;
-pen DeepSkyBlue;
pen HotPink;
pen DodgerBlue;
pen SaddleBrown;
pen Tomato;
pen DarkKhaki;
-pen DarkOrchid;
+pen Maroon;
+pen YellowGreen;
pen LightBlue;
pen LightCoral;
-pen Cornsilk;
pen LightCyan;
pen Yellow;
pen LightGreen;
+pen DarkOliveGreen;
pen PaleGreen;
+pen DarkOrange;
pen Linen;
pen LightGoldenrodYellow;
pen LightGrey;
@@ -3725,12 +3783,12 @@ pen LightSkyBlue;
pen LightSlateGray;
pen PaleVioletRed;
pen LightSteelBlue;
-pen LightYellow;
pen CornflowerBlue;
+pen LightYellow;
pen rgbint(int r, int g, int b);
pen Coral;
pen MistyRose;
-pen Seashell;
+pen Silver;
pen DarkSalmon;
pen DarkSeaGreen;
pen RoyalBlue;