diff options
author | Karl Berry <karl@freefriends.org> | 2011-06-20 17:46:02 +0000 |
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committer | Karl Berry <karl@freefriends.org> | 2011-06-20 17:46:02 +0000 |
commit | 7abb05cf3bd1ad6ebe35c2462dd838e43c857c76 (patch) | |
tree | dd0c3e19238c696fd2608ddec34680924d8645d8 /Build/source | |
parent | 2a9c9ecb186de2601eb23799765eccb4a8f74a62 (diff) |
asymptote 2.11
git-svn-id: svn://tug.org/texlive/trunk@23068 c570f23f-e606-0410-a88d-b1316a301751
Diffstat (limited to 'Build/source')
-rw-r--r-- | Build/source/utils/asymptote/asy.list | 3735 |
1 files changed, 0 insertions, 3735 deletions
diff --git a/Build/source/utils/asymptote/asy.list b/Build/source/utils/asymptote/asy.list index 818affd5e9a..e69de29bb2d 100644 --- a/Build/source/utils/asymptote/asy.list +++ b/Build/source/utils/asymptote/asy.list @@ -1,3735 +0,0 @@ -string stripfile(string s); -string stripsuffix(string f, string suffix=<default>); -real cbrt(real x); -real[] cbrt(real[] a); -cputime cputime(); -string stripdirectory(string s); -real sqrtEpsilon; -string stripextension(string s); -version version; -void texpreamble(string s); -pen beveljoin; -string cputimeformat; -real Cos(real deg); -string insert(string s, int pos, string t); -marginT EndDotMargin(path, pen); -pen heavyred; -pen black; -pen heavyblue; -file xoutput(string name, bool update=<default>); -pen heavygreen; -pen heavycyan; -marginT PenMargin(path, pen)(real begin, real end); -marginT PenMargin(path, pen); -int realDigits; -pen heavymagenta; -marginT PenMargins(path, pen); -void newl(file file); -void seek(file f, int pos); -string verbatim(string s); -pen heavygray; -pen heavygrey; -void markuniform(picture pic=<default>, frame f, path g)(pair z(real t), real a, real b, int n); -void markuniform(picture pic=<default>, frame f, path g)(bool centered=<default>, int n, bool rotated=<default>); -real[] mintimes(path p); -real[] mintimes(path3 p); -bool straight(path p, int t); -bool straight(path3 p, int t); -pen makepen(path p); -real dotsize(pen p=<default>); -real[] curlSpecifier(guide g, int t); -real straightness(path3 p, int t); -real straightness(triple z0, triple c0, triple c1, triple z1); -real log10(real x); -real[] log10(real[] a); -pen paleblue; -bool prc0(string format=<default>); -int CTZ(int a); -real barfactor; -pen Magenta; -real cos(real x); -real[] cos(real[] a); -pair cos(explicit pair z); -int intMax; -bool cyclic(guide g); -bool cyclic(path p); -bool cyclic(path3 p); -void printBytecode(<open>); -transform Rotate(transform)(pair z); -transform Rotate(transform t); -bool inXasyMode; -path subpath(path p, int a, int b); -path subpath(path p, real a, real b); -path3 subpath(path3 p, int a, int b); -path3 subpath(path3 p, real a, real b); -string jobname(string name); -void print_random_addresses(int n=<default>); -void attach(picture dest=<default>, frame src, pair position=<default>, bool group=<default>, filltype filltype=<default>, bool above=<default>); -void attach(picture dest=<default>, frame src, pair position, pair align, bool group=<default>, filltype filltype=<default>, bool above=<default>); -real[] quadraticroots(real a, real b, real c); -pair[] quadraticroots(explicit pair a, explicit pair b, explicit pair c); -pen darkcyan; -string[] file3; -real[] maxtimes(path p); -real[] maxtimes(path3 p); -filltype FillDraw; -filltype FillDraw(real xmargin=<default>, real ymargin=<default>, pen fillpen=<default>, pen drawpen=<default>); -void initdefaults(); -void erase(frame f); -string erase(string s, int pos, int n); -void erase(picture pic=<default>); -pair E; -int Ceil(real x); -pair I; -pair SSW; -pen magenta; -pair WSW; -pair N; -bool view(); -void usersetting(); -pair S; -void nowarn(string s); -transform rotate(real angle, pair z=<default>); -transform rotate(explicit pair dir); -int quotient(int x, int y); -transform rotation(transform t); -pair W; -int rand(); -pen ZapfChancery(string series=<default>, string shape=<default>); -int XOR(int a, int b); -void atupdate(void f()); -void atupdate()(); -void unfill(frame f, path[] g, bool copy=<default>); -void unfill(picture pic=<default>, path[] g, bool copy=<default>); -bool Bar(picture, path, pen, marginT(path, pen))(real size=<default>); -bool Bar(picture, path, pen, marginT(path, pen)); -bool eol(file f); -pen zerowinding; -void atbreakpoint(string f(string, int, int, code)); -void savedefaults()(); -bool MidArrow(picture, path, pen, marginT(path, pen)); -bool MidArrow(picture, path, pen, marginT(path, pen))(arrowhead arrowhead=<default>, real size=<default>, real angle=<default>, filltype filltype=<default>); -void exitXasyMode(); -bool MidArcArrow(picture, path, pen, marginT(path, pen))(arrowhead arrowhead=<default>, real size=<default>, real angle=<default>, filltype filltype=<default>); -bool MidArcArrow(picture, path, pen, marginT(path, pen)); -void grestore(frame f); -pair extension(pair p, pair q, pair p, pair q); -pen extendcap; -int ceil(real x); -pen thick(pen p=<default>); -pair left; -int Suppress; -file input(string name, bool check=<default>, string comment=<default>); -int SuppressQuiet; -real[] texsize(string s, pen p=<default>); -string nativeformat(); -bool invisible(pen p); -pen invisible(); -pen invisible; -bool CCW; -void usetypescript(string s, string encoding=<default>); -path randompath(int n, bool cumulate=<default>, guide join(... guide[])=<default>); -int system(string[] s); -int system(string s); -void bar(picture pic, pair a, pair d, pen p=<default>); -picture bar(pair a, pair d, pen p=<default>); -side NoSide; -file stdout; -transform Shift(transform t); -real fmod(real x, real y); -real offset(pen p); -pen rgb(pen p); -pen rgb(real r, real g, real b); -pen rgb(string s); -real inch; -bool ArcArrow(picture, path, pen, marginT(path, pen)); -bool ArcArrow(picture, path, pen, marginT(path, pen))(arrowhead arrowhead=<default>, real size=<default>, real angle=<default>, filltype filltype=<default>, position position=<default>); -bool ArcArrows(picture, path, pen, marginT(path, pen))(arrowhead arrowhead=<default>, real size=<default>, real angle=<default>, filltype filltype=<default>); -bool ArcArrows(picture, path, pen, marginT(path, pen)); -pen currentpen; -pair precontrol(path p, int t); -pair precontrol(path p, real t); -triple precontrol(path3 p, int t); -triple precontrol(path3 p, real t); -light currentlight; -pen royalblue; -picture currentpicture; -frame currentpatterns; -int JOIN_IN; -int JOIN_OUT; -projection currentprojection; -void endScript(); -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>); -real xpart(pair z); -real xpart(triple v); -side Center; -real ypart(pair z); -real ypart(triple v); -real zpart(triple v); -frame orientation(frame); -pen Courier(string series=<default>, string shape=<default>); -real simpson(real f(real), real a, real b, real acc=<default>, real dxmax=<default>); -transform shift(transform t); -transform shift(pair z); -transform shift(real x, real y); -transform shift(frame f, pair align); -real asinh(real x); -real[] asinh(real[] a); -pen orange; -pen darkgray; -slice lastcut(path p, path knife); -pen darkgreen; -pen darkgrey; -transform xscale(real x); -transform shiftless(transform t); -real[][] shiftless(real[][] t); -transform yscale(real y); -void usleep(int microseconds); -real cosh(real x); -real[] cosh(real[] a); -position MidPoint; -real Sin(real deg); -void assert(bool b, string s=<default>); -pen Palatino(string series=<default>, string shape=<default>); -real incircle(pair a, pair b, pair c, pair d); -frame Landscape(frame f); -pen purple; -string italic(string s); -real atan(real x); -real[] atan(real[] a); -real acos(real x); -real[] acos(real[] a); -pair minbound(pair a, pair b); -triple minbound(triple a, triple b); -pair minbound(pair[] a); -pair minbound(pair[][] a); -pair minbound(pair[][][] a); -triple minbound(triple[] a); -triple minbound(triple[][] a); -triple minbound(triple[][][] a); -void restore(); -pen basealign(int n); -int basealign(pen p=<default>); -pen basealign; -int min(int a, int b); -int[] min(int a, int[] b); -int[] min(int[] a, int b); -int[] min(int[] a, int[] b); -int min(int[] a); -int min(int[][] a); -int min(int[][][] a); -real min(real a, real b); -real[] min(real a, real[] b); -real[] min(real[] a, real b); -real[] min(real[] a, real[] b); -real min(real[] a); -real min(real[][] a); -real min(real[][][] a); -string min(string a, string b); -string[] min(string a, string[] b); -string[] min(string[] a, string b); -string[] min(string[] a, string[] b); -string min(string[] a); -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); -triple min(path3 p); -pair min(picture pic, bool user=<default>); -real min(real m, scaling s, coord[] c); -real min(... real[] a); -real min(real m, scaling s, coord[] c); -int min(... int[] a); -filltype RadialShade(pen penc, pen penr); -int search(int[] a, int key); -int search(real[] a, real key); -int search(string[] a, string key); -int search(void()()[] a, void key()(), bool less(void()(), void()())); -int search(marker[] a, marker key, bool less(marker, marker)); -int search(real[] a, real key, bool less(real, real)); -int search(guide[] a, guide key, bool less(guide, guide)); -int search(object[] a, object key, bool less(object, object)); -int search(coord[] a, coord key, bool less(coord, coord)); -int search(pair[] a, pair key, bool less(pair, pair)); -int search(coord[] a, coord key, bool less(coord, coord)); -int search(frame[] a, frame key, bool less(frame, frame)); -int search(int[] a, int key, bool less(int, int)); -int search(picture[] a, picture key, bool less(picture, picture)); -int search(Legend[] a, Legend key, bool less(Legend, Legend)); -int search(string[] a, string key, bool less(string, string)); -int search(path[] a, path key, bool less(path, path)); -int search(Label[] a, Label key, bool less(Label, Label)); -int search(pen[] a, pen key, bool less(pen, pen)); -int search(bool3[] a, bool3 key, bool less(bool3, bool3)); -int search(bool[] a, bool key, bool less(bool, bool)); -int search(triple[] a, triple key, bool less(triple, triple)); -filltype RadialShadeDraw(real xmargin=<default>, real ymargin=<default>, pen penc, pen penr, pen drawpen=<default>); -real sin(real x); -real[] sin(real[] a); -pair sin(explicit pair z); -pen deepcyan; -void restoredefaults(); -path[] plus; -pair expi(real angle); -triple expi(real polar, real azimuth); -void endclip(frame f); -void endclip(picture pic=<default>); -pen opacity(real opacity=<default>, string blend=<default>); -real opacity(pen p); -real[] solve(real[][] a, real[] b, bool warn=<default>); -real[][] solve(real[][] a, real[][] b, bool warn=<default>); -int rename(string from, string to); -void DOSendl(file file); -string debugger(string file, int line, int column, code s=<default>); -string getc(file f); -bool debugging; -void shipout(string prefix=<default>, frame f, frame preamble=<default>, string format=<default>, bool wait=<default>, bool view=<default>, transform xform()); -void shipout(string prefix=<default>, frame f, string format=<default>, bool wait=<default>, bool view=<default>, string options=<default>, string script=<default>, light light=<default>, projection P=<default>); -void shipout(string prefix=<default>, picture pic=<default>, frame orientation(frame)=<default>, string format=<default>, bool wait=<default>, bool view=<default>, string options=<default>, string script=<default>, light light=<default>, projection P=<default>); -void shipout3(string prefix, frame f, string format=<default>, real width, real height, real angle, real zoom, triple m, triple m, pair shift, real[][] t, real[] background, triple[] lights, real[][] diffuse, real[][] ambient, real[][] specular, bool viewportlighting, bool view=<default>); -void shipout3(string prefix, frame f, int[] index, triple[] center); -string getstring(string name=<default>, string default=<default>, string prompt=<default>, bool store=<default>); -int debuggerlines; -frame bbox(picture pic=<default>, real xmargin=<default>, real ymargin=<default>, pen p=<default>, filltype filltype=<default>); -real radians(real degrees); -bool pdf(); -void _eval(string s, bool embedded, bool interactivewrite=<default>); -void _eval(code s, bool embedded); -path[][] textpath(string[] s, pen[] p); -void radialshade(frame f, path[] g, bool stroke=<default>, pen pena, pair a, real ra, pen penb, pair b, real rb, bool copy=<default>); -void radialshade(picture pic=<default>, path[] g, bool stroke=<default>, pen pena, pair a, real ra, pen penb, pair b, real rb, bool copy=<default>); -pair maxbound(pair a, pair b); -triple maxbound(triple a, triple b); -pair maxbound(pair[] a); -pair maxbound(pair[][] a); -pair maxbound(pair[][][] a); -triple maxbound(triple[] a); -triple maxbound(triple[][] a); -triple maxbound(triple[][][] a); -string Embed(string name, string options=<default>, real width=<default>, real height=<default>); -pair postcontrol(path p, int t); -pair postcontrol(path p, real t); -triple postcontrol(path3 p, int t); -triple postcontrol(path3 p, real t); -int max(int a, int b); -int[] max(int a, int[] b); -int[] max(int[] a, int b); -int[] max(int[] a, int[] b); -int max(int[] a); -int max(int[][] a); -int max(int[][][] a); -real max(real a, real b); -real[] max(real a, real[] b); -real[] max(real[] a, real b); -real[] max(real[] a, real[] b); -real max(real[] a); -real max(real[][] a); -real max(real[][][] a); -string max(string a, string b); -string[] max(string a, string[] b); -string[] max(string[] a, string b); -string[] max(string[] a, string[] b); -string max(string[] a); -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); -triple max(path3 p); -int max(... int[] a); -pair max(picture pic, bool user=<default>); -real max(real M, scaling s, coord[] c); -real max(... real[] a); -real max(real M, scaling s, coord[] c); -Label Label(Label L, explicit position position, align align=<default>, pen p=<default>, transform embed(transform)=<default>, filltype filltype=<default>); -Label Label(explicit pair position, align align=<default>, pen p=<default>, transform embed(transform)=<default>, filltype filltype=<default>); -Label Label(string s=<default>, string size=<default>, align align=<default>, pen p=<default>, transform embed(transform)=<default>, filltype filltype=<default>); -Label Label(string s, string size=<default>, pair position, align align=<default>, pen p=<default>, transform embed(transform)=<default>, filltype filltype=<default>); -Label Label(Label L, align align=<default>, pen p=<default>, transform embed(transform)=<default>, filltype filltype=<default>); -Label Label; -Label Label(Label L, pair position, align align=<default>, pen p=<default>, transform embed(transform)=<default>, filltype filltype=<default>); -Label Label(string s, string size=<default>, explicit position position, align align=<default>, pen p=<default>, transform embed(transform)=<default>, filltype filltype=<default>); -string font(pen p=<default>); -pen font(string name, string options=<default>); -pen font(string encoding, string family, string series, string shape); -pen font(string name, real size, string options=<default>); -int intMin; -pen white; -side RightSide; -string replace(string s, string[][] translate); -string replace(string s, string before, string after); -transform fixedscaling(picture pic=<default>, pair min, pair max, pen p=<default>, bool warn=<default>); -pen Symbol(string series=<default>, string shape=<default>); -slice firstcut(path p, path knife); -pen squarecap; -pen squarepen; -real barsize(pen p=<default>); -bool EndArrow(picture, path, pen, marginT(path, pen)); -bool EndArrow(picture, path, pen, marginT(path, pen))(arrowhead arrowhead=<default>, real size=<default>, real angle=<default>, filltype filltype=<default>, position position=<default>); -bool EndArcArrow(picture, path, pen, marginT(path, pen)); -bool EndArcArrow(picture, path, pen, marginT(path, pen))(arrowhead arrowhead=<default>, real size=<default>, real angle=<default>, filltype filltype=<default>, position position=<default>); -void tensorshade(frame f, path[] g, bool stroke=<default>, pen fillrule=<default>, pen[][] p, path[] b=<default>, pair[][] z=<default>, bool copy=<default>); -void tensorshade(picture pic=<default>, path[] g, bool stroke=<default>, pen fillrule=<default>, pen[][] p, path[] b=<default>, pair[][] z=<default>, bool copy=<default>); -void tensorshade(frame f, path[] g, bool stroke=<default>, pen fillrule=<default>, pen[] p, path b=<default>, pair[] z); -void tensorshade(picture pic=<default>, path[] g, bool stroke=<default>, pen fillrule=<default>, pen[] p, path b=<default>, pair[] z); -void tensorshade(frame f, path[] g, bool stroke=<default>, pen fillrule=<default>, pen[] p, path b=<default>); -void tensorshade(picture pic=<default>, path[] g, bool stroke=<default>, pen fillrule=<default>, pen[] p, path b=<default>); -string[] split(string s, string delimiter=<default>); -void addSaveFunction(void s()()); -object embed3(string, frame, string, string, string, light, projection); -filltype NoFill; -real colatitude(triple v, bool warn=<default>); -void label(frame f, string s, string size, transform t, pair position, pair align, pen p); -void label(picture pic=<default>, Label L, align align=<default>, pen p=<default>, filltype filltype=<default>); -void label(frame f, Label L, pair position, align align=<default>, pen p=<default>, filltype filltype=<default>); -void label(picture pic=<default>, Label L, pair position, align align=<default>, pen p=<default>, filltype filltype=<default>); -void label(frame f, Label L, align align=<default>, pen p=<default>, filltype filltype=<default>); -void label(picture pic=<default>, Label L, explicit guide g, align align=<default>, pen p=<default>, filltype filltype=<default>); -void label(picture pic=<default>, Label L, explicit path g, align align=<default>, pen p=<default>, filltype filltype=<default>); -real fabs(real x); -real[] fabs(real[] a); -bool labels(frame f); -light light(pen diffuse=<default>, pen ambient=<default>, pen specular=<default>, pen background=<default>, real specularfactor=<default>, bool viewport=<default> ... triple[] position); -light light(explicit light light); -light light(pen[] diffuse, pen[] ambient=<default>, pen[] specular=<default>, pen background=<default>, real specularfactor=<default>, bool viewport=<default>, triple[] position); -light light(pen diffuse=<default>, pen ambient=<default>, pen specular=<default>, pen background=<default>, bool viewport=<default>, real x, real y, real z); -real remainder(real x, real y); -int byte(real x); -real camerafactor; -pen lightred; -real labelmargin; -real labelmargin(pen p=<default>); -pen lightblue; -pen lightgreen; -pair right; -string outformat(string format=<default>); -pen lightcyan; -pen lightmagenta; -pen lightyellow; -pen lightgray; -pen lightolive; -pen lightgrey; -string upcase(string s); -pen darkblue; -pen darkbrown; -path[] strokepath(path g, pen p=<default>); -real erf(real x); -void saveline(string name, string value, bool store=<default>); -pen fuchsia; -bool needshipout(); -filltype filltype(int type=<default>, pen fillpen=<default>, pen drawpen=<default>, void fill2(frame f, path[] g, pen fillpen)); -path box(frame dest, frame src=<default>, real xmargin=<default>, real ymargin=<default>, pen p=<default>, filltype filltype=<default>, bool above=<default>); -path box(frame f, Label L, real xmargin=<default>, real ymargin=<default>, pen p=<default>, filltype filltype=<default>, bool above=<default>); -path box(pair a, pair b); -pen Bookman(string series=<default>, string shape=<default>); -frame[] fit(string prefix=<default>, picture[] pictures, string format=<default>, bool view=<default>, string options=<default>, string script=<default>, projection P=<default>); -void seekeof(file f); -path unitcircle; -framedTransformStack xformStack; -pair[] conj(pair[] a); -pair[][] conj(pair[][] a); -pair conj(pair z); -pen deepgray; -pen deepgreen; -pen deepgrey; -marker[] Mark; -marker Mark(int n); -real aTan(real x); -void _begingroup3(frame f, string name, real compression, real granularity, bool closed, bool tessellate, bool dobreak, bool nobreak, triple center, int interaction); -string graphic(string name, string options=<default>); -real aCos(real x); -void texreset(); -int[] complement(int[] a, int n); -path[] complement(frame f, path[] g); -pen Cyan; -marginT NoMargin(path, pen); -marginT NoMargin(path, pen)(); -path[][] _texpath(string[] s, pen[] p); -real sinh(real x); -real[] sinh(real[] a); -real[] _cputime(); -position EndPoint; -hsv hsv(real h, real s, real v); -hsv hsv(pen p); -void deconstruct(frame f, frame preamble=<default>, real magnification=<default>, transform xform()); -void deconstruct(picture pic=<default>, real magnification=<default>); -int sgn(real x); -pair minAfterTransform(transform t, path[] a); -int seconds(string t=<default>, string format=<default>); -pen cyan; -pen grey; -real cm; -filltype Fill; -filltype Fill(real xmargin=<default>, real ymargin=<default>, pen p=<default>); -pen olive; -pen darkolive; -real arcarrowangle; -real arcarrowfactor; -real mm; -real arcarrowsize(pen p=<default>); -real calculateScaling(string dir, coord[] coords, real size, bool warn=<default>); -real calculateScaling(string dir, coord[] coords, real size, bool warn=<default>); -real calculateScaling(string dir, coord[] m, coord[] M, real size, bool warn=<default>); -real calculateScaling(string dir, coord[] m, coord[] M, real size, bool warn=<default>); -triple gettriple(string name=<default>, triple default=<default>, string prompt=<default>, bool store=<default>); -void drawpixel(frame f, triple v, pen p, real width=<default>); -pen fontsize(real size, real lineskip); -real fontsize(pen p=<default>); -pen fontsize(real size); -string Link(string label, string text, string options=<default>); -void close(file f); -real lineskip(pen p=<default>); -pen dashed; -pair maxAfterTransform(transform t, path[] a); -int[][] triangulate(pair[] z); -void fill(frame f, path[] g, pen p=<default>, bool copy=<default>); -path fill(frame dest, frame src, filltype filltype=<default>, real xmargin=<default>, real ymargin=<default>); -void fill(picture pic=<default>, path[] g, pen p=<default>, bool copy=<default>); -void fill(pair origin, picture pic=<default>, path[] g, pen p=<default>); -pair midpoint(path p); -real exp(real x); -real[] exp(real[] a); -pair exp(explicit pair z); -pen linejoin(int n); -int linejoin(pen p=<default>); -real ldexp(real x, int e); -pen rgba(real[] a); -real[] rgba(pen p); -string time(string format=<default>); -string time(int seconds, string format=<default>); -void prepend(frame dest, frame src); -real pt; -settings settings; -int MoveQuiet; -marginT EndMargin(path, pen); -pen nullpen; -side LeftSide; -path nullpath; -real[][] copy(real[][] a); -guide[] copy(guide[] a); -marker[] copy(marker[] a); -string[] copy(string[] a); -pair[][] copy(pair[][] a); -void()()[] copy(void()()[] a); -pen[][] copy(pen[][] a); -path[] copy(path[] a); -bool3[] copy(bool3[] a); -pair[] copy(pair[] a); -bool[] copy(bool[] a); -coord[] copy(coord[] a); -Legend[] copy(Legend[] a); -pen[] copy(pen[] a); -picture[] copy(picture[] a); -triple[] copy(triple[] a); -int[] copy(int[] a); -string[][] copy(string[][] a); -frame[] copy(frame[] a); -coord[] copy(coord[] a); -real[] copy(real[] a); -Label[] copy(Label[] a); -object[] copy(object[] a); -real[] abs(pair[] a); -real[] abs(triple[] a); -real abs(real x); -real[] abs(real[] a); -real abs(pair z); -real abs(triple v); -int abs(int x); -pen pink; -real inches; -path ellipse(frame dest, frame src=<default>, real xmargin=<default>, real ymargin=<default>, pen p=<default>, filltype filltype=<default>, bool above=<default>); -path ellipse(frame f, Label L, real xmargin=<default>, real ymargin=<default>, pen p=<default>, filltype filltype=<default>, bool above=<default>); -path ellipse(pair c, real a, real b); -pair getpair(string name=<default>, pair default=<default>, string prompt=<default>, bool store=<default>); -void axialshade(frame f, path[] g, bool stroke=<default>, pen pena, pair a, pen penb, pair b, bool copy=<default>); -void axialshade(picture pic=<default>, path[] g, bool stroke=<default>, pen pena, pair a, pen penb, pair b, bool copy=<default>); -string locale(string s=<default>); -real dirtime(path p, pair z); -void copyPairOrTriple(pairOrTriple dest, pairOrTriple src); -real[] colors(pen p); -void filloutside(picture pic=<default>, path[] g, pen p=<default>, bool copy=<default>); -void filloutside(frame f, path[] g, pen p=<default>, bool copy=<default>); -pen[] colorPen; -pen colorless(pen p); -pen solid; -string colorspace(pen p); -void warn(string s); -pen deepblue; -pen palered; -real[] map(real f(pair), pair[] a); -int[] map(int f(real), real[] a); -picture[] map(picture f(picture), picture[] a); -frame[] map(frame f(frame), frame[] a); -triple[] map(triple f(triple), triple[] a); -pen[] map(pen f(pen), pen[] a); -coord[] map(coord f(coord), coord[] a); -coord[] map(coord f(coord), coord[] a); -pair[] map(pair f(pair), pair[] a); -object[] map(object f(object), object[] a); -string[] map(string f(string), string[] a); -marker[] map(marker f(marker), marker[] a); -void()()[] map(void f()()(void()()), void()()[] a); -real[] map(real f(real), real[] a); -int[] map(int f(int), int[] a); -bool3[] map(bool3 f(bool3), bool3[] a); -Label[] map(Label f(Label), Label[] a); -bool[] map(bool f(bool), bool[] a); -path[] map(path f(path), path[] a); -Legend[] map(Legend f(Legend), Legend[] a); -guide[] map(guide f(guide), guide[] a); -path unstraighten(path p); -path3 unstraighten(path3 p); -void _image(frame f, real[][] data, pair initial, pair final, pen[] palette=<default>, transform t=<default>, bool copy=<default>, bool antialias=<default>); -void _image(frame f, pen[][] data, pair initial, pair final, transform t=<default>, bool copy=<default>, bool antialias=<default>); -void _image(frame f, pen f(int, int), int width, int height, pair initial, pair final, transform t=<default>, bool antialias=<default>); -pair arcpoint(path p, real L); -pen Pen(int n); -int rfind(string s, string t, int pos=<default>); -pair minratio(frame f); -pair minratio(triple[][] p, pair b); -pair minratio(path3 g); -int[] sequence(int n); -object[] sequence(object f(int), int n); -Legend[] sequence(Legend f(int), int n); -int[] sequence(int f(int), int n); -pair[] sequence(pair f(int), int n); -guide[] sequence(guide f(int), int n); -pen[] sequence(pen f(int), int n); -void()()[] sequence(void f()()(int), int n); -bool[] sequence(bool f(int), int n); -string[] sequence(string f(int), int n); -bool3[] sequence(bool3 f(int), int n); -coord[] sequence(coord f(int), int n); -picture[] sequence(picture f(int), int n); -marker[] sequence(marker f(int), int n); -real[] sequence(real f(int), int n); -int[] sequence(int n, int m); -coord[] sequence(coord f(int), int n); -Label[] sequence(Label f(int), int n); -triple[] sequence(triple f(int), int n); -path[] sequence(path f(int), int n); -frame[] sequence(frame f(int), int n); -triple minbezier(triple[][] p, triple b); -path trim(path g, real begin, real end); -marginT DotMargin(path, pen)(real begin, real end); -marginT DotMargin(path, pen); -marginT DotMargins(path, pen); -string string(int x); -string string(real x, int digits=<default>); -string cd(string s=<default>); -int size(guide g); -pair size(frame f); -int size(path p); -int size(path3 p); -void size(picture dest, picture src); -pair size(picture pic, bool user=<default>); -void size(picture pic=<default>, real x, real y=<default>, bool keepAspect=<default>); -void size(picture pic=<default>, real xsize, real ysize, pair min, pair max); -void clear(file f); -void clear(string file, int line); -void clear(); -void clear(string file, string text); -pen mediumred; -pen mediumblue; -pen mediumgreen; -pen mediumcyan; -pen mediummagenta; -pair arcdir(path p, real L); -pen mediumyellow; -pen mediumgray; -string downcase(string s); -pen mediumgrey; -transform transform(pen p); -string readline(string prompt=<default>, string name=<default>, bool tabcompletion=<default>); -void beep(); -pair relpoint(path p, real l); -pair[][] transpose(pair[][] a); -pen[][] transpose(pen[][] a); -string[][] transpose(string[][] a); -real[][] transpose(real[][] a); -pen overwrite(int n); -int overwrite(pen p=<default>); -pen linewidth(real x); -real linewidth(pen p=<default>); -transformation transformation(real[][] modelview); -transformation transformation(real[][] modelview, real[][] projection); -pair maxratio(frame f); -pair maxratio(triple[][] p, pair b); -pair maxratio(path3 g); -triple maxbezier(triple[][] p, triple b); -void layer(frame f); -void layer(picture pic=<default>); -void DOSnewl(file file); -pen cmyk(pen p); -pen cmyk(real c, real m, real y, real k); -pen blue; -pen evenodd; -int precision(file f=<default>, int digits=<default>); -path3 path3(triple[] pre, triple[] point, triple[] post, bool[] straight, bool cyclic); -bool piecewisestraight(path p); -bool piecewisestraight(path3 p); -void stop(string file, int line, code s=<default>); -void stop(string file, string text, code s=<default>); -pair reldir(path p, real l); -slice cut(path p, path knife, int n); -pen TimesRoman(string series=<default>, string shape=<default>); -bool is3D(frame f); -bool is3D(string format=<default>); -void report(string text); -void report(int i); -void report(transform t); -void add(frame dest, frame src); -void add(picture pic=<default>, void d(frame f, transform t), bool exact=<default>); -void add(picture pic=<default>, void d(frame f, real[][] t, picture pic, projection P), bool exact=<default>); -void add(picture pic=<default>, void d(picture, real[][]), bool exact=<default>); -void add(picture src, pair position, bool group=<default>, filltype filltype=<default>, bool above=<default>); -void add(picture dest=<default>, frame src, pair position, pair align, bool group=<default>, filltype filltype=<default>, bool above=<default>); -void add(frame dest, frame src, pair position, pair align, bool group=<default>, filltype filltype=<default>, bool above=<default>); -void add(picture src, bool group=<default>, filltype filltype=<default>, bool above=<default>); -void add(picture dest, picture src, bool group=<default>, filltype filltype=<default>, bool above=<default>); -void add(picture pic=<default>, Label L); -void add(picture dest, picture src, pair position, bool group=<default>, filltype filltype=<default>, bool above=<default>); -void add(picture dest=<default>, object F, pair position=<default>, bool group=<default>, filltype filltype=<default>, bool above=<default>); -void add(picture pic=<default>, void d(picture, transform), bool exact=<default>); -void add(frame f, transform t=<default>, Label L); -void add(frame dest, frame src, filltype filltype, bool above=<default>); -void add(frame dest, frame src, bool group, filltype filltype=<default>, bool above=<default>); -void add(frame dest, frame src, pair position, bool group=<default>, filltype filltype=<default>, bool above=<default>); -void add(picture dest=<default>, frame src, pair position=<default>, bool group=<default>, filltype filltype=<default>, bool above=<default>); -plain plain; -void purge(int divisor=<default>); -int Round(real x); -real sqrt(real x); -real[] sqrt(real[] a); -pair sqrt(explicit pair z); -real[] times(path p, real x); -real[] times(path p, explicit pair z); -void Draw(picture pic=<default>, path g, pen p=<default>); -filltype Draw; -void Draw(picture pic=<default>, explicit path[] g, pen p=<default>); -filltype Draw(real xmargin=<default>, real ymargin=<default>, pen p=<default>); -void tab(file file); -plain_scaling plain_scaling; -string file(string s); -plain_bounds plain_bounds; -string outprefix(string prefix=<default>); -object object(frame f); -object object(Label L); -object object(Label L, path e(frame dest, frame src=<default>, real xmargin=<default>, real ymargin=<default>, pen p=<default>, filltype filltype=<default>, bool above=<default>), real xmargin=<default>, real ymargin=<default>, pen p=<default>, filltype filltype=<default>, bool above=<default>); -file stdin; -void()()[] array(int n, void value()(), int depth=<default>); -bool[] array(int n, bool value, int depth=<default>); -string[] array(int n, string value, int depth=<default>); -pair[][] array(int n, pair[] value, int depth=<default>); -bool3[] array(int n, bool3 value, int depth=<default>); -coord[] array(int n, coord value, int depth=<default>); -picture[] array(int n, picture value, int depth=<default>); -marker[] array(int n, marker value, int depth=<default>); -real[][] array(int n, real[] value, int depth=<default>); -real[] array(int n, real value, int depth=<default>); -coord[] array(int n, coord value, int depth=<default>); -Label[] array(int n, Label value, int depth=<default>); -triple[] array(int n, triple value, int depth=<default>); -path[] array(int n, path value, int depth=<default>); -frame[] array(int n, frame value, int depth=<default>); -pen[][] array(int n, pen[] value, int depth=<default>); -object[] array(int n, object value, int depth=<default>); -Legend[] array(int n, Legend value, int depth=<default>); -int[] array(int n, int value, int depth=<default>); -string[][] array(int n, string[] value, int depth=<default>); -pair[] array(int n, pair value, int depth=<default>); -guide[] array(int n, guide value, int depth=<default>); -pen[] array(int n, pen value, int depth=<default>); -file binput(string name, bool check=<default>); -bool BeginBar(picture, path, pen, marginT(path, pen))(real size=<default>); -bool BeginBar(picture, path, pen, marginT(path, pen)); -triple perp(triple v, triple u); -int find(bool[] a, int n=<default>); -int find(string s, string t, int pos=<default>); -position BeginPoint; -marginT BeginMargin(path, pen); -path buildcycle(... path[] p); -bool BeginArrow(picture, path, pen, marginT(path, pen))(arrowhead arrowhead=<default>, real size=<default>, real angle=<default>, filltype filltype=<default>, position position=<default>); -bool BeginArrow(picture, path, pen, marginT(path, pen)); -marginT BeginPenMargin(path, pen); -int round(real x); -marginT BeginDotMargin(path, pen); -bool BeginArcArrow(picture, path, pen, marginT(path, pen))(arrowhead arrowhead=<default>, real size=<default>, real angle=<default>, filltype filltype=<default>, position position=<default>); -bool BeginArcArrow(picture, path, pen, marginT(path, pen)); -pen roundcap; -void buildRestoreThunk()(); -pen roundjoin; -int sourceline(string file, string text); -void buildRestoreDefaults()(); -path roundbox(frame dest, frame src=<default>, real xmargin=<default>, real ymargin=<default>, pen p=<default>, filltype filltype=<default>, bool above=<default>); -path roundbox(frame f, Label L, real xmargin=<default>, real ymargin=<default>, pen p=<default>, filltype filltype=<default>, bool above=<default>); -real asin(real x); -real[] asin(real[] a); -pair endpoint(path p); -real latitude(triple v, bool warn=<default>); -int sum(int[] a); -real sum(real[] a); -pair sum(pair[] a); -triple sum(triple[] a); -int sum(bool[] a); -real inf; -real arctime(path p, real dval); -real arctime(path3 p, real dval); -pen palemagenta; -file xinput(string name, bool check=<default>); -void draw(frame f, triple[][] p, triple center, bool straight, pen[] p, real opacity, real shininess, real prcshininess, triple normal, pen[] colors, bool lighton, int interaction, bool prc=<default>); -void draw(frame f, triple[] p, real[] knot, real[] weights=<default>, pen p); -void draw(frame f, triple[][] p, real[] uknot, real[] vknot, real[][] weights=<default>, pen[] p, real opacity, real shininess, real prcshininess, pen[] colors, bool lighton); -void draw(picture pic=<default>, path[] g, pen fillrule=<default>, pen[] p); -void draw(frame f, explicit path[] g, pen p=<default>); -object draw(picture pic=<default>, Label L, path e(frame dest, frame src=<default>, real xmargin=<default>, real ymargin=<default>, pen p=<default>, filltype filltype=<default>, bool above=<default>), pair position, real xmargin=<default>, real ymargin=<default>, pen p=<default>, filltype filltype=<default>, bool above=<default>); -void draw(picture pic=<default>, Label L=<default>, path g, align align=<default>, pen p=<default>, bool arrow(picture, path, pen, marginT(path, pen))=<default>, bool bar(picture, path, pen, marginT(path, pen))=<default>, marginT margin(path, pen)=<default>, Label legend=<default>, marker marker=<default>); -void draw(pair origin, picture pic=<default>, Label L=<default>, path g, align align=<default>, pen p=<default>, bool arrow(picture, path, pen, marginT(path, pen))=<default>, bool bar(picture, path, pen, marginT(path, pen))=<default>, marginT margin(path, pen)=<default>, Label legend=<default>, marker marker=<default>); -void draw(picture pic=<default>, guide[] g, pen p=<default>, Label legend=<default>, marker marker=<default>); -void draw(pair origin, picture pic=<default>, guide[] g, pen p=<default>, Label legend=<default>, marker marker=<default>); -void draw(frame f, guide[] g, pen p=<default>); -void draw(frame f, path g, pen p=<default>, bool arrow(picture, path, pen, marginT(path, pen))); -void draw(picture pic=<default>, explicit path[] g, pen p=<default>, Label legend=<default>, marker marker=<default>); -void draw(pair origin, picture pic=<default>, explicit path[] g, pen p=<default>, Label legend=<default>, marker marker=<default>); -object draw(picture pic=<default>, Label L, path e(frame dest, frame src=<default>, real xmargin=<default>, real ymargin=<default>, pen p=<default>, filltype filltype=<default>, bool above=<default>), real xmargin=<default>, real ymargin=<default>, pen p=<default>, filltype filltype=<default>, bool above=<default>); -void draw(frame f, path g, pen p=<default>); -int mantissaBits; -real identity(real x); -real[] identity(real[] a); -transform identity(); -real[][] identity(int n); -real[][] identity4; -marker[] MarkFill; -pen pattern(string s); -string pattern(pen p); -transform invert; -transform inverse(transform t); -real[][] inverse(real[][] a); -pair unit(pair z); -triple unit(triple v); -triple min3(frame f); -triple min3(pen p); -void begin(picture pic=<default>, string name, string id=<default>, bool visible=<default>); -void drawPRCdisk(frame f, real[][] t, pen[] p, real opacity, real shininess); -void drawPRCtube(frame f, path3 center, path3 g, pen[] p, real opacity, real shininess); -int CLZ(int a); -void drawPRCsphere(frame f, real[][] t, bool half=<default>, pen[] p, real opacity, real shininess, int type); -arrowhead DefaultHead; -void drawPRCcylinder(frame f, real[][] t, pen[] p, real opacity, real shininess); -void beginclip(frame f, path[] g, bool stroke=<default>, pen fillrule=<default>, bool copy=<default>); -void beginclip(picture pic=<default>, path[] g, bool stroke=<default>, pen fillrule=<default>, bool copy=<default>); -void begingroup(frame f); -void begingroup(picture pic=<default>); -marker nomarker; -pair beginpoint(path p); -real azimuth(triple v, bool warn=<default>); -real angle(pair z, bool warn=<default>); -real angle(transform t); -pair ENE; -frame pack(pair align=<default> ... object[] inset); -void gsave(frame f); -void write(file file=<default>, string s=<default>, bool x, void suffix(file)=<default> ... bool[]); -void write(file file=<default>, string s=<default>, explicit bool[] a ... bool[][]); -void write(file file=<default>, bool[][]); -void write(file file=<default>, bool[][][]); -void write(file file=<default>, string s=<default>, int x, void suffix(file)=<default> ... int[]); -void write(file file=<default>, string s=<default>, explicit int[] a ... int[][]); -void write(file file=<default>, int[][]); -void write(file file=<default>, int[][][]); -void write(file file=<default>, string s=<default>, real x, void suffix(file)=<default> ... real[]); -void write(file file=<default>, string s=<default>, explicit real[] a ... real[][]); -void write(file file=<default>, real[][]); -void write(file file=<default>, real[][][]); -void write(file file=<default>, string s=<default>, pair x, void suffix(file)=<default> ... pair[]); -void write(file file=<default>, string s=<default>, explicit pair[] a ... pair[][]); -void write(file file=<default>, pair[][]); -void write(file file=<default>, pair[][][]); -void write(file file=<default>, string s=<default>, triple x, void suffix(file)=<default> ... triple[]); -void write(file file=<default>, string s=<default>, explicit triple[] a ... triple[][]); -void write(file file=<default>, triple[][]); -void write(file file=<default>, triple[][][]); -void write(file file=<default>, string s=<default>, string x, void suffix(file)=<default> ... string[]); -void write(file file=<default>, string s=<default>, explicit string[] a ... string[][]); -void write(file file=<default>, string[][]); -void write(file file=<default>, string[][][]); -void write(file file=<default>, string s, void suffix(file)=<default>); -void write(file file=<default>, string s=<default>, transform x, void suffix(file)=<default> ... transform[]); -void write(file file=<default>, string s=<default>, guide x, void suffix(file)=<default> ... guide[]); -void write(file file=<default>, string s=<default>, pen x, void suffix(file)=<default> ... pen[]); -void write(file file, string s=<default>, explicit guide[] x, void suffix(file)=<default>); -void write(string s=<default>, cputime c, string format=<default>, void suffix(file)=<default>); -void write(file file=<default>, Label L, void suffix(file)=<default>); -void write(string s=<default>, explicit path[] x, void suffix(file)=<default>); -void write(file file, void suffix(file)=<default>); -void write(file file=<default>, string s=<default>, pen[] p); -void write(void suffix(file)=<default>); -void write(file file, string s=<default>, explicit path[] x, void suffix(file)=<default>); -void write(file file=<default>, align align, void suffix(file)=<default>); -void write(file file, string s=<default>, cputime c, string format=<default>, void suffix(file)=<default>); -void write(string s=<default>, bool3 b, void suffix(file)=<default>); -void write(file file, string s=<default>, bool3 b, void suffix(file)=<default>); -void write(string s=<default>, explicit guide[] x, void suffix(file)=<default>); -void write(pairOrTriple a); -void save()(); -marginT EndPenMargin(path, pen); -pair NNE; -real[] tridiagonal(real[] a, real[] b, real[] c, real[] f); -pen Dotted; -pen Dotted(pen p=<default>); -pair dir(real degrees); -pair dir(explicit pair z); -triple dir(explicit triple z); -triple dir(real colatitude, real longitude); -pair dir(path p, int t, int sign=<default>, bool normalize=<default>); -pair dir(path p, real t, bool normalize=<default>); -triple dir(path3 p, int t, int sign=<default>, bool normalize=<default>); -triple dir(path3 p, real t, bool normalize=<default>); -pair dir(path p); -pair dir(path p, path g); -int[][] diagonal(... int[]); -real[][] diagonal(... real[]); -pair[][] diagonal(... pair[]); -real reltime(path p, real l); -void marknodes(picture pic=<default>, frame f, path g); -real newton(int iterations=<default>, real f(real), real fprime(real), real x, bool verbose=<default>); -real newton(int iterations=<default>, real f(real), real fprime(real), real x1, real x2, bool verbose=<default>); -string TeXify(string s); -bool3 default; -pair[] controlSpecifier(guide g, int t); -void defaultpen(pen p); -pen defaultpen(); -pen defaultpen; -void defaultpen(real w); -transform Slant(transform t); -triple max3(frame f); -triple max3(pen p); -string defaultformat(int n, string trailingzero=<default>, bool fixed=<default>, bool signed=<default>); -string defaultformat; -pen dashdotted; -string asydir(); -string defaultfilename; -real longitude(triple v, bool warn=<default>); -bool Blank(picture, path, pen, marginT(path, pen)); -tensionSpecifier tensionSpecifier(guide g, int t); -marker marker(frame f=<default>, void markroutine(picture pic=<default>, frame f, path g)=<default>, bool above=<default>); -marker marker(path[] g, void markroutine(picture pic=<default>, frame f, path g)=<default>, pen p=<default>, filltype filltype=<default>, bool above=<default>); -int Move; -string location(); -string locatefile(string file); -pen dotted; -string blend(pen p); -arrowhead HookHead; -arrowhead HookHead(real dir=<default>, real barb=<default>); -real[] concat(... real[][]); -marker[] concat(... marker[][]); -pair[] concat(... pair[][]); -object[] concat(... object[][]); -Label[] concat(... Label[][]); -pen[] concat(... pen[][]); -coord[] concat(... coord[][]); -path[] concat(... path[][]); -int[] concat(... int[][]); -void()()[] concat(... void()()[][]); -picture[] concat(... picture[][]); -string[] concat(... string[][]); -Legend[] concat(... Legend[][]); -triple[] concat(... triple[][]); -coord[] concat(... coord[][]); -bool3[] concat(... bool3[][]); -frame[] concat(... frame[][]); -guide[] concat(... guide[][]); -bool[] concat(... bool[][]); -int OR(int a, int b); -real log1p(real x); -real[] log1p(real[] a); -real infinity; -bool alias(pair[][] a, pair[][] b); -bool alias(guide[] a, guide[] b); -bool alias(coords2 a, coords2 b); -bool alias(Legend a, Legend b); -bool alias(light a, light b); -bool alias(arrowhead a, arrowhead b); -bool alias(pair[] a, pair[] b); -bool alias(bool3[] a, bool3[] b); -bool alias(coord a, coord b); -bool alias(position a, position b); -bool alias(int[] a, int[] b); -bool alias(string[][] a, string[][] b); -bool alias(hsv a, hsv b); -bool alias(scaling a, scaling b); -bool alias(pairOrTriple a, pairOrTriple b); -bool alias(coords3 a, coords3 b); -bool alias(object[] a, object[] b); -bool alias(processtime a, processtime b); -bool alias(real[][] a, real[][] b); -bool alias(coords2 a, coords2 b); -bool alias(Label a, Label b); -bool alias(slice a, slice b); -bool alias(freezableBounds a, freezableBounds b); -bool alias(picture a, picture b); -bool alias(picture[] a, picture[] b); -bool alias(string[] a, string[] b); -bool alias(scaleT a, scaleT b); -bool alias(framedTransformStack a, framedTransformStack b); -bool alias(Label[] a, Label[] b); -bool alias(cputime a, cputime b); -bool alias(frame[] a, frame[] b); -bool alias(scaling a, scaling b); -bool alias(bounds a, bounds b); -bool alias(object a, object b); -bool alias(bool[] a, bool[] b); -bool alias(void()()[] a, void()()[] b); -bool alias(filltype a, filltype b); -bool alias(pen[][] a, pen[][] b); -bool alias(bool3 a, bool3 b); -bool alias(coord[] a, coord[] b); -bool alias(autoscaleT a, autoscaleT b); -bool alias(path[] a, path[] b); -bool alias(transformation a, transformation b); -bool alias(triple[] a, triple[] b); -bool alias(marginT a, marginT b); -bool alias(align a, align b); -bool alias(Legend[] a, Legend[] b); -bool alias(real[] a, real[] b); -bool alias(coord a, coord b); -bool alias(ScaleT a, ScaleT b); -bool alias(pen[] a, pen[] b); -bool alias(projection a, projection b); -bool alias(indexedTransform a, indexedTransform b); -bool alias(marker a, marker b); -bool alias(marker[] a, marker[] b); -bool alias(coord[] a, coord[] b); -bool alias(side a, side b); -real pi; -int getint(string name=<default>, int default=<default>, string prompt=<default>, bool store=<default>); -bool IgnoreAspect; -void postscript(frame f, string s); -void postscript(frame f, string s, pair min, pair max); -void postscript(picture pic=<default>, string s); -void postscript(picture pic=<default>, string s, pair min, pair max); -transform slant(real s); -void breakpoint(code s=<default>); -void breakpoints(); -void endgroup(frame f); -void endgroup(picture pic=<default>); -void endgroup3(frame f); -int Floor(real x); -pair gamma(explicit pair z); -real gamma(real x); -real pow10(real x); -real[] pow10(real[] a); -real bp; -int[] sort(int[] a); -int[][] sort(int[][] a); -real[] sort(real[] a); -real[][] sort(real[][] a); -string[] sort(string[] a); -string[][] sort(string[][] a); -bool3[] sort(bool3[] a, bool less(bool3, bool3)); -path[] sort(path[] a, bool less(path, path)); -pair[] sort(pair[] a, bool less(pair, pair)); -void()()[] sort(void()()[] a, bool less(void()(), void()())); -real[] sort(real[] a, bool less(real, real)); -bool[] sort(bool[] a, bool less(bool, bool)); -marker[] sort(marker[] a, bool less(marker, marker)); -object[] sort(object[] a, bool less(object, object)); -Label[] sort(Label[] a, bool less(Label, Label)); -pen[] sort(pen[] a, bool less(pen, pen)); -coord[] sort(coord[] a, bool less(coord, coord)); -guide[] sort(guide[] a, bool less(guide, guide)); -triple[] sort(triple[] a, bool less(triple, triple)); -string[] sort(string[] a, bool less(string, string)); -int[] sort(int[] a, bool less(int, int)); -picture[] sort(picture[] a, bool less(picture, picture)); -Legend[] sort(Legend[] a, bool less(Legend, Legend)); -coord[] sort(coord[] a, bool less(coord, coord)); -frame[] sort(frame[] a, bool less(frame, frame)); -pen salmon; -bool ignore; -pen Pentype(int n); -pen chartreuse; -void latticeshade(frame f, path[] g, bool stroke=<default>, pen fillrule=<default>, pen[][] p, transform t=<default>, bool copy=<default>); -void latticeshade(picture pic=<default>, path[] g, bool stroke=<default>, pen fillrule=<default>, pen[][] p, bool copy=<default>); -pair[] pairs(real[] x, real[] y); -void eval(code s, bool embedded=<default>); -void eval(string s, bool embedded=<default>); -bool Arrow(picture, path, pen, marginT(path, pen))(arrowhead arrowhead=<default>, real size=<default>, real angle=<default>, filltype filltype=<default>, position position=<default>); -bool Arrow(picture, path, pen, marginT(path, pen)); -bool Arrows(picture, path, pen, marginT(path, pen))(arrowhead arrowhead=<default>, real size=<default>, real angle=<default>, filltype filltype=<default>); -bool Arrows(picture, path, pen, marginT(path, pen)); -int tell(file f); -pen Yellow; -pair up; -guide reverse(guide g); -string reverse(string s); -path reverse(path p); -path3 reverse(path3 p); -triple[] reverse(triple[] a); -int[] reverse(int[] a); -real[] reverse(real[] a); -int[] reverse(int n); -string[] reverse(string[] a); -pair[] reverse(pair[] a); -bool[] reverse(bool[] a); -void _labelpath(frame f, string s, string size, path g, string justify, pair offset, pen p); -int floor(real x); -void resetdefaultpen(); -real aSin(real x); -pen darkred; -transform Scale(transform t); -pen mean(pen[] p, real opacity(real[])=<default>); -pen[] mean(pen[][] palette, real opacity(real[])=<default>); -string mktemp(string s); -void sleep(int seconds); -void unitsize(picture pic=<default>, real x, real y=<default>, real z=<default>); -void arrow(picture pic=<default>, Label L=<default>, pair b, pair dir, real length=<default>, align align=<default>, pen p=<default>, bool arrow(picture, path, pen, marginT(path, pen))=<default>, marginT margin(path, pen)=<default>); -picture arrow(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>); -picture arrow2(arrowhead arrowhead=<default>, path g, pen p=<default>, real size=<default>, real angle=<default>, filltype filltype=<default>, marginT margin(path, pen)=<default>); -path unitsquare; -real arrowdir; -real arrowbarb; -pen yellow; -int delete(string s); -pen miterjoin; -arrowhead SimpleHead; -real arrowangle; -real arrowlength; -pen miterlimit(real x); -real miterlimit(pen p=<default>); -real arrowfactor; -real arrowsize(pen p=<default>); -real Tan(real deg); -real arrowsizelimit; -real arrow2sizelimit; -real arrowhookfactor; -real arrowtexfactor; -void comma(file file); -void deletepreamble(); -real[] arrowbasepoints(path base, path left, path right); -path arrowbase(path r, pair y, real t, real size); -int choose(int n, int k); -real hypot(real x, real y); -path[] _strokepath(path g, pen p=<default>); -void pause(string w=<default>); -int ocgindex; -pen springgreen; -pen brown; -bool scale(pen p); -transform scale(real x); -transform scale(real x, real y); -real[][] scale(real x, real y, real z); -scaleT scaleT(real T(real x), real Tinv(real x), bool logarithmic=<default>, bool automin=<default>, bool automax=<default>); -string baseline(string s, string template=<default>); -real[][] scale3(real s); -int AND(int a, int b); -real polar(triple v, bool warn=<default>); -real radius(path p, real t); -real radius(path3 p, real t); -real radius(triple z0, triple c0, triple c1, triple z1, real t); -transform scaleless(transform t); -void makedraw(frame f, path g, pen p, int depth=<default>); -pair down; -path arc(pair c, real r, real angle1, real angle2); -path arc(pair c, explicit pair z1, explicit pair z2, bool direction=<default>); -path arc(pair c, real r, real angle1, real angle2, bool direction); -real[] cubicroots(real a, real b, real c, real d); -pen green; -real tan(real x); -real[] tan(real[] a); -pen longdashed; -pair point(guide g, int t); -pair point(path p, int t); -pair point(path p, real t); -triple point(path3 p, int t); -triple point(path3 p, real t); -pair point(picture pic=<default>, pair dir, bool user=<default>); -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); -int fillrule(pen p); -pair ESE; -pair project(triple v, real[][] t); -bool prc(string format=<default>); -projection projection(triple camera, triple up=<default>, triple target=<default>, triple normal=<default>, real zoom=<default>, real angle=<default>, pair viewportshift=<default>, bool showtarget=<default>, bool autoadjust=<default>, bool center=<default>, transformation projector(triple camera, triple up, triple target)); -void endl(file file); -marginT TrueMargin(path, pen)(real begin, real end); -pair bezier(pair a, pair b, pair c, pair d, real t); -triple bezier(triple a, triple b, triple c, triple d, real t); -pair SSE; -pair bezierP(pair a, pair b, pair c, pair d, real t); -triple bezierP(triple a, triple b, triple c, triple d, real t); -pair bezierPP(pair a, pair b, pair c, pair d, real t); -triple bezierPP(triple a, triple b, triple c, triple d, real t); -real[] _projection(); -pair bezierPPP(pair a, pair b, pair c, pair d); -triple bezierPPP(triple a, triple b, triple c, triple d); -real Jn(int n, real x); -void initXasyMode(); -int randMax; -path nurb(pair z0, pair z1, pair z2, pair z3, real w0, real w1, real w2, real w3, int m); -align NoAlign; -bool EndBar(picture, path, pen, marginT(path, pen)); -bool EndBar(picture, path, pen, marginT(path, pen))(real size=<default>); -Legend Legend(string label, pen plabel=<default>, pen p=<default>, frame mark=<default>, bool above=<default>); -real Yn(int n, real x); -int NOT(int a); -pen[] monoPen; -bool CW; -bool all(bool[] a); -real atanh(real x); -real[] atanh(real[] a); -frame UpsideDown(frame f); -pair realmult(pair z, pair w); -triple realmult(triple u, triple v); -real acosh(real x); -real[] acosh(real[] a); -real realEpsilon; -pair NW; -real norm(real[] a); -real norm(real[][] a); -real norm(triple[][] a); -int length(guide g); -int length(string s); -real length(pair z); -real length(triple v); -int length(path p); -int length(path3 p); -pair SW; -void flush(file f); -pen thin(); -pen palecyan; -void warning(string s, string t, bool position=<default>); -frame legend(picture pic=<default>, int perline=<default>, real xmargin=<default>, real ymargin=<default>, real linelength=<default>, real hskip=<default>, real vskip=<default>, real maxwidth=<default>, real maxheight=<default>, bool hstretch=<default>, bool vstretch=<default>, pen p=<default>); -picture legend(Legend[] Legend, int perline=<default>, real linelength, real hskip, real vskip, real maxwidth=<default>, real maxheight=<default>, bool hstretch=<default>, bool vstretch=<default>); -real Degrees(real radians); -picture legenditem(Legend legenditem, real linelength); -real legendhskip; -real legendvskip; -pen darkmagenta; -real change2(triple[][] a); -bool None(picture, path, pen, marginT(path, pen)); -real legendmargin; -real dotfactor; -real legendlinelength; -bool diagnostics; -string minipage(string s, real width=<default>); -real legendmaxrelativewidth; -triple cross(triple u, triple v); -path cross(int n, bool round=<default>, real r=<default>); -string operator +(string a, string b); -int operator +(int a, int b); -int[] operator +(int a, int[] b); -int[] operator +(int[] a, int b); -int[] operator +(int[] a, int[] b); -int[][] operator +(int[][] a, int[][] b); -int operator +(int a); -int[] operator +(int[] a); -real operator +(real a, real b); -real[] operator +(real a, real[] b); -real[] operator +(real[] a, real b); -real[] operator +(real[] a, real[] b); -real[][] operator +(real[][] a, real[][] b); -real operator +(real a); -real[] operator +(real[] a); -pair operator +(pair a, pair b); -pair[] operator +(pair a, pair[] b); -pair[] operator +(pair[] a, pair b); -pair[] operator +(pair[] a, pair[] b); -pair[][] operator +(pair[][] a, pair[][] b); -pair operator +(pair a); -pair[] operator +(pair[] a); -triple operator +(triple a, triple b); -triple[] operator +(triple a, triple[] b); -triple[] operator +(triple[] a, triple b); -triple[] operator +(triple[] a, triple[] b); -triple[][] operator +(triple[][] a, triple[][] b); -triple operator +(triple a); -triple[] operator +(triple[] a); -pen operator +(pen a, pen b); -transform operator +(transform a, transform b); -pen operator +(pen p, real w); -pen[] operator +(pen a, pen[] b); -marginT operator +(path, pen)(marginT ma(path, pen), marginT mb(path, pen)); -pen operator +(real w, pen p); -pen[] operator +(pen[] a, pen b); -int operator -(int a, int b); -int[] operator -(int a, int[] b); -int[] operator -(int[] a, int b); -int[] operator -(int[] a, int[] b); -int[][] operator -(int[][] a, int[][] b); -int operator -(int a); -int[] operator -(int[] a); -int[][] operator -(int[][] a); -real operator -(real a, real b); -real[] operator -(real a, real[] b); -real[] operator -(real[] a, real b); -real[] operator -(real[] a, real[] b); -real[][] operator -(real[][] a, real[][] b); -real operator -(real a); -real[] operator -(real[] a); -real[][] operator -(real[][] a); -pair operator -(pair a, pair b); -pair[] operator -(pair a, pair[] b); -pair[] operator -(pair[] a, pair b); -pair[] operator -(pair[] a, pair[] b); -pair[][] operator -(pair[][] a, pair[][] b); -pair operator -(pair a); -pair[] operator -(pair[] a); -pair[][] operator -(pair[][] a); -triple operator -(triple a, triple b); -triple[] operator -(triple a, triple[] b); -triple[] operator -(triple[] a, triple b); -triple[] operator -(triple[] a, triple[] b); -triple[][] operator -(triple[][] a, triple[][] b); -triple operator -(triple a); -triple[] operator -(triple[] a); -triple[][] operator -(triple[][] a); -int operator *(int a, int b); -int[] operator *(int a, int[] b); -int[] operator *(int[] a, int b); -int[] operator *(int[] a, int[] b); -int[][] operator *(int a, int[][] b); -int[][] operator *(int[][] a, int b); -real operator *(real a, real b); -real[] operator *(real a, real[] b); -real[] operator *(real[] a, real b); -real[] operator *(real[] a, real[] b); -real[][] operator *(real a, real[][] b); -real[][] operator *(real[][] a, real b); -pair operator *(pair a, pair b); -pair[] operator *(pair a, pair[] b); -pair[] operator *(pair[] a, pair b); -pair[] operator *(pair[] a, pair[] b); -pair[][] operator *(pair a, pair[][] b); -pair[][] operator *(pair[][] a, pair b); -triple[] operator *(real a, triple[] b); -triple[][] operator *(real a, triple[][] b); -triple[] operator *(triple[] a, real b); -triple[][] operator *(triple[][] a, real b); -pen operator *(real a, pen b); -pen operator *(pen a, real b); -transform operator *(transform a, transform b); -pair operator *(transform t, pair z); -path operator *(transform t, path g); -pen operator *(transform t, pen p); -frame operator *(transform t, frame f); -frame operator *(real[][] t, frame f); -real[] operator *(real[][] a, real[] b); -real[] operator *(real[] a, real[][] b); -int[][] operator *(int[][] a, int[][] b); -real[][] operator *(real[][] a, real[][] b); -pair[][] operator *(pair[][] a, pair[][] b); -triple operator *(real[][] t, triple v); -triple operator *(real x, triple v); -triple operator *(triple v, real x); -path3 operator *(real[][] t, path3 g); -Label operator *(real[][] t, Label L); -picture operator *(real[][] t, picture orig); -bounds operator *(transform t, bounds b); -object operator *(transform t, explicit object F); -Label operator *(transform t, Label L); -path[] operator *(transform t, explicit path[] p); -pair[] operator *(transform t, pair[] z); -picture operator *(transform t, picture orig); -side operator *(real x, side s); -bool operator init(); -int operator init(); -real operator init(); -string operator init(); -pair operator init(); -triple operator init(); -transform operator init(); -guide operator init(); -path operator init(); -path3 operator init(); -pen operator init(); -frame operator init(); -file operator init(); -hsv operator init(); -scaling operator init(); -pairOrTriple operator init(); -coords2 operator init(); -Legend operator init(); -coord operator init(); -ScaleT operator init(); -bool3 operator init(); -autoscaleT operator init(); -scaleT operator init(); -framedTransformStack operator init(); -cputime operator init(); -coords3 operator init(); -processtime operator init(); -light operator init(); -arrowhead operator init(); -projection operator init(); -indexedTransform operator init(); -marker operator init(); -transformation operator init(); -scaling operator init(); -bounds operator init(); -object operator init(); -coords2 operator init(); -Label operator init(); -coord operator init(); -position operator init(); -side operator init(); -marginT operator init(); -align operator init(); -filltype operator init(); -slice operator init(); -picture operator init(); -real operator cast(int); -pair operator cast(int); -pair operator cast(real); -path operator cast(pair); -guide operator cast(pair); -guide operator cast(path); -path operator cast(guide); -file operator cast(null); -real[] operator cast(int[]); -pair[] operator cast(int[]); -pair[] operator cast(real[]); -real[][] operator cast(int[][]); -pair[][] operator cast(int[][]); -pair[][] operator cast(real[][]); -bool operator cast(file); -bool[] operator cast(file); -bool[][] operator cast(file); -bool[][][] operator cast(file); -int operator cast(file); -int[] operator cast(file); -int[][] operator cast(file); -int[][][] operator cast(file); -real operator cast(file); -real[] operator cast(file); -real[][] operator cast(file); -real[][][] operator cast(file); -pair operator cast(file); -pair[] operator cast(file); -pair[][] operator cast(file); -pair[][][] operator cast(file); -triple operator cast(file); -triple[] operator cast(file); -triple[][] operator cast(file); -triple[][][] operator cast(file); -string operator cast(file); -string[] operator cast(file); -string[][] operator cast(file); -string[][][] operator cast(file); -guide operator cast(cycleToken tok); -guide operator cast(curlSpecifier spec); -guide operator cast(tensionSpecifier t); -guide[] operator cast(path[] g); -frame operator cast(object F); -bool3 operator cast(bool b); -position operator cast(pair x); -pair operator cast(position P); -object operator cast(Label L); -Label operator cast(object F); -align operator cast(pair dir); -object operator cast(frame f); -guide[] operator cast(pair[] z); -align operator cast(triple dir); -path[] operator cast(guide[] g); -bool[] operator cast(bool3[] b); -pair operator cast(pairOrTriple a); -triple operator cast(pairOrTriple a); -pen operator cast(hsv hsv); -path[] operator cast(guide g); -align operator cast(side side); -path[] operator cast(pair[] z); -path[] operator cast(path p); -hsv operator cast(pen p); -bool operator cast(bool3 b); -position operator cast(int x); -position operator cast(real x); -object operator cast(string s); -Label operator cast(string s); -bool3[] operator cast(bool[] b); -pen deepred; -bool error(file f); -string operator ecast(int); -string operator ecast(real); -string operator ecast(pair); -string operator ecast(triple); -int operator ecast(string); -real operator ecast(string); -pair operator ecast(string); -triple operator ecast(string); -int operator ecast(real); -int[] operator ecast(real[]); -real[] operator ecast(string[] a); -int[] operator ecast(string[] a); -real operator /(real a, real b); -real[] operator /(real a, real[] b); -real[] operator /(real[] a, real b); -real[] operator /(real[] a, real[] b); -real[][] operator /(real[][] a, real b); -pair operator /(pair a, pair b); -pair[] operator /(pair a, pair[] b); -pair[] operator /(pair[] a, pair b); -pair[] operator /(pair[] a, pair[] b); -pair[][] operator /(pair[][] a, pair b); -triple[] operator /(triple[] a, real b); -real operator /(int a, int b); -real[] operator /(int[] a, int b); -real[] operator /(int a, int[] b); -real[] operator /(int[] a, int[] b); -triple operator /(triple v, real x); -int operator %(int a, int b); -int[] operator %(int a, int[] b); -int[] operator %(int[] a, int b); -int[] operator %(int[] a, int[] b); -real operator %(real a, real b); -real[] operator %(real a, real[] b); -real[] operator %(real[] a, real b); -real[] operator %(real[] a, real[] b); -path[] texpath(Label L, bool tex=<default>, bool bbox=<default>); -bool uptodate(); -bool operator ^(bool a, bool b); -bool[] operator ^(bool a, bool[] b); -bool[] operator ^(bool[] a, bool b); -bool[] operator ^(bool[] a, bool[] b); -int operator ^(int a, int b); -int[] operator ^(int a, int[] b); -int[] operator ^(int[] a, int b); -int[] operator ^(int[] a, int[] b); -real operator ^(real a, real b); -real[] operator ^(real a, real[] b); -real[] operator ^(real[] a, real b); -real[] operator ^(real[] a, real[] b); -pair operator ^(pair a, pair b); -pair[] operator ^(pair a, pair[] b); -pair[] operator ^(pair[] a, pair b); -pair[] operator ^(pair[] a, pair[] b); -transform operator ^(transform t, int n); -real operator ^(real x, int y); -pair operator ^(pair z, int y); -bool operator ==(bool a, bool b); -bool[] operator ==(bool a, bool[] b); -bool[] operator ==(bool[] a, bool b); -bool[] operator ==(bool[] a, bool[] b); -bool operator ==(bool[][] a, bool[][] b); -bool operator ==(int a, int b); -bool[] operator ==(int a, int[] b); -bool[] operator ==(int[] a, int b); -bool[] operator ==(int[] a, int[] b); -bool operator ==(int[][] a, int[][] b); -bool operator ==(real a, real b); -bool[] operator ==(real a, real[] b); -bool[] operator ==(real[] a, real b); -bool[] operator ==(real[] a, real[] b); -bool operator ==(real[][] a, real[][] b); -bool operator ==(pair a, pair b); -bool[] operator ==(pair a, pair[] b); -bool[] operator ==(pair[] a, pair b); -bool[] operator ==(pair[] a, pair[] b); -bool operator ==(pair[][] a, pair[][] b); -bool operator ==(triple a, triple b); -bool[] operator ==(triple a, triple[] b); -bool[] operator ==(triple[] a, triple b); -bool[] operator ==(triple[] a, triple[] b); -bool operator ==(triple[][] a, triple[][] b); -bool operator ==(string a, string b); -bool[] operator ==(string a, string[] b); -bool[] operator ==(string[] a, string b); -bool[] operator ==(string[] a, string[] b); -bool operator ==(string[][] a, string[][] b); -bool[] operator ==(pen[] a, pen[] b); -bool operator ==(pen a, pen b); -bool operator ==(transform a, transform b); -bool operator ==(file a, file b); -bool operator ==(path a, path b); -bool operator ==(path3 a, path3 b); -bool operator ==(slice a, slice b); -bool operator ==(freezableBounds a, freezableBounds b); -bool operator ==(picture a, picture b); -bool operator ==(scaleT a, scaleT b); -bool operator ==(framedTransformStack a, framedTransformStack b); -bool operator ==(cputime a, cputime b); -bool operator ==(bool a, bool3 b); -bool operator ==(scaling a, scaling b); -bool operator ==(bounds a, bounds b); -bool operator ==(object a, object b); -bool operator ==(filltype a, filltype b); -bool operator ==(bool3 a, bool3 b); -bool operator ==(autoscaleT a, autoscaleT b); -bool operator ==(transformation a, transformation b); -bool operator ==(marginT a, marginT b); -bool operator ==(align a, align b); -bool operator ==(coord a, coord b); -bool operator ==(ScaleT a, ScaleT b); -bool operator ==(projection a, projection b); -bool operator ==(indexedTransform a, indexedTransform b); -bool operator ==(marker a, marker b); -bool operator ==(bool3 a, bool b); -bool operator ==(side a, side b); -bool operator ==(coords2 a, coords2 b); -bool operator ==(Legend a, Legend b); -bool operator ==(light a, light b); -bool operator ==(arrowhead a, arrowhead b); -bool operator ==(coord a, coord b); -bool operator ==(position a, position b); -bool operator ==(hsv a, hsv b); -bool operator ==(scaling a, scaling b); -bool operator ==(pairOrTriple a, pairOrTriple b); -bool operator ==(coords3 a, coords3 b); -bool operator ==(processtime a, processtime b); -bool operator ==(coords2 a, coords2 b); -bool operator ==(Label a, Label b); -bool operator !=(bool a, bool b); -bool[] operator !=(bool a, bool[] b); -bool[] operator !=(bool[] a, bool b); -bool[] operator !=(bool[] a, bool[] b); -bool operator !=(bool[][] a, bool[][] b); -bool operator !=(int a, int b); -bool[] operator !=(int a, int[] b); -bool[] operator !=(int[] a, int b); -bool[] operator !=(int[] a, int[] b); -bool operator !=(int[][] a, int[][] b); -bool operator !=(real a, real b); -bool[] operator !=(real a, real[] b); -bool[] operator !=(real[] a, real b); -bool[] operator !=(real[] a, real[] b); -bool operator !=(real[][] a, real[][] b); -bool operator !=(pair a, pair b); -bool[] operator !=(pair a, pair[] b); -bool[] operator !=(pair[] a, pair b); -bool[] operator !=(pair[] a, pair[] b); -bool operator !=(pair[][] a, pair[][] b); -bool operator !=(triple a, triple b); -bool[] operator !=(triple a, triple[] b); -bool[] operator !=(triple[] a, triple b); -bool[] operator !=(triple[] a, triple[] b); -bool operator !=(triple[][] a, triple[][] b); -bool operator !=(string a, string b); -bool[] operator !=(string a, string[] b); -bool[] operator !=(string[] a, string b); -bool[] operator !=(string[] a, string[] b); -bool operator !=(string[][] a, string[][] b); -bool[] operator !=(pen[] a, pen[] b); -bool operator !=(pen a, pen b); -bool operator !=(transform a, transform b); -bool operator !=(file a, file b); -bool operator !=(path a, path b); -bool operator !=(path3 a, path3 b); -bool operator !=(slice a, slice b); -bool operator !=(freezableBounds a, freezableBounds b); -bool operator !=(picture a, picture b); -bool operator !=(scaleT a, scaleT b); -bool operator !=(framedTransformStack a, framedTransformStack b); -bool operator !=(cputime a, cputime b); -bool operator !=(bool a, bool3 b); -bool operator !=(scaling a, scaling b); -bool operator !=(bounds a, bounds b); -bool operator !=(object a, object b); -bool operator !=(filltype a, filltype b); -bool operator !=(bool3 a, bool3 b); -bool operator !=(autoscaleT a, autoscaleT b); -bool operator !=(transformation a, transformation b); -bool operator !=(marginT a, marginT b); -bool operator !=(align a, align b); -bool operator !=(coord a, coord b); -bool operator !=(ScaleT a, ScaleT b); -bool operator !=(projection a, projection b); -bool operator !=(indexedTransform a, indexedTransform b); -bool operator !=(marker a, marker b); -bool operator !=(bool3 a, bool b); -bool operator !=(side a, side b); -bool operator !=(coords2 a, coords2 b); -bool operator !=(Legend a, Legend b); -bool operator !=(light a, light b); -bool operator !=(arrowhead a, arrowhead b); -bool operator !=(coord a, coord b); -bool operator !=(position a, position b); -bool operator !=(hsv a, hsv b); -bool operator !=(scaling a, scaling b); -bool operator !=(pairOrTriple a, pairOrTriple b); -bool operator !=(coords3 a, coords3 b); -bool operator !=(processtime a, processtime b); -bool operator !=(coords2 a, coords2 b); -bool operator !=(Label a, Label b); -bool operator <(int a, int b); -bool[] operator <(int a, int[] b); -bool[] operator <(int[] a, int b); -bool[] operator <(int[] a, int[] b); -bool operator <(real a, real b); -bool[] operator <(real a, real[] b); -bool[] operator <(real[] a, real b); -bool[] operator <(real[] a, real[] b); -bool operator <(string a, string b); -bool[] operator <(string a, string[] b); -bool[] operator <(string[] a, string b); -bool[] operator <(string[] a, string[] b); -bool operator <=(int a, int b); -bool[] operator <=(int a, int[] b); -bool[] operator <=(int[] a, int b); -bool[] operator <=(int[] a, int[] b); -bool operator <=(real a, real b); -bool[] operator <=(real a, real[] b); -bool[] operator <=(real[] a, real b); -bool[] operator <=(real[] a, real[] b); -bool operator <=(string a, string b); -bool[] operator <=(string a, string[] b); -bool[] operator <=(string[] a, string b); -bool[] operator <=(string[] a, string[] b); -bool operator <=(coord a, coord b); -bool operator <=(coord a, coord b); -bool operator >(int a, int b); -bool[] operator >(int a, int[] b); -bool[] operator >(int[] a, int b); -bool[] operator >(int[] a, int[] b); -bool operator >(real a, real b); -bool[] operator >(real a, real[] b); -bool[] operator >(real[] a, real b); -bool[] operator >(real[] a, real[] b); -bool operator >(string a, string b); -bool[] operator >(string a, string[] b); -bool[] operator >(string[] a, string b); -bool[] operator >(string[] a, string[] b); -bool operator >=(int a, int b); -bool[] operator >=(int a, int[] b); -bool[] operator >=(int[] a, int b); -bool[] operator >=(int[] a, int[] b); -bool operator >=(real a, real b); -bool[] operator >=(real a, real[] b); -bool[] operator >=(real[] a, real b); -bool[] operator >=(real[] a, real[] b); -bool operator >=(string a, string b); -bool[] operator >=(string a, string[] b); -bool[] operator >=(string[] a, string b); -bool[] operator >=(string[] a, string[] b); -bool operator >=(coord a, coord b); -bool operator >=(coord a, coord b); -void srand(int seed); -bool[] operator !(bool[] a); -bool operator !(bool b); -filltype UnFill(real xmargin=<default>, real ymargin=<default>); -filltype UnFill; -path[] operator ^^(path p, path q); -path[] operator ^^(explicit path[] p, path q); -path[] operator ^^(path p, explicit path[] q); -path[] operator ^^(explicit path[] p, explicit path[] q); -guide operator ::(... guide[]); -real degrees(pair z, bool warn=<default>); -real degrees(real radians); -pen Helvetica(string series=<default>, string shape=<default>); -transform reflect(pair a, pair b); -guide operator ..(... guide[]); -guide operator ..(... guide[])(tensionSpecifier t); -bool Bars(picture, path, pen, marginT(path, pen))(real size=<default>); -bool Bars(picture, path, pen, marginT(path, pen)); -guide operator --(... guide[]); -void none(file file); -guide operator ---(... guide[]); -int factorial(int n); -real log(real x); -real[] log(real[] a); -pair log(explicit pair z); -path polygon(int n); -bool operator &(bool a, bool b); -bool[] operator &(bool a, bool[] b); -bool[] operator &(bool[] a, bool b); -bool[] operator &(bool[] a, bool[] b); -path operator &(path p, path q); -path3 operator &(path3 p, path3 q); -path operator &(path p, cycleToken tok); -bool operator |(bool a, bool b); -bool[] operator |(bool a, bool[] b); -bool[] operator |(bool[] a, bool b); -bool[] operator |(bool[] a, bool[] b); -pen NewCenturySchoolBook(string series=<default>, string shape=<default>); -void()()[] saveFunctions; -guide operator controls(pair zout, pair zin); -guide operator controls(pair z); -tensionSpecifier operator tension(real tout, real tin, bool atleast); -tensionSpecifier operator tension(real t, bool atLeast); -string texify(string s); -bool empty(frame f); -curlSpecifier operator curl(real gamma, int p); -guide operator spec(pair z, int p); -void end(picture pic=<default>); -string substr(string s, int pos, int n=<default>); -pen paleyellow; -file output(string name, bool update=<default>, string comment=<default>); -pen ZapfDingbats(string series=<default>, string shape=<default>); -real tanh(real x); -real[] tanh(real[] a); -real interp(real a, real b, real t); -pair interp(explicit pair a, explicit pair b, real t); -triple interp(triple a, triple b, real t); -pen interp(pen a, pen b, real t); -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>); -bool interactive(); -real[][] intersections(path p, path q, real fuzz=<default>); -real[] intersections(path p, explicit pair a, explicit pair b, real fuzz=<default>); -real[][] intersections(path3 p, path3 q, real fuzz=<default>); -real[][] intersections(path3 p, triple[][] p, real fuzz=<default>); -int animate(string args=<default>, string file=<default>, string format=<default>); -void generate_random_backtrace(); -pair intersectionpoint(path p, path q, real fuzz=<default>); -pair[] intersectionpoints(path p, path q, real fuzz=<default>); -pair[] intersectionpoints(explicit path[] p, explicit path[] q, real fuzz=<default>); -void asy(string format, bool overwrite=<default> ... string[] s); -bool latex(); -void startScript(); -bool adjust(pen p); -pen adjust(pen p, real arclength, bool cyclic); -pair Align; -void exit(); -real[] uniform(real a, real b, int n); -pair viewportsize; -pair viewportmargin; -string VERSION; -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); -pair dot(pair[] a, pair[] b); -real dot(explicit pair z, explicit pair w); -real dot(triple u, triple v); -void dot(frame f, pair z, pen p=<default>, filltype filltype=<default>); -void dot(picture pic=<default>, Label L, pen p=<default>, filltype filltype=<default>); -void dot(picture pic=<default>, Label[] L=<default>, pair[] z, align align=<default>, string format=<default>, pen p=<default>, filltype filltype=<default>); -void dot(picture pic=<default>, path[] g, pen p=<default>, filltype filltype=<default>); -void dot(picture pic=<default>, Label L, pair z, align align=<default>, string format=<default>, pen p=<default>, filltype filltype=<default>); -marker dot; -void dot(picture pic=<default>, Label[] L=<default>, explicit path g, align align=<default>, string format=<default>, pen p=<default>, filltype filltype=<default>); -marker dot(pen p=<default>, filltype filltype=<default>); -void dot(picture pic=<default>, pair z, pen p=<default>, filltype filltype=<default>); -void list(string s, bool imports=<default>); -pair NNW; -string phantom(string s); -void atexit(void f()); -void atexit()(); -real getreal(string name=<default>, real default=<default>, string prompt=<default>, bool store=<default>); -int convert(string args=<default>, string file=<default>, string format=<default>); -pair WNW; -pen palegray; -pen palegreen; -pen palegrey; -void clip(frame f, path[] g, bool stroke=<default>, pen fillrule=<default>, bool copy=<default>); -void clip(picture pic=<default>, path[] g, bool stroke=<default>, pen fillrule=<default>, bool copy=<default>); -marginT Margin(path, pen)(real begin, real end); -marginT Margin(path, pen); -position Relative(real position); -side Relative(explicit pair align); -marginT Margins(path, pen); -pair truepoint(picture pic=<default>, pair dir, bool user=<default>); -real arclength(path p); -real arclength(path3 p); -indexedTransform indexedTransform(int index, transform t, bool active=<default>); -bool finite(real x); -bool finite(pair z); -bool finite(triple v); -void updatefunction(); -void _draw(frame f, path g, pen p); -void _draw(frame f, path3 g, triple center=<default>, pen p, int interaction=<default>); -void _draw(picture pic, path g, pen p, marginT margin(path, pen)); -frame align(frame f, pair align); -object align(object F, pair align); -path[] align(path[] g, transform t=<default>, pair position, pair align, pen p=<default>); -real unitrand(); -string[] history(string name, int n=<default>); -string[] history(int n=<default>); -coord[] maxcoords(coord[] in, bool operator <=(coord, coord)); -coord[] maxcoords(coord[] in, bool operator <=(coord, coord)); -pen AvantGarde(string series=<default>, string shape=<default>); -frame enclose(string prefix=<default>, object F, string format=<default>); -int count; -real atan2(real y, real x); -bool inside(explicit path[] g, pair z, pen fillrule=<default>); -bool inside(path g, pair z, pen fillrule=<default>); -int inside(path p, path q, pen fillrule=<default>); -pair inside(path p, pen fillrule=<default>); -pair rectify(pair dir); -arrowhead TeXHead; -path[] margin(path[] g, real xmargin, real ymargin); -pair relative(picture pic=<default>, pair z); -real expansionfactor; -real erfc(real x); -int windingnumber(path[] p, pair z); -void addArrow(picture pic, arrowhead arrowhead, path g, pen p, real size, real angle, filltype filltype, real position); -void exitfunction(); -pen gray(pen p); -pen gray(real gray); -pen gray; -real relativedistance(real theta, real phi, real t, bool atleast); -path circle(pair c, real r); -void overloadedMessage(file file); -pen deepmagenta; -real circlescale; -string math(real x); -string math(string s); -real circleprecision; -int Allow; -real determinant(real[][] a); -void functionshade(frame f, path[] g, bool stroke=<default>, pen fillrule=<default>, string shader=<default>, bool copy=<default>); -void functionshade(picture pic=<default>, path[] g, bool stroke=<default>, pen fillrule=<default>, string shader, bool copy=<default>); -pen red; -pair[] dirSpecifier(guide g, int t); -void abort(string s=<default>); -bool Aspect; -string hex(pen p); -int hex(string s); -void deactivatequote(picture pic=<default>); -string format(string format, int x); -string format(string format, real x, string locale=<default>); -string format(real x, string locale=<default>); -real expm1(real x); -real[] expm1(real[] a); -void activatequote(picture pic=<default>); -int undefined; -string ask(string prompt); -frame[] fit2(picture[] pictures, picture all); -pen linecap(int n); -int linecap(pen p=<default>); -string outname(); -void newpage(frame f); -void newpage(picture pic=<default>); -pen fontcommand(string s); -pair accel(path p, int t, int sign=<default>); -pair accel(path p, real t); -triple accel(path3 p, int t, int sign=<default>); -triple accel(path3 p, real t); -frame Portrait(frame f); -void tex(frame f, string s); -void tex(frame f, string s, pair min, pair max); -void tex(picture pic=<default>, string s); -void tex(picture pic=<default>, string s, pair min, pair max); -pen Black; -triple size3(frame f); -void size3(picture pic=<default>, real x, real y=<default>, real z=<default>, bool keepAspect=<default>); -bool eof(file f); -frame dotframe; -frame dotframe(pen p=<default>, filltype filltype=<default>); -real realMax; -pair NE; -real realMin; -path nib(pen p); -void gouraudshade(frame f, path[] g, bool stroke=<default>, pen fillrule=<default>, pen[] p, pair[] z, int[] edges, bool copy=<default>); -void gouraudshade(frame f, path[] g, bool stroke=<default>, pen fillrule=<default>, pen[] p, int[] edges, bool copy=<default>); -void gouraudshade(picture pic=<default>, path[] g, bool stroke=<default>, pen fillrule=<default>, pen[] p, pair[] z, int[] edges, bool copy=<default>); -void gouraudshade(picture pic=<default>, path[] g, bool stroke=<default>, pen fillrule=<default>, pen[] p, int[] edges, bool copy=<default>); -bool shipped; -file boutput(string name, bool update=<default>); -pair[] fft(pair[] a, int sign=<default>); -pair SE; -pen nobasealign; -sCAD operator init(); -real animationdelay; -animation operator init(); -frame NoBox(frame f); -frame BBox(frame)(real xmargin=<default>, real ymargin=<default>, pen p=<default>, filltype filltype=<default>); -void annotate(picture pic=<default>, string title, string text, pair position); -void babel(string s); -path removeDuplicates(path p); -path uncycle(path p, real t); -path[] bezulate(path[] p); -real[][] intersections(pair a, pair b, path p); -void connect(path[] paths, path[] result, path[] patch); -int countIntersections(path[] p, pair start, pair end); -real duplicateFuzz; -path subdivide(path p); -bool isDuplicate(pair a, pair b, real relSize); -bool checkSegment(path g, pair p, pair q); -path section(path p, real t1, real t2, bool loop=<default>); -real fuzz; -path[][] containmentTree(path[] paths); -binarytree searchtree(... int[] keys); -object draw(picture pic=<default>, binarytreeNode node, pair pos, int height, real minDist, real levelDist, real nodeDiameter, pen p=<default>); -void draw(picture pic=<default>, binarytree tree, real minDist=<default>, real nodeMargin=<default>, pen p=<default>); -real nodeMarginDefault; -key key(int n, bool active=<default>); -binarytree binarytree(... key[] keys); -binarytreeNode binarytreeNode(int key); -key nil; -real minDistDefault; -binarytreeNode operator init(); -key operator init(); -binarytree operator init(); -key operator cast(int n); -int operator cast(key k); -int[] operator cast(key[] k); -line intersection(face a, face b); -real epsilon; -splitface split(face a, face cut, projection P); -face operator init(); -line operator init(); -half operator init(); -splitface operator init(); -bsp operator init(); -picture operator cast(face f); -face operator cast(path3 p); -void add(picture pic=<default>, face[] faces, projection P=<default>); -void searchindex(boxcontour bc, bool forward, void f(int i, int j)); -segment case1(pair p0, pair p1, pair p2, real v0, real v1, real v2); -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>); -void draw(picture pic=<default>, Label L, guide[] g, pen p=<default>); -int interior; -pen[][] interior(picture pic=<default>, guide[][] g, pen[] palette); -pen[] extend(pen[] palette, pen below, pen above); -bool same(gridpoint gp1, gridpoint gp2); -guide connect(Segment S, pair[][] z, guide join(... guide[])); -guide[] connect(Segment[] S, pair[][] z, guide join(... guide[])); -guide[][] connect(Segment[][] S, pair[][] z, guide join(... guide[])); -guide[][] connect(pair[][][] points, real[] c, guide join(... guide[])); -bool connected(boxcontour bc1, boxcontour bc2); -int exterior; -int connectedindex(boxcontour bc, boxcontour[] bca, bool activeonly=<default>); -int connectedindex(boxcontour[] bca, boxcontour bc, bool activeonly=<default>); -segment case2(pair p0, pair p1, pair p2, real v0, real v1, real v2); -void collect(pair[][][] points, real[] c); -int hyperbola; -int edge; -int line; -segment case3(pair p0, pair p1, pair p2, real v0, real v1, real v2); -segment checktriangle(pair p0, pair p1, pair p2, real v0, real v1, real v2); -gridpoint operator init(); -boxcontour operator init(); -boxdata operator init(); -segment operator init(); -Segment operator init(); -segment operator init(); -void fill(picture pic=<default>, guide[][] g, pen[][] palette); -guide[][] contour(pair[][] z, real[][] f, real[] c, guide join(... guide[])=<default>, int subsample=<default>); -guide[][] contour(real[][] f, pair a, pair b, real[] c, guide join(... guide[])=<default>, int subsample=<default>); -guide[][] contour(real f(real, real), pair a, pair b, real[] c, int nx=<default>, int ny=<default>, guide join(... guide[])=<default>, int subsample=<default>); -guide[][] contour(real f(pair), pair a, pair b, real[] c, int nx=<default>, int ny=<default>, guide join(... guide[])=<default>, int subsample=<default>); -guide[][] contour(pair[] z, real[] f, real[] c, guide join(... guide[])=<default>); -segment[][] contouredges(real[][] f, real[] c, int subsample=<default>); -void setcontour(real f00, real f10, real f01, real f11, real epsf, boxdata bd, int i, int j, int index); -Segment[] Segment(segment[] s); -Segment[][] Segment(segment[][] s); -real eps; -segment case4(pair p0, pair p1, pair p2, real v0, real v1, real v2); -bool isCCW(pair p0, pair p1, pair p2); -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); -real layout(int level, TreeNode node); -TreeNode operator init(); -void add(TreeNode child, TreeNode parent); -real treeLevelStep; -real treeMinNodeWidth; -TreeNode makeNode(TreeNode parent=<default>, frame f); -TreeNode makeNode(TreeNode parent=<default>, Label label); -string link(string label, string text, string options=<default>); -string embed(string name, string options=<default>, real width=<default>, real height=<default>); -string hyperlink(string url, string text); -string link(string url, string text, string options=<default>); -string embed(string name, string options=<default>, real width=<default>, real height=<default>, string image=<default>); -string hyperlink(string url, string text); -real gluonratio; -real gluonamplitude; -void drawGluon(picture pic=<default>, path p, real amp=<default>, real width=<default>, pen fgpen=<default>, bool erasebg=<default>, pen bgpen=<default>, real vertexangle=<default>, real margin=<default>); -void drawGhost(picture pic=<default>, path p, pen fgpen=<default>, bool arrow(picture, path, pen, marginT(path, pen))=<default>, bool erasebg=<default>, pen bgpen=<default>, real vertexangle=<default>, real margin=<default>); -void drawVertex(picture pic=<default>, pair xy, real r=<default>, pen fgpen=<default>); -void drawVertexO(picture pic=<default>, pair xy, real r=<default>, pen fgpen=<default>, bool erasebg=<default>, pen bgpen=<default>); -void drawVertexX(picture pic=<default>, pair xy, real r=<default>, pen fgpen=<default>); -void drawVertexBox(picture pic=<default>, pair xy, real r=<default>, pen fgpen=<default>); -void drawVertexBoxO(picture pic=<default>, pair xy, real r=<default>, pen fgpen=<default>, bool erasebg=<default>, pen bgpen=<default>); -bool XYAlign; -void drawVertexOX(picture pic=<default>, pair xy, real r=<default>, pen fgpen=<default>, bool erasebg=<default>, pen bgpen=<default>); -void drawVertexTriangle(picture pic=<default>, pair xy, real r=<default>, pen fgpen=<default>); -void drawVertexTriangleO(picture pic=<default>, pair xy, real r=<default>, pen fgpen=<default>, bool erasebg=<default>, pen bgpen=<default>); -void drawVertexBoxX(picture pic=<default>, pair xy, real r=<default>, pen fgpen=<default>, bool erasebg=<default>, pen bgpen=<default>); -void do_overpaint(picture pic, path p, pen bgpen, real halfwidth, real vertexangle); -void texshipout(string stem, picture pic=<default>, bool xalign=<default>); -void drawDoubleLine(picture pic=<default>, path p, pen fgpen=<default>, real dlspacing=<default>, bool arrow(picture, path, pen, marginT(path, pen))=<default>, bool erasebg=<default>, pen bgpen=<default>, real vertexangle=<default>, real margin=<default>); -void drawScalar(picture pic=<default>, path p, pen fgpen=<default>, bool arrow(picture, path, pen, marginT(path, pen))=<default>, bool erasebg=<default>, pen bgpen=<default>, real vertexangle=<default>, real margin=<default>); -bool overpaint; -path photon(path p, real amp=<default>, real width=<default>); -pen photonpen; -real photonratio; -real photonamplitude; -string includegraphicscommand; -pen momarrowpen; -real momarrowsize(pen p=<default>); -real momarrowlength; -real momarrowoffset; -real momarrowmargin; -real momarrowfactor; -pen vertexpen; -real vertexsize; -path momArrowPath(path p, align align, position pos, real offset=<default>, real length=<default>); -void drawPhoton(picture pic=<default>, path p, real amp=<default>, real width=<default>, pen fgpen=<default>, bool erasebg=<default>, pen bgpen=<default>, real vertexangle=<default>, real margin=<default>); -bool YAlign; -pen ghostpen; -pen backgroundpen; -pen scalarpen; -pen fermionpen; -pen bigvertexpen; -real bigvertexsize; -real minvertexangle; -void drawMomArrow(picture pic=<default>, path p, align align, position pos=<default>, real offset=<default>, real length=<default>, pen fgpen=<default>, bool arrow(picture, path, pen, marginT(path, pen))=<default>, bool erasebg=<default>, pen bgpen=<default>, real margin=<default>); -void fmdefaults(); -real linemargin; -void drawFermion(picture pic=<default>, path p, pen fgpen=<default>, bool arrow(picture, path, pen, marginT(path, pen))=<default>, bool erasebg=<default>, pen bgpen=<default>, real vertexangle=<default>, real margin=<default>); -bool currentarrow(picture, path, pen, marginT(path, pen)); -bool currentmomarrow(picture, path, pen, marginT(path, pen)); -bool appendsuffix; -pen doublelinepen; -real doublelinespacing; -path gluon(path p, real amp=<default>, real width=<default>); -pen gluonpen; -Dir Left; -block roundrectangle(object body, pair center=<default>, pen fillpen=<default>, pen drawpen=<default>, real ds=<default>, real dw=<default>, real minwidth=<default>, real minheight=<default>); -block diamond(object body, pair center=<default>, pen fillpen=<default>, pen drawpen=<default>, real ds=<default>, real dw=<default>, real height=<default>, real minwidth=<default>, real minheight=<default>); -void draw(picture pic=<default>, block block, pen p=<default>); -real defaultexcursion; -real minblockwidth; -real minblockheight; -path path(pair[] point ... flowdir[] dir); -Dir Up; -real mincirclediameter; -flowdir Vertical; -block rectangle(object header, object body, pair center=<default>, pen headerpen=<default>, pen bodypen=<default>, pen drawpen=<default>, real dx=<default>, real minheaderwidth=<default>, real minheaderheight=<default>, real minbodywidth=<default>, real minbodyheight=<default>); -block rectangle(object body, pair center=<default>, pen fillpen=<default>, pen drawpen=<default>, real dx=<default>, real minwidth=<default>, real minheight=<default>); -block parallelogram(object body, pair center=<default>, pen fillpen=<default>, pen drawpen=<default>, real dx=<default>, real slope=<default>, real minwidth=<default>, real minheight=<default>); -block blockconnector(block, block)(picture pic, transform t, pen p=<default>, marginT margin(path, pen)=<default>); -block circle(object body, pair center=<default>, pen fillpen=<default>, pen drawpen=<default>, real dr=<default>, real mindiameter=<default>); -flowdir operator init(); -block operator init(); -Dir operator init(); -block operator --(block b1, Label label); -block operator --(block b1, Dir dir); -block operator --(block b, bool arrowbar(picture, path, pen, marginT(path, pen))); -flowdir Horizontal; -block bevel(object body, pair center=<default>, pen fillpen=<default>, pen drawpen=<default>, real dh=<default>, real dw=<default>, real minwidth=<default>, real minheight=<default>); -Dir Right; -Dir Down; -int[] numarray; -point midpoint(segment s); -point midpoint(side side); -point isotomicconjugate(triangle t, point M); -line altitude(vertex V); -line altitude(side side); -real rd(real x, real y, real z); -point circumcenter(point A, point B, point C); -point circumcenter(triangle t); -circle circumcircle(point A, point B, point C); -circle circumcircle(triangle t); -point point(coordsys R, pair p, real m=<default>); -point point(explicit pair p, real m); -point point(coordsys R, explicit point M, real m=<default>); -point point(explicit vector u); -point point(circle c, abscissa l); -point point(ellipse el, abscissa l); -point point(parabola p, abscissa l); -point point(hyperbola h, abscissa l); -point point(explicit conic co, abscissa l); -point point(line l, abscissa x); -point point(line l, explicit real x); -point point(line l, explicit int x); -point point(explicit circle c, explicit real x); -point point(explicit circle c, explicit int x); -point point(explicit ellipse el, explicit real x); -point point(explicit ellipse el, explicit int x); -point point(explicit parabola p, explicit real x); -point point(explicit parabola p, explicit int x); -point point(explicit hyperbola h, explicit real x); -point point(explicit hyperbola h, explicit int x); -point point(explicit conic co, explicit real x); -point point(explicit conic co, explicit int x); -point point(arc a, abscissa l); -point point(arc a, real x); -pair point(explicit arc a, int x); -point point(explicit mass m); -point point(explicit vertex V); -point point(trilinear tri); -point point(circle c, point M); -point point(circle c, explicit vector v); -bool finite(explicit point p); -void dot(picture pic=<default>, Label L, explicit point Z, align align=<default>, string format=<default>, pen p=<default>); -real dot(point A, point B); -real dot(point A, explicit pair B); -real dot(explicit pair A, point B); -void dot(picture pic=<default>, Label L, explicit mass M, align align=<default>, string format=<default>, pen p=<default>); -void dot(picture pic=<default>, triangle t, pen p=<default>); -real[] realquarticroots(real a, real b, real c, real d, real e); -point origin; -point origin(coordsys R=<default>); -void draw(picture pic=<default>, Label L=<default>, line l, bool dirA=<default>, bool dirB=<default>, align align=<default>, pen p=<default>, bool arrow(picture, path, pen, marginT(path, pen))=<default>, Label legend=<default>, marker marker=<default>, path pathModifier(path)=<default>); -void draw(picture pic=<default>, Label[] L=<default>, line[] l, align align=<default>, pen[] p=<default>, bool arrow(picture, path, pen, marginT(path, pen))=<default>, Label[] legend=<default>, marker marker=<default>, path pathModifier(path)=<default>); -void draw(picture pic=<default>, Label[] L=<default>, line[] l, align align=<default>, pen p, bool arrow(picture, path, pen, marginT(path, pen))=<default>, Label[] legend=<default>, marker marker=<default>, path pathModifier(path)=<default>); -void draw(picture pic=<default>, Label L=<default>, circle c, align align=<default>, pen p=<default>, bool arrow(picture, path, pen, marginT(path, pen))=<default>, bool bar(picture, path, pen, marginT(path, pen))=<default>, marginT margin(path, pen)=<default>, Label legend=<default>, marker marker=<default>); -void draw(picture pic=<default>, Label L=<default>, ellipse el, align align=<default>, pen p=<default>, bool arrow(picture, path, pen, marginT(path, pen))=<default>, bool bar(picture, path, pen, marginT(path, pen))=<default>, marginT margin(path, pen)=<default>, Label legend=<default>, marker marker=<default>); -void draw(picture pic=<default>, Label L=<default>, parabola parabola, align align=<default>, pen p=<default>, bool arrow(picture, path, pen, marginT(path, pen))=<default>, bool bar(picture, path, pen, marginT(path, pen))=<default>, marginT margin(path, pen)=<default>, Label legend=<default>, marker marker=<default>); -void draw(picture pic=<default>, Label L=<default>, hyperbola h, align align=<default>, pen p=<default>, bool arrow(picture, path, pen, marginT(path, pen))=<default>, bool bar(picture, path, pen, marginT(path, pen))=<default>, marginT margin(path, pen)=<default>, Label legend=<default>, marker marker=<default>); -void draw(picture pic=<default>, Label L=<default>, explicit conic co, align align=<default>, pen p=<default>, bool arrow(picture, path, pen, marginT(path, pen))=<default>, bool bar(picture, path, pen, marginT(path, pen))=<default>, marginT margin(path, pen)=<default>, Label legend=<default>, marker marker=<default>); -void draw(picture pic=<default>, Label L=<default>, arc a, align align=<default>, pen p=<default>, bool arrow(picture, path, pen, marginT(path, pen))=<default>, bool bar(picture, path, pen, marginT(path, pen))=<default>, marginT margin(path, pen)=<default>, Label legend=<default>, marker marker=<default>); -void draw(picture pic=<default>, triangle t, pen p=<default>, marker marker=<default>); -void draw(picture pic=<default>, triangle[] t, pen p=<default>, marker marker=<default>); -point[] standardizecoordsys(coordsys R=<default>, bool warn=<default> ... point[] M); -coordsys defaultcoordsys; -string defaultmassformat; -line radicalline(circle c1, circle c2); -point radicalcenter(circle c1, circle c2); -point radicalcenter(circle c1, circle c2, circle c3); -ellipse ellipse(point F1, point F2, real a); -ellipse ellipse(point F1, point F2, point M); -ellipse ellipse(point C, real a, real b, real angle=<default>); -ellipse ellipse(bqe bqe); -ellipse ellipse(point M1, point M2, point M3, point M4, point M5); -path arctopath(arc a, int n); -bool inside(ellipse el, point M); -bool inside(parabola p, point M); -int ellipsenodesnumber(real a, real b); -int ellipsenodesnumber(real a, real b, real angle1, real angle2, bool dir); -int ellipsenodesnumberfactor; -bool byfoci; -transform reflect(line l); -transform reflect(line l1, line l2, bool safe=<default>); -abscissa relabscissa(real x); -abscissa relabscissa(int x); -abscissa relabscissa(line l, point M); -abscissa relabscissa(circle c, point M); -abscissa relabscissa(ellipse el, point M); -abscissa relabscissa(conic co, point M); -abscissa relabscissa(arc a, point M); -circle incircle(point A, point B, point C); -circle incircle(triangle t); -mass masscenter(... mass[] M); -vector unit(point M); -vector unit(vector u); -line Ox(coordsys R=<default>); -line Ox; -conic conic(point F, line l, real e); -conic conic(point M1, point M2, point M3, point M4, point M5); -conic conic(bqe bqe); -bool defined(point P); -string conictype(bqe bqe); -triangle antipedal(triangle t, point M); -void clipdraw(picture pic=<default>, Label L=<default>, path g, align align=<default>, pen p=<default>, bool arrow(picture, path, pen, marginT(path, pen))=<default>, bool bar(picture, path, pen, marginT(path, pen))=<default>, real xmargin=<default>, real ymargin=<default>, Label legend=<default>, marker marker=<default>); -real perpfactor; -int conicnodesfactor; -int conicnodesnumber(conic co, real angle1, real angle2, bool dir=<default>); -line hline(coordsys R=<default>); -line hline; -int[] tricoef(side side); -path arcfromfocus(conic co, real angle1, real angle2, int n=<default>, bool direction=<default>); -line sector(int n=<default>, int p=<default>, line l1, line l2, real angle=<default>, bool sharp=<default>); -path arcfromcenter(ellipse el, real angle1, real angle2, bool direction=<default>, int n=<default>); -path arcfromcenter(hyperbola h, real angle1, real angle2, int n=<default>, bool direction=<default>); -path arcfromcenter(explicit conic co, real angle1, real angle2, int n, bool direction=<default>); -line vline(coordsys R=<default>); -line vline; -vector vector(coordsys R=<default>, pair v); -vector vector(point M); -real[] intersect(path g, explicit pair p, real fuzz=<default>); -real[] intersect(path g, explicit point P, real fuzz=<default>); -int sgnd(real x); -int sgnd(int x); -circle excircle(point A, point B, point C); -circle excircle(side side); -line extend(line l); -point intersectionpoint(line l1, line l2); -pair[] intersectionpoints(pair A, pair B, real a, real b, real c, real d, real f, real g); -pair[] intersectionpoints(pair A, pair B, real[] equation); -point[] intersectionpoints(line l, path g); -point[] intersectionpoints(bqe bqe1, bqe bqe2); -point[] intersectionpoints(triangle t, line l, bool extended=<default>); -point[] intersectionpoints(line l, triangle t, bool extended=<default>); -point[] intersectionpoints(line l, circle c); -point[] intersectionpoints(circle c, line l); -point[] intersectionpoints(line l, ellipse el); -point[] intersectionpoints(ellipse el, line l); -point[] intersectionpoints(line l, parabola p); -point[] intersectionpoints(parabola p, line l); -point[] intersectionpoints(line l, hyperbola h); -point[] intersectionpoints(hyperbola h, line l); -point[] intersectionpoints(line l, conic co); -point[] intersectionpoints(conic co, line l); -point[] intersectionpoints(conic co1, conic co2); -point[] intersectionpoints(triangle t, conic co, bool extended=<default>); -point[] intersectionpoints(conic co, triangle t, bool extended=<default>); -point[] intersectionpoints(ellipse a, ellipse b); -point[] intersectionpoints(ellipse a, circle b); -point[] intersectionpoints(circle a, ellipse b); -point[] intersectionpoints(ellipse a, parabola b); -point[] intersectionpoints(parabola a, ellipse b); -point[] intersectionpoints(ellipse a, hyperbola b); -point[] intersectionpoints(hyperbola a, ellipse b); -point[] intersectionpoints(circle a, parabola b); -point[] intersectionpoints(parabola a, circle b); -point[] intersectionpoints(circle a, hyperbola b); -point[] intersectionpoints(hyperbola a, circle b); -point[] intersectionpoints(parabola a, parabola b); -point[] intersectionpoints(parabola a, hyperbola b); -point[] intersectionpoints(hyperbola a, parabola b); -point[] intersectionpoints(hyperbola a, hyperbola b); -point[] intersectionpoints(circle c1, circle c2); -point[] intersectionpoints(conic co, arc a); -point[] intersectionpoints(arc a, conic co); -point[] intersectionpoints(arc a1, arc a2); -point[] intersectionpoints(line l, arc a); -point[] intersectionpoints(arc a, line l); -point intouch(side side); -triangle intouch(triangle t); -point orthocentercenter(point A, point B, point C); -point orthocentercenter(triangle t); -real rf(real x, real y, real z); -bool concurrent(... line[] l); -bool between(point M, point O, point N); -real inradius(point A, point B, point C); -real inradius(triangle t); -pen addpenline; -pen addpenline(pen p); -pen addpenarc; -pen addpenarc(pen p); -void label(picture pic=<default>, Label L, explicit mass M, align align=<default>, string format=<default>, pen p=<default>, filltype filltype=<default>); -void label(picture pic=<default>, Label L, vertex V, pair align=<default>, real alignFactor=<default>, pen p=<default>, filltype filltype=<default>); -void label(picture pic=<default>, Label LA=<default>, Label LB=<default>, Label LC=<default>, triangle t, real alignAngle=<default>, real alignFactor=<default>, pen p=<default>, filltype filltype=<default>); -real abs(coordsys R, pair m); -real abs(explicit point M); -point curpoint(line l, real x); -point curpoint(explicit circle c, real x); -point curpoint(explicit ellipse el, real x); -point curpoint(explicit parabola p, real x); -point curpoint(conic co, real x); -point curpoint(arc a, real x); -line bisector(line l1, line l2, real angle=<default>, bool sharp=<default>); -line bisector(point A, point B, point C, point D, real angle=<default>, bool sharp=<default>); -line bisector(segment s, real angle=<default>); -line bisector(point A, point B, real angle=<default>); -line bisector(vertex V, real angle=<default>); -line bisector(side side); -bqe canonical(bqe bqe); -point bisectorpoint(side side); -abscissa angabscissa(real x, path polarconicroutine(conic co, real angle1, real angle2, int n, bool direction)=<default>); -abscissa angabscissa(int x, path polarconicroutine(conic co, real angle1, real angle2, int n, bool direction)=<default>); -abscissa angabscissa(circle c, point M); -abscissa angabscissa(ellipse el, point M, path polarconicroutine(conic co, real angle1, real angle2, int n, bool direction)=<default>); -abscissa angabscissa(hyperbola h, point M, path polarconicroutine(conic co, real angle1, real angle2, int n, bool direction)=<default>); -abscissa angabscissa(parabola p, point M); -abscissa angabscissa(explicit conic co, point M); -abscissa angabscissa(arc a, point M); -pair locate(point P); -point locate(pair p); -pair locate(explicit vector v); -bool samecoordsys(bool warn=<default> ... point[] M); -bool samecoordsys(bool warn=<default> ... bqe[] bqes); -triangle extouch(triangle t); -triangle extouch(side side); -coordsys canonicalcartesiansystem(ellipse el); -coordsys canonicalcartesiansystem(parabola p); -coordsys canonicalcartesiansystem(hyperbola h); -coordsys canonicalcartesiansystem(explicit conic co); -arc arc(ellipse el, real angle1, real angle2, path polarconicroutine(conic co, real angle1, real angle2, int n, bool direction)=<default>, bool direction=<default>); -arc arc(ellipse el, explicit abscissa x1, explicit abscissa x2, bool direction=<default>); -arc arc(ellipse el, point M, point N, bool direction=<default>); -arc arc(explicit arc a, abscissa x1, abscissa x2); -arc arc(explicit arc a, point M, point N); -path arc(explicit pair B, explicit pair A, explicit pair C, real r); -void markrightangle(picture pic=<default>, point A, point O, point B, real size=<default>, pen p=<default>, marginT margin(path, pen)=<default>, filltype filltype=<default>); -real epsgeo; -real sharpangle(line l1, line l2); -bool isparabola(bqe bqe); -real sharpdegrees(line l1, line l2); -real exradius(point A, point B, point C); -real exradius(side side); -abscissa nodabscissa(real x); -abscissa nodabscissa(int x); -abscissa nodabscissa(line l, point M); -abscissa nodabscissa(circle c, point M); -abscissa nodabscissa(ellipse el, point M); -abscissa nodabscissa(parabola p, point M); -abscissa nodabscissa(conic co, point M); -abscissa nodabscissa(arc a, point M); -coordsys coordsys(line l); -coordsys coordsys(conic co); -coordsys coordsys(ellipse el); -pair coordinates(point M); -real length(explicit point M); -real length(segment s); -int arcnodesnumber(explicit arc a); -int nodesystem; -bool collinear(vector u, vector v); -point centroid(point A, point B, point C); -point centroid(triangle t); -int angularsystem; -path square(pair z1, pair z2); -point symmedian(triangle t); -point symmedian(side side); -line symmedian(vertex V); -triangle symmedial(triangle t); -int curvilinearsystem; -bqe bqe(coordsys R=<default>, real a, real b, real c, real d, real e, real f); -bqe bqe(point M1, point M2, point M3, point M4, point M5); -arc arccircle(point A, point M, point B); -arc arccircle(point A, point B, real angle, bool direction=<default>); -point relpoint(line l, real x); -point relpoint(explicit circle c, real x); -point relpoint(explicit ellipse el, real x); -point relpoint(explicit parabola p, real x); -point relpoint(explicit hyperbola h, real x); -point relpoint(explicit conic co, explicit real x); -point relpoint(explicit conic co, explicit int x); -point relpoint(arc a, real x); -point changecoordsys(coordsys R, point M); -vector changecoordsys(coordsys R, vector v); -line changecoordsys(coordsys R, line l); -bqe changecoordsys(coordsys R, bqe bqe); -conic changecoordsys(coordsys R, conic co); -real angle(explicit point M, coordsys R=<default>, bool warn=<default>); -real angle(explicit vector v, coordsys R=<default>, bool warn=<default>); -real angle(line l, coordsys R=<default>); -real angle(line l1, line l2); -real angle(arc a); -point[] fermat(triangle t); -real arclength(circle c); -real arclength(ellipse el); -real arclength(ellipse el, real angle1, real angle2, bool direction=<default>, path polarconicroutine(conic co, real angle1, real angle2, int n, bool direction)=<default>); -real arclength(parabola p, real angle); -real arclength(parabola p, real angle1, real angle2); -real arclength(parabola p); -real arclength(arc a); -line reverse(line l); -arc reverse(arc a); -point gergonne(triangle t); -real focusToCenter(ellipse el, real a); -hyperbola hyperbola(point P1, point P2, real ae, bool byfoci=<default>); -hyperbola hyperbola(point C, real a, real b, real angle=<default>); -hyperbola hyperbola(bqe bqe); -hyperbola hyperbola(point M1, point M2, point M3, point M4, point M5); -side opposite(vertex V); -vertex opposite(side side); -int hyperbolanodesnumber(hyperbola h, real angle1, real angle2); -path polarconicroutine(conic co, real angle1, real angle2, int n, bool direction)(conic co); -int hyperbolanodesnumberfactor; -line parallel(point M, line l); -line parallel(point M, explicit vector dir); -line parallel(point M, explicit pair dir); -bool parallel(line l1, line l2, bool strictly=<default>); -transform projection(point A, point B); -transform projection(point A, point B, point C, point D, bool safe=<default>); -transform projection(line l); -transform projection(line l1, line l2, bool safe=<default>); -bool degenerate(conic c); -bool degenerate(circle c); -bool degenerate(ellipse el); -line line(point A, bool extendA=<default>, point B, bool extendB=<default>); -line line(segment s); -line line(real a, point A=<default>); -line line(point A=<default>, real a); -line line(int a, point A=<default>); -line line(coordsys R=<default>, real slope, real origin); -line line(coordsys R=<default>, real a, real b, real c); -line line(circle c); -line line(explicit side side); -line complementary(explicit line l); -line[] complementary(explicit segment s); -arc complementary(arc a); -point ppoint(arc a, real x); -path fromFocus(conic co, real angle1, real angle2, int n, bool direction); -bool sameside(point M, point N, point O); -bool sameside(point M, point P, line l); -point[] sameside(point M, line l1, line l2); -arc arcsubtended(point A, point B, real angle); -void distance(picture pic=<default>, Label L=<default>, point A, point B, bool rotated=<default>, real offset=<default>, pen p=<default>, pen joinpen=<default>, bool arrow(picture, path, pen, marginT(path, pen))=<default>); -real distance(point M, line l); -real distance(line l, point M); -point incenter(point A, point B, point C); -point incenter(triangle t); -void write(explicit line l); -void write(explicit segment s); -void write(trilinear tri); -triangle incentral(triangle t); -point arcsubtendedcenter(point A, point B, real angle); -circle circle(explicit point C, real r); -circle circle(point A, point B); -circle circle(segment s); -circle circle(point A, point B, point C); -circle circle(triangle t); -circle circle(inversion i); -point angpoint(conic co, real angle); -point angpoint(explicit circle c, real x); -point angpoint(explicit ellipse el, real x, path polarconicroutine(conic co, real angle1, real angle2, int n, bool direction)=<default>); -point angpoint(explicit parabola p, real x); -point angpoint(explicit hyperbola h, real x, path polarconicroutine(conic co, real angle1, real angle2, int n, bool direction)=<default>); -point angpoint(arc a, real angle); -triangle orthic(triangle t); -int circlenodesnumber(real r); -int circlenodesnumber(real r, real angle1, real angle2); -segment segment(point A, point B); -segment segment(line l); -segment segment(explicit side side); -path compassmark(pair O, pair A, real position, real angle=<default>); -bool byvertices; -int circlenodesnumberfactor; -transform xscale(real k, point M); -transform yscale(real k, point M); -transform scale(real k, point M); -transform scale(real k, point A, point B, point C, point D, bool safe=<default>); -transform scale(real k, line l1, line l2, bool safe=<default>); -point operator +(explicit point P1, explicit point P2); -point operator +(explicit point P1, explicit pair p2); -point operator +(explicit pair p1, explicit point p2); -point operator +(point M, explicit vector v); -point operator +(explicit pair m, explicit vector v); -vector operator +(explicit vector v1, explicit vector v2); -line operator +(line l, vector u); -conic operator +(conic c, explicit point M); -conic operator +(conic c, explicit pair m); -conic operator +(conic c, vector v); -circle operator +(explicit circle c, explicit point M); -circle operator +(explicit circle c, pair m); -circle operator +(explicit circle c, vector m); -abscissa operator +(real x, explicit abscissa a); -abscissa operator +(explicit abscissa a, real x); -abscissa operator +(int x, explicit abscissa a); -arc operator +(explicit arc a, point M); -arc operator +(explicit arc a, vector v); -mass operator +(mass M1, mass M2); -mass operator +(explicit mass M, real x); -mass operator +(explicit mass M, int x); -point operator -(explicit point P); -point operator -(explicit point P1, explicit point P2); -point operator -(explicit point P1, explicit pair p2); -point operator -(explicit pair p1, explicit point P2); -point operator -(point M, explicit vector v); -vector operator -(explicit vector v); -point operator -(explicit pair m, explicit vector v); -vector operator -(explicit vector v1, explicit vector v2); -line operator -(line l, vector u); -conic operator -(conic c, explicit point M); -conic operator -(conic c, explicit pair m); -conic operator -(conic c, vector v); -circle operator -(explicit circle c, explicit point M); -circle operator -(explicit circle c, pair m); -circle operator -(explicit circle c, vector m); -abscissa operator -(explicit abscissa a); -abscissa operator -(real x, explicit abscissa a); -abscissa operator -(explicit abscissa a, real x); -abscissa operator -(int x, explicit abscissa a); -arc operator -(explicit arc a, point M); -arc operator -(explicit arc a, vector v); -mass operator -(mass M1, mass M2); -mass operator -(explicit mass M, real x); -mass operator -(explicit mass M, int x); -transform xscaleO(real x); -pair operator *(coordsys R, pair p); -path operator *(coordsys R, path g); -coordsys operator *(transform t, coordsys R); -point operator *(real x, explicit point P); -point operator *(transform t, explicit point P); -point operator *(explicit point P1, explicit point P2); -point operator *(explicit point P1, explicit pair p2); -point operator *(explicit pair p1, explicit point p2); -vector operator *(real x, explicit vector v); -vector operator *(transform t, explicit vector v); -vector operator *(explicit point M, explicit vector v); -line operator *(transform t, line l); -line operator *(real x, line l); -line operator *(int x, line l); -line operator *(point M, line l); -circle operator *(real x, explicit circle c); -circle operator *(int x, explicit circle c); -ellipse operator *(transform t, ellipse el); -parabola operator *(transform t, parabola p); -ellipse operator *(transform t, circle c); -hyperbola operator *(transform t, hyperbola h); -conic operator *(transform t, conic co); -ellipse operator *(real x, ellipse el); -abscissa operator *(real x, explicit abscissa a); -abscissa operator *(explicit abscissa a, real x); -arc operator *(transform t, explicit arc a); -arc operator *(real x, explicit arc a); -arc operator *(int x, explicit arc a); -mass operator *(real x, explicit mass M); -mass operator *(int x, explicit mass M); -mass operator *(transform t, mass M); -triangle operator *(transform T, triangle t); -point operator *(inversion i, point P); -circle operator *(inversion i, line l); -circle operator *(inversion i, circle c); -arc operator *(inversion i, segment s); -path operator *(inversion i, triangle t); -transform yscaleO(real x); -coordsys operator init(); -point operator init(); -vector operator init(); -line operator init(); -segment operator init(); -bqe operator init(); -conic operator init(); -circle operator init(); -ellipse operator init(); -parabola operator init(); -hyperbola operator init(); -abscissa operator init(); -arc operator init(); -mass operator init(); -triangle operator init(); -trilinear operator init(); -inversion operator init(); -triangle cevian(triangle t, point P); -point cevian(side side, point P); -line cevian(vertex V, point P); -pair operator cast(point P); -pair[] operator cast(point[] P); -point operator cast(pair p); -point[] operator cast(pair[] p); -guide operator cast(point p); -path operator cast(point p); -point operator cast(vector v); -vector operator cast(pair v); -vector operator cast(explicit point v); -pair operator cast(explicit vector v); -align operator cast(vector v); -line operator cast(segment s); -segment operator cast(line l); -ellipse operator cast(circle c); -circle operator cast(ellipse el); -ellipse operator cast(conic co); -parabola operator cast(conic co); -conic operator cast(parabola p); -hyperbola operator cast(conic co); -conic operator cast(hyperbola h); -conic operator cast(ellipse el); -conic operator cast(circle c); -circle operator cast(conic c); -path operator cast(ellipse el); -path operator cast(circle c); -path operator cast(parabola p); -path operator cast(hyperbola h); -path operator cast(conic co); -abscissa operator cast(explicit position position); -abscissa operator cast(real x); -abscissa operator cast(int x); -path operator cast(explicit arc a); -guide operator cast(explicit arc a); -point operator cast(mass m); -mass operator cast(point M); -point[] operator cast(mass[] m); -mass[] operator cast(point[] P); -mass operator cast(pair m); -path operator cast(mass M); -guide operator cast(mass M); -line operator cast(side side); -point operator cast(vertex V); -point operator cast(trilinear tri); -circle operator cast(inversion i); -inversion operator cast(circle c); -void lineinversion(); -pair operator /(pair p, coordsys R); -point operator /(explicit point P, real x); -point operator /(real x, explicit point P); -vector operator /(explicit vector v, real x); -line operator /(line l, real x); -line operator /(line l, int x); -circle operator /(explicit circle c, real x); -circle operator /(explicit circle c, int x); -ellipse operator /(ellipse el, real x); -abscissa operator /(real x, explicit abscissa a); -abscissa operator /(explicit abscissa a, real x); -abscissa operator /(int x, explicit abscissa a); -arc operator /(explicit arc a, real x); -mass operator /(explicit mass M, real x); -mass operator /(explicit mass M, int x); -real operator ^(point M, explicit circle c); -transform scaleO(real x); -bool operator ==(coordsys c1, coordsys c2); -bool operator ==(explicit point M, explicit point N); -bool operator ==(explicit vector u, explicit vector v); -bool operator ==(line l1, line l2); -bool operator !=(explicit point M, explicit point N); -bool operator !=(line l1, line l2); -line[] operator ^^(line l1, line l2); -line[] operator ^^(line l1, line[] l2); -line[] operator ^^(line[] l2, line l1); -line[] operator ^^(line[] l1, line[] l2); -triangle[] operator ^^(triangle[] t1, triangle t2); -triangle[] operator ^^(... triangle[] t); -real elle(real phi, real k); -point excenter(point A, point B, point C); -point excenter(side side); -mass mass(point M, real m); -mass mass(explicit point P); -mass mass(coordsys R, explicit pair p, real m); -bool operator @(point m, line l); -bool operator @(point M, conic co); -bool operator @(point M, explicit circle c); -bool operator @(point M, arc a); -triangle triangle(line l1, line l2, line l3); -trilinear trilinear(triangle t, real a, real b, real c); -trilinear trilinear(triangle t, point M); -trilinear trilinear(triangle t, real f(real, real, real), real a=<default>, real b=<default>, real c=<default>); -triangle triangleAbc(real alpha, real b, real c, real angle=<default>, point A=<default>); -triangle triangleabc(real a, real b, real c, real angle=<default>, point A=<default>); -triangle anticomplementary(triangle t); -vector dir(vertex V); -real degrees(explicit point M, coordsys R=<default>, bool warn=<default>); -real degrees(vector v, coordsys R=<default>, bool warn=<default>); -real degrees(line l, coordsys R=<default>); -real degrees(line l1, line l2); -real degrees(arc a); -real linemargin; -real linemargin(); -line Oy(coordsys R=<default>); -line Oy; -path fromCenter(conic co, real angle1, real angle2, int n, bool direction); -void markarc(picture pic=<default>, Label L=<default>, int n=<default>, real radius=<default>, real space=<default>, arc a, pen sectorpen=<default>, pen markpen=<default>, marginT margin(path, pen)=<default>, bool arrow(picture, path, pen, marginT(path, pen))=<default>, marker marker=<default>); -real approximate(real t); -real[] approximate(real[] T); -void markangle(picture pic=<default>, Label L=<default>, int n=<default>, real radius=<default>, real space=<default>, line l1, line l2, bool arrow(picture, path, pen, marginT(path, pen))=<default>, pen p=<default>, filltype filltype=<default>, marginT margin(path, pen)=<default>, marker marker=<default>); -transform hprojection(line l, bool safe=<default>); -point conj(explicit point M); -vector conj(explicit vector u); -hyperbola conj(hyperbola h); -transform vprojection(line l, bool safe=<default>); -real[] bangles(picture pic=<default>, parabola p); -real[][] bangles(picture pic=<default>, hyperbola h); -parabola parabola(point F, line l); -parabola parabola(point F, point vertex); -parabola parabola(point F, real a, real angle); -parabola parabola(bqe bqe); -parabola parabola(point M1, point M2, point M3, line l); -parabola parabola(point M1, point M2, point M3, point M4, point M5); -bool onpath(picture pic=<default>, path g, point M, pen p=<default>); -int parabolanodesnumber(parabola p, real angle1, real angle2); -int parabolanodesnumberfactor; -path NoModifier(path); -point isogonalconjugate(triangle t, point M); -point isogonal(side side, point M); -line isogonal(vertex V, point M); -triangle isogonal(triangle t, point M); -coordsys currentcoordsys; -point foot(vertex V); -point foot(side side); -path currentpolarconicroutine(conic co, real angle1, real angle2, int n, bool direction); -transform rotate(explicit vector dir); -transform rotate(explicit point dir); -real EPS; -transform rotateO(real a); -pair attract(pair m, path g, real fuzz=<default>); -point attract(point M, path g, real fuzz=<default>); -line perpendicular(point M, line l); -line perpendicular(point M, explicit vector normal); -line perpendicular(point M, explicit pair normal); -bool perpendicular(line l1, line l2); -void perpendicular(picture pic=<default>, pair z, pair align, pair dir=<default>, real size=<default>, pen p=<default>, marginT margin(path, pen)=<default>, filltype filltype=<default>); -void perpendicular(picture pic=<default>, pair z, pair align, path g, real size=<default>, pen p=<default>, marginT margin(path, pen)=<default>, filltype filltype=<default>); -real binomial(real n, real k); -void perpendicularmark(picture pic=<default>, point z, explicit pair align, explicit pair dir=<default>, real size=<default>, pen p=<default>, marginT margin(path, pen)=<default>, filltype filltype=<default>); -void perpendicularmark(picture pic=<default>, point z, vector align, vector dir=<default>, real size=<default>, pen p=<default>, marginT margin(path, pen)=<default>, filltype filltype=<default>); -void perpendicularmark(picture pic=<default>, point z, explicit pair align, path g, real size=<default>, pen p=<default>, marginT margin(path, pen)=<default>, filltype filltype=<default>); -void perpendicularmark(picture pic=<default>, point z, vector align, path g, real size=<default>, pen p=<default>, marginT margin(path, pen)=<default>, filltype filltype=<default>); -void perpendicularmark(picture pic=<default>, line l1, line l2, real size=<default>, pen p=<default>, int quarter=<default>, marginT margin(path, pen)=<default>, filltype filltype=<default>); -void Drawline(picture pic=<default>, Label L=<default>, pair P, bool dirP=<default>, pair Q, bool dirQ=<default>, align align=<default>, pen p=<default>, bool arrow(picture, path, pen, marginT(path, pen))=<default>, Label legend=<default>, marker marker=<default>, path pathModifier(path)=<default>); -bool simeq(point A, point B, real fuzz=<default>); -bool simeq(point a, real b, real fuzz=<default>); -point inverse(real k, point A, point M); -circle inverse(real k, point A, line l); -circle inverse(real k, point A, circle c); -arc inverse(real k, point A, segment s); -inversion inversion(real k, point C); -inversion inversion(point C, real k); -inversion inversion(circle c1, circle c2, real sgn=<default>); -inversion inversion(circle c1, circle c2, circle c3); -inversion inversion(circle c); -coordsys cartesiansystem(pair O=<default>, pair i, pair j); -line tangent(circle c, abscissa x); -line tangent(circle c, point M); -line tangent(circle c, explicit vector v); -line tangent(ellipse el, abscissa x); -line tangent(parabola p, abscissa x); -line tangent(hyperbola h, abscissa x); -line tangent(explicit arc a, abscissa x); -line tangent(explicit arc a, point M); -line[] tangents(circle c, point M); -line[] tangents(ellipse el, point M); -line[] tangents(parabola p, point M); -line[] tangents(hyperbola h, point M); -real centerToFocus(ellipse el, real a); -bqe equation(ellipse el); -bqe equation(parabola p); -bqe equation(hyperbola h); -bqe equation(explicit conic co); -triangle tangential(triangle t); -triangle pedal(triangle t, point M); -line pedal(side side, point M); -string massformat(string format=<default>, string s, mass M); -int relativesystem; -void drawline(picture pic=<default>, triangle t, pen p=<default>); -void addMargins(picture pic=<default>, real lmargin=<default>, real bmargin=<default>, real rmargin=<default>, real tmargin=<default>, bool rigid=<default>, bool allObject=<default>); -triangle medial(triangle t); -line median(vertex V); -line median(side side); -void show(picture pic=<default>, Label lo=<default>, Label li=<default>, Label lj=<default>, coordsys R, pen dotpen=<default>, pen xpen=<default>, pen ypen=<default>, pen ipen=<default>, pen jpen=<default>, bool arrow(picture, path, pen, marginT(path, pen))=<default>); -void show(Label L, vector v, pen p=<default>, bool arrow(picture, path, pen, marginT(path, pen))=<default>); -void show(picture pic=<default>, line l, pen p=<default>); -void show(picture pic=<default>, Label LA=<default>, Label LB=<default>, Label LC=<default>, Label La=<default>, Label Lb=<default>, Label Lc=<default>, triangle t, pen p=<default>, filltype filltype=<default>); -line isotomic(vertex V, point M); -point isotomic(side side, point M); -triangle isotomic(triangle t, point M); -abscissa curabscissa(real x); -abscissa curabscissa(int x); -abscissa curabscissa(line l, point M); -abscissa curabscissa(circle c, point M); -abscissa curabscissa(ellipse el, point M); -abscissa curabscissa(parabola p, point M); -abscissa curabscissa(conic co, point M); -abscissa curabscissa(arc a, point M); -string DefaultFormat(real); -string DefaultLogFormat(real)(int base); -string DefaultLogFormat(real); -guide graph(pair f(real), real, real, int)(guide join(... guide[])); -guide[] graph(pair f(real), real, real, int)(guide join(... guide[]), bool3 cond(real)); -guide graph(picture pic=<default>, real f(real), real a, real b, int n=<default>, real T(real)=<default>, guide join(... guide[])=<default>); -guide[] graph(picture pic=<default>, real f(real), real a, real b, int n=<default>, real T(real)=<default>, bool3 cond(real), guide join(... guide[])=<default>); -guide graph(picture pic=<default>, real x(real), real y(real), real a, real b, int n=<default>, real T(real)=<default>, guide join(... guide[])=<default>); -guide[] graph(picture pic=<default>, real x(real), real y(real), real a, real b, int n=<default>, real T(real)=<default>, bool3 cond(real), guide join(... guide[])=<default>); -guide graph(picture pic=<default>, pair z(real), real a, real b, int n=<default>, real T(real)=<default>, guide join(... guide[])=<default>); -guide[] graph(picture pic=<default>, pair z(real), real a, real b, int n=<default>, real T(real)=<default>, bool3 cond(real), guide join(... guide[])=<default>); -guide graph(picture pic=<default>, pair[] z, guide join(... guide[])=<default>); -guide[] graph(picture pic=<default>, pair[] z, bool3[] cond, guide join(... guide[])=<default>); -guide graph(picture pic=<default>, real[] x, real[] y, guide join(... guide[])=<default>); -guide[] graph(picture pic=<default>, real[] x, real[] y, bool3[] cond, guide join(... guide[])=<default>); -tickvalues OmitTickIntervals(tickvalues)(real[] a, real[] b); -tickvalues OmitTickInterval(tickvalues)(real a, real b); -tickvalues OmitTick(tickvalues)(... real[] x); -scientific scientific(real x); -void Left(picture, axisT)(bool extend=<default>); -void Left(picture, axisT); -autoscaleT defaultS; -void XEquals(picture, axisT)(real x, bool extend=<default>); -void YEquals(picture, axisT)(real y, bool extend=<default>); -string LogFormat(real)(int base); -string LogFormat(real); -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); -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>); -void errorbars(picture pic=<default>, real[] x, real[] y, real[] dpy, bool[] cond=<default>, pen p=<default>, real size=<default>); -void xlimits(picture pic=<default>, real min=<default>, real max=<default>, bool crop=<default>); -string conditionlength; -void ylimits(picture pic=<default>, real min=<default>, real max=<default>, bool crop=<default>); -tickvalues None(tickvalues v); -scaleT Logarithmic; -void limits(picture pic=<default>, pair min, pair max, bool crop=<default>); -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); -guide Straight(... guide[]); -int Min; -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 trailingzero; -void label(picture pic, Label L, pair z, real x, align align, string format, pen p); -void labelx(picture pic=<default>, Label L=<default>, explicit pair z, align align=<default>, string format=<default>, pen p=<default>); -void labelx(picture pic=<default>, Label L=<default>, real x, align align=<default>, string format=<default>, pen p=<default>); -void labelx(picture pic=<default>, Label L, string format=<default>, explicit pen p=<default>); -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>); -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 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 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>); -picture secondaryX(picture primary=<default>, void f(picture)); -picture secondaryY(picture primary=<default>, void f(picture)); -Label Break; -tickvalues Break(tickvalues)(real, real); -scaleT Linear; -scaleT Linear(bool automin=<default>, bool automax=<default>, real s=<default>, real intercept=<default>); -pair tickMin(picture pic); -pair tickMax(picture pic); -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); -string Format(real)(string s=<default>); -guide polargraph(picture pic=<default>, real r(real), real a, real b, int n=<default>, guide join(... guide[])=<default>); -guide polargraph(picture pic=<default>, real[] r, real[] theta, guide join(... guide[])=<default>); -void LeftTicks(frame, transform, Label, pair, path, path, pen, bool(picture, path, pen, marginT(path, pen)), marginT(path, pen), ticklocate, int[], bool opposite=<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 LeftTicks(frame, transform, Label, pair, path, path, pen, bool(picture, path, pen, marginT(path, pen)), marginT(path, pen), ticklocate, int[], bool opposite=<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 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); -guide Hermite(... guide[])(real[] splinetype(real[], real[])); -guide Hermite(... guide[]); -path Circle(pair c, real r, int n=<default>); -bool axiscoverage(int N, transform T, path g, ticklocate locate, real Step, pair side, int sign, real Size, Label F, string ticklabel(real), real norm, real limit); -scaleT Broken(real a, real b, bool automin=<default>, bool automax=<default>); -scaleT BrokenLog(real a, real b, bool automin=<default>, bool automax=<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>)(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 Ticks(frame, transform, Label, pair, path, path, pen, bool(picture, path, pen, marginT(path, pen)), marginT(path, pen), ticklocate, int[], bool opposite=<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>); -void Ticks(frame, transform, Label, pair, path, path, pen, bool(picture, path, pen, marginT(path, pen)), marginT(path, pen), ticklocate, int[], bool opposite=<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 Ticks(frame, transform, Label, pair, path, path, pen, bool(picture, path, pen, marginT(path, pen)), marginT(path, pen), ticklocate, int[], bool opposite=<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 Ticks(frame, transform, Label, pair, path, path, pen, bool(picture, path, pen, marginT(path, pen)), marginT(path, pen), ticklocate, int[], bool opposite=<default>); -string noprimary; -void xequals(picture pic=<default>, Label L=<default>, real x, bool extend=<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>); -void yequals(picture pic=<default>, Label L=<default>, real y, bool extend=<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>); -pair Scale(picture pic=<default>, pair z); -real ScaleX(picture pic=<default>, real x); -real ScaleY(picture pic=<default>, real y); -tickvalues generateticks(int sign, Label F=<default>, string ticklabel(real)=<default>, int N, int n=<default>, real Step=<default>, real step=<default>, real Size=<default>, real size=<default>, transform T, pair side, path g, real limit, pen p, ticklocate locate, int[] divisor, bool opposite); -void checkconditionlength(int x, int y); -real xtrans(transform t, real x); -void Top(picture, axisT)(bool extend=<default>); -void Top(picture, axisT); -path[] segment(pair[] z, bool[] cond, guide join(... guide[])=<default>); -real ytrans(transform t, real y); -void scale(picture pic=<default>, scaleT x, scaleT y=<default>, scaleT z=<default>); -void scale(picture pic=<default>, bool xautoscale=<default>, bool yautoscale=<default>, bool zautoscale=<default>); -int[] divisors(int a, int b); -scientific operator init(); -bounds operator init(); -ticklocate operator init(); -locateT operator init(); -tickvalues operator init(); -axisT operator init(); -int Both; -void axes(picture pic=<default>, Label xlabel=<default>, Label ylabel=<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; -ticklocate ticklocate(real a, real b, autoscaleT S=<default>, real tickmin=<default>, real tickmax=<default>, real time(real)=<default>, pair dir(real)=<default>); -pair ticklabelshift(pair align, pen p=<default>); -pair zero(real); -void Bottom(picture, axisT)(bool extend=<default>); -void Bottom(picture, axisT); -void BottomTop(picture, axisT)(bool extend=<default>); -void BottomTop(picture, axisT); -real zerotickfuzz; -real upscale(real b, real a); -bool logaxiscoverage(int N, transform T, path g, ticklocate locate, pair side, int sign, real Size, Label F, string ticklabel(real), real limit, int first, int last); -string baselinetemplate; -void NoTicks(frame, transform, Label, pair, path, path, pen, bool(picture, path, pen, marginT(path, pen)), marginT(path, pen), ticklocate, int[], bool opposite=<default>)(); -void NoTicks(frame, transform, Label, pair, path, path, pen, bool(picture, path, pen, marginT(path, pen)), marginT(path, pen), ticklocate, int[], bool opposite=<default>); -void tick(picture pic=<default>, pair z, pair dir, real size=<default>, pen p=<default>); -void tick(picture pic=<default>, Label L, real value, explicit pair z, pair dir, string format=<default>, real size=<default>, pen p=<default>); -int Value; -scaleT Log; -scaleT Log(bool automin=<default>, bool automax=<default>); -void Right(picture, axisT)(bool extend=<default>); -void Right(picture, axisT); -void RightTicks(frame, transform, Label, pair, path, path, pen, bool(picture, path, pen, marginT(path, pen)), marginT(path, pen), ticklocate, int[], bool opposite=<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 RightTicks(frame, transform, Label, pair, path, path, pen, bool(picture, path, pen, marginT(path, pen)), marginT(path, pen), ticklocate, int[], bool opposite=<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 RightTicks(frame, transform, Label, pair, path, path, pen, bool(picture, path, pen, marginT(path, pen)), marginT(path, pen), ticklocate, int[], bool opposite=<default>); -int Max; -void XZero(picture, axisT)(bool extend=<default>); -void XZero(picture, axisT); -void YZero(picture, axisT)(bool extend=<default>); -void YZero(picture, axisT); -bounds autoscale(real Min, real Max, scaleT scale=<default>); -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>); -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>, 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>, real y, 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 ztick(picture pic=<default>, triple v, triple dir=<default>, real size=<default>, pen p=<default>); -void ztick(picture pic=<default>, real z, 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 ytick3(picture pic=<default>, Label L, real y, triple dir=<default>, string format=<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; -real axiscoverage; -real Ticksize; -bool NoCrop; -real ticksize; -int nCircle; -int nmesh; -real ylabelwidth; -real axislabelfactor; -real[] clamped(real[], real[])(real slopea, real slopeb); -real[] natural(real[] x, real[] y); -real[] monotonic(real[] x, real[] y); -real[] notaknot(real[] x, real[] y); -real[] linear(real[] x, real[] y); -string morepoints; -guide hermite(real[] x, real[] y, real[] splinetype(real[], real[])=<default>); -void checklengths(int x, int y, string text=<default>); -void checkincreasing(real[] x); -real[] periodic(real[] x, real[] y); -string differentlengths; -real[] Spline(real[] x, real[] y); -real[](real[], real[])[] Spline; -grid3(picture pic)[] YXYgrid(position pos=<default>); -grid3(picture pic)[] YXYgrid; -grid3 operator init(); -ticksgridT operator init(); -grid3(picture pic)[] operator cast(grid3 gridroutine(picture pic)); -grid3(picture pic)[][] operator cast(grid3(picture pic)[] gridroutine); -grid3(picture pic)[][] operator cast(grid3 gridroutine(picture pic)); -triple X(picture pic); -triple Y(picture pic); -triple Z(picture pic); -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; -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 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>); -triple YZ(picture pic); -grid3(picture pic)[] XZXgrid(position pos=<default>); -grid3(picture pic)[] XZXgrid; -triple ZX(picture pic); -grid3(picture pic)[] ZXZgrid(position pos=<default>); -grid3(picture pic)[] ZXZgrid; -position top; -ticksgridT InTicks()(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>); -ticksgridT InOutTicks()(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>); -grid3(picture pic)[] YX_YZgrid(position posa=<default>, position posb=<default>); -grid3(picture pic)[] YX_YZgrid; -position bottom; -grid3 YXgrid(picture pic)(position pos=<default>); -grid3 YXgrid(picture pic); -grid3 ZXgrid(picture pic)(position pos=<default>); -grid3 ZXgrid(picture pic); -grid3 XZgrid(picture pic)(position pos=<default>); -grid3 XZgrid(picture pic); -grid3 YZgrid(picture pic)(position pos=<default>); -grid3 YZgrid(picture pic); -position middle; -triple XY(picture pic); -grid3(picture pic)[][] XYZgrid(position pos=<default>); -grid3(picture pic)[][] XYZgrid; -grid3(picture pic)[] ZYZgrid(position pos=<default>); -grid3(picture pic)[] ZYZgrid; -grid3(picture pic)[] YZYgrid(position pos=<default>); -grid3(picture pic)[] YZYgrid; -real fspline(real)(real[] x, real[] y, real[] splinetype(real[], real[])=<default>); -real pwhermite(real)(real[] x, real[] y, real[] dy); -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); -string[] lm_infmsg; -FitControl defaultControl; -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); -real LM_MACHEP; -real LM_SQRT_DWARF; -real LM_SQRT_GIANT; -void lm_lmpar(int n, real[] r, int ldr, int[] ipvt, real[] diag, real[] qtb, real delta, lm_real_type par, real[] x, real[] sdiag, real[] wa1, real[] wa2); -void lm_lmdif(int m, int n, real[] x, real[] fvec, real ftol, real xtol, real gtol, int maxfev, real epsfcn, real[] diag, int mode, real factor, lm_int_type info, lm_int_type nfev, real[] fjac, int[] ipvt, real[] qtf, real[] wa1, real[] wa2, real[] wa3, real[] wa4, void evaluate(real[] par, int m_dat, real[] fvec, lm_data_type data, lm_int_type info), void printout(int n_par, real[] par, int m_dat, real[] fvec, lm_data_type data, int iflag, int iter, int nfev), lm_data_type data); -void lm_minimize(int m_dat, int n_par, real[] par, void evaluate(real[] par, int m_dat, real[] fvec, lm_data_type data, lm_int_type info), void printout(int n_par, real[] par, int m_dat, real[] fvec, lm_data_type data, int iflag, int iter, int nfev), lm_data_type data, lm_control_type control); -FitResult fit(real[] xdata, real[] ydata, real[] errors, real function(real[], real), real[] parameters, FitControl control=<default>); -FitResult fit(real[] xdata, real[] ydata, real function(real[], real), real[] parameters, FitControl control=<default>); -real lm_enorm(int n, real[] x, int offset=<default>); -lm_data_type operator init(); -lm_int_type operator init(); -lm_real_type operator init(); -lm_control_type operator init(); -FitControl operator init(); -FitResult operator init(); -real SQR(real x); -string[] lm_shortmsg; -void lm_evaluate_default(real[] par, int m_dat, real[] fvec, lm_data_type data, lm_int_type info); -string pad(string str, int count, string pad=<default>); -string pad(int num, int digits, string pad=<default>); -string pad(real num, int digits, string pad=<default>); -real LM_USERTOL; -real LM_DWARF; -void lm_print_quiet(int n_par, real[] par, int m_dat, real[] fvec, lm_data_type data, int iflag, int iter, int nfev); -void lm_print_default(int n_par, real[] par, int m_dat, real[] fvec, lm_data_type data, int iflag, int iter, int nfev); -real barmarksize(pen p=<default>); -real barmarksizefactor; -marker CrossIntervalMarker(int i=<default>, int n=<default>, real size=<default>, real space=<default>, real angle=<default>, pair offset=<default>, bool rotated=<default>, pen p=<default>, frame uniform=<default>, bool above=<default>); -marker StickIntervalMarker(int i=<default>, int n=<default>, real size=<default>, real space=<default>, real angle=<default>, pair offset=<default>, bool rotated=<default>, pen p=<default>, frame uniform=<default>, bool above=<default>); -frame crossframe(int n=<default>, real size=<default>, pair space=<default>, real angle=<default>, pair offset=<default>, pen p=<default>); -real crossmarksize(pen p=<default>); -real crossmarksizefactor; -frame stickframe(int n=<default>, real size=<default>, pair space=<default>, real angle=<default>, pair offset=<default>, pen p=<default>); -frame stickframe; -real stickmarksize(pen p=<default>); -real stickmarkspace(pen p=<default>); -real stickmarksizefactor; -real stickmarkspacefactor; -frame duplicate(path g, int n=<default>, pair space=<default>, pen p=<default>); -marker CircleBarIntervalMarker(int i=<default>, int n=<default>, real barsize=<default>, real radius=<default>, real angle=<default>, pair offset=<default>, bool rotated=<default>, pen p=<default>, filltype filltype=<default>, bool circleabove=<default>, frame uniform=<default>, bool above=<default>); -frame circlebarframe(int n=<default>, real barsize=<default>, real radius=<default>, real angle=<default>, pair offset=<default>, pen p=<default>, filltype filltype=<default>, bool above=<default>); -real circlemarkradius(pen p=<default>); -real circlemarkradiusfactor; -marker operator *(transform T, marker m); -marker TildeIntervalMarker(int i=<default>, int n=<default>, real size=<default>, real space=<default>, real angle=<default>, pair offset=<default>, bool rotated=<default>, pen p=<default>, frame uniform=<default>, bool above=<default>); -frame tildeframe(int n=<default>, real size=<default>, pair space=<default>, real angle=<default>, pair offset=<default>, pen p=<default>); -frame tildeframe; -real tildemarksize(pen p=<default>); -real tildemarksizefactor; -void markangle(picture pic=<default>, Label L=<default>, int n=<default>, real radius=<default>, real space=<default>, pair A, pair O, pair B, bool arrow(picture, path, pen, marginT(path, pen))=<default>, pen p=<default>, filltype filltype=<default>, marginT margin(path, pen)=<default>, marker marker=<default>); -real markanglespace(pen p=<default>); -real markanglespace; -real markangleradius(pen p=<default>); -real markangleradius; -real markanglespacefactor; -real markangleradiusfactor; -void markinterval(picture pic=<default>, frame f, path g)(int n=<default>, frame f, bool rotated=<default>); -real[] partialsum(real[] a); -real[] partialsum(real[] a, real[] dx); -int[] partialsum(int[] a); -int[] partialsum(int[] a, int[] dx); -real cot(real x); -int unique(real[] a, real x); -int unique(string[] a, string x); -int quadrant(real degrees); -pair exp(explicit pair z); -string nopoint; -real intersect(pair p, pair q, pair z); -real intersect(triple P, triple Q, triple n, triple Z); -real interpolate(real[] x, real[] y, real x0, int i); -real interpolate(real[] x, real[] y, real x0); -triple intersectionpoint(triple n0, triple P0, triple n1, triple P1); -pair[] quarticroots(real a, real b, real c, real d, real e); -bool lexorder(pair a, pair b); -bool lexorder(triple a, triple b); -bool square(real[][] m); -real sec(real x); -bool rectangular(real[][] m); -bool rectangular(pair[][] m); -bool rectangular(triple[][] m); -bool polygon(path p); -pair unityroot(int n, int k=<default>); -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>); -int[][] segment(bool[] b); -picture grid(int Nx, int Ny, pen p=<default>); -real frac(real x); -real asec(real x); -real time(path g, real x, int n=<default>); -real time(path g, explicit pair z, int n=<default>); -bool increasing(real[] a, bool strict=<default>); -real[] zero(int n); -real[][] zero(int n, int m); -real acsc(real x); -real value(path g, real x, int n=<default>); -real value(path g, explicit pair z, int n=<default>); -real csc(real x); -pair log(explicit pair z); -void drawline(picture pic=<default>, pair P, pair Q, pen p=<default>); -path cutbefore(path p, path q); -path cutafter(path p, path q); -path cuttings; -void draw(picture pic=<default>, obj o, light light=<default>); -obj operator *(real[][] T, obj o); -obj operator init(); -real[][] finiteDifferenceJacobian(real[] f(real[]), real[] t, real[] h=<default>); -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[] 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); -real phi1(real x); -RKTableau RK3; -void expfactors(real x, coefficients a); -real phi2(real x); -void report(real old, real h, real t); -real[] solveBVP(real[] f(real, real[]), 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>, real[] initial(real[]), real[] discrepancy(real[]), real[] guess, int iterations=<default>); -RKTableau Euler; -RKTableau E_PC; -RKTableau RK2; -real phi3(real x); -void write(solution S); -void write(Solution S); -coefficients operator init(); -RKTableau operator init(); -solution operator init(); -Solution operator init(); -RKTableau E_RK2; -RKTableau RK3BS; -RKTableau RK5F; -real adjust(real h, real error, real tolmin, real tolmax, RKTableau tableau); -RKTableau RK5DP; -real[] Coeff; -RKTableau PC; -RKTableau E_RK3BS; -pen[] Grayscale(int NColors=<default>); -pen[] Wheel(int NColors=<default>); -void image(frame f, real[][] data, pair initial, pair final, pen[] palette, bool transpose=<default>, transform t=<default>, bool copy=<default>, bool antialias=<default>); -void image(frame f, pen[][] data, pair initial, pair final, bool transpose=<default>, transform t=<default>, bool copy=<default>, bool antialias=<default>); -bounds image(picture pic=<default>, real[][] f, bounds range(picture pic, real min, real max)=<default>, pair initial, pair final, pen[] palette, bool transpose=<default>, bool copy=<default>, bool antialias=<default>); -bounds image(picture pic=<default>, real f(real, real), bounds range(picture pic, real min, real max)=<default>, pair initial, pair final, int nx=<default>, int ny=<default>, pen[] palette, bool antialias=<default>); -void image(picture pic=<default>, pen[][] data, pair initial, pair final, bool transpose=<default>, bool copy=<default>, bool antialias=<default>); -void image(picture pic=<default>, pen f(int, int), int width, int height, pair initial, pair final, bool transpose=<default>, bool antialias=<default>); -bounds image(picture pic=<default>, pair[] z, real[] f, bounds range(picture pic, real min, real max)=<default>, pen[] palette); -bounds image(picture pic=<default>, real[] x, real[] y, real[] f, bounds range(picture pic, real min, real max)=<default>, pen[] palette); -pen[] cmyk(pen[] Palette); -pen[] BWRainbow(int NColors, bool two); -pen[] BWRainbow(int NColors=<default>); -pen[] BWRainbow2(int NColors=<default>); -transform swap; -bounds Automatic(picture pic, real min, real max); -real[] sequencereal; -pen[] Rainbow(int NColors=<default>); -pen[] adjust(picture pic, real min, real max, real rmin, real rmax, pen[] palette); -pen[] Gradient(int NColors=<default> ... pen[] p); -pen[] quantize(pen[] Palette, int n); -bounds Range(picture pic, real min, real max)(bool automin=<default>, real min=<default>, bool automax=<default>, real max=<default>); -bounds Full(picture pic, real min, real max); -void PaletteTicks(frame, transform, Label, pair, path, path, pen, bool(picture, path, pen, marginT(path, pen)), marginT(path, pen), ticklocate, int[], bool opposite=<default>)(int sign=<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>, pen pTick=<default>, pen ptick=<default>); -void PaletteTicks(frame, transform, Label, pair, path, path, pen, bool(picture, path, pen, marginT(path, pen)), marginT(path, pen), ticklocate, int[], bool opposite=<default>)(int sign=<default>); -pen[] palette(real[] f, pen[] palette); -pen[][] palette(real[][] f, pen[] palette); -void palette(picture pic=<default>, Label L=<default>, bounds bounds, pair initial, pair final, void axis(picture, axisT)=<default>, pen[] palette, 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>)(int sign=<default>)=<default>, bool copy=<default>, bool antialias=<default>); -picture brick(real Hx=<default>, real Hy=<default>, pen p=<default>); -picture crosshatch(real H=<default>, pen p=<default>); -picture hatch(real H=<default>, pair dir=<default>, pen p=<default>); -real hatchepsilon; -picture checker(real Hx=<default>, real Hy=<default>, pen p=<default>); -void add(string name, picture pic, pair lb=<default>, pair rt=<default>); -frame tiling(string name, picture pic, pair lb=<default>, pair rt=<default>); -picture tile(real Hx=<default>, real Hy=<default>, pen p=<default>, filltype filltype=<default>); -void grestore(picture pic=<default>); -void gsave(picture pic=<default>); -pair align; -pen textpen; -path roundedpath(path A, real R, real S=<default>); -problem operator init(); -real infinity; -pen authorpen; -void display(frame[] f, real margin=<default>, pair align=<default>, pen p=<default>, pen figuremattpen=<default>, bool final=<default>); -void display(frame f, real margin=<default>, pair align=<default>, pen p=<default>, pen figuremattpen=<default>, bool final=<default>); -void display(string[] s, real margin=<default>, string[] captions=<default>, string caption=<default>, pair align=<default>, pen p=<default>, pen figuremattpen=<default>, bool final=<default>); -void display(string s, string caption=<default>, pair align=<default>, pen p=<default>, pen figuremattpen=<default>, bool final=<default>); -void multifigure(string[] slist, string options=<default>, string caption=<default>, pair align=<default>, pen p=<default>, pen figuremattpen=<default>, bool step=<default>); -void subitem(string s, pen p=<default>); -pen pagenumberpen; -pair pagenumberalign; -pair pagenumberposition; -void indexedfigure(string prefix, int first, int last, string options=<default>, string caption=<default>, pair align=<default>, pen p=<default>, pen figuremattpen=<default>, bool step=<default>); -string texcolor(pen p); -int page; -void color(string name, string color); -pen foregroundcolor; -void bibliography(string name); -void bibliographystyle(string name); -int[] lastnode; -void asyfigure(string s, string options=<default>, string caption=<default>, pair align=<default>, pen p=<default>, pen figuremattpen=<default>, filltype filltype=<default>, bool newslide=<default>); -void asyfilecode(bool center=<default>, string s, string options=<default>, string caption=<default>, pair align=<default>, pen p=<default>, pen figuremattpen=<default>, real indent=<default>, real skip=<default>, filltype filltype=<default>, bool newslide=<default>); -bool itemstep; -real itemskip; -void remark(bool center=<default>, string s, pair align=<default>, pen p=<default>, real indent=<default>, bool minipage=<default>, real skip=<default>, filltype filltype=<default>, bool step=<default>); -void usersetting(); -void nextpage(pen p=<default>); -bool landscape; -void filecode(bool center=<default>, string s, pen p=<default>, real indent=<default>, real skip=<default>, filltype filltype=<default>); -real codeskip; -void newslide(bool stepping=<default>); -pen itempen; -bool reverse; -void reversevideo(); -void vbox(string s, pen p=<default>); -void asycode(bool center=<default>, string s, string options=<default>, string caption=<default>, string preamble=<default>, pair align=<default>, pen p=<default>, pen figuremattpen=<default>, real indent=<default>, real skip=<default>, filltype filltype=<default>, bool newslide=<default>); -void exitfunction(); -bool havepagenumber; -real pageheight; -real pagewidth; -picture background; -void background(); -pen backgroundcolor; -void normalvideo(); -void title(string s, pair position=<default>, pair align=<default>, pen p=<default>, bool newslide=<default>); -pen titlepen; -real titleskip; -pair dateskip; -pair titlealign; -pen titlepagepen; -void titlepage(string title, string author, string institution=<default>, string date=<default>, string url=<default>, bool newslide=<default>); -pair titlepageposition; -pen codepen; -void item(string s, pen p=<default>, bool step=<default>); -void erasestep(int erasenode); -bool checkposition(); -void setpens(pen red=<default>, pen blue=<default>, pen steppen=<default>); -void code(bool center=<default>, string s, pen p=<default>, real indent=<default>, real skip=<default>, filltype filltype=<default>); -transform tinv; -pair urlskip; -void numberpage(pen p=<default>); -pen urlpen; -string cropcode(string s); -int[] firstnode; -bool firststep; -string asywrite(string s, string preamble=<default>); -pair startposition; -string oldbulletcolor; -bool allowstepping; -pair currentposition; -string newbulletcolor; -pen datepen; -void incrementposition(pair z); -pen institutionpen; -void skip(real n=<default>); -bool stepping; -real pagemargin; -pen steppagenumberpen; -bool empty(); -void currentexitfunction(); -void step(); -string[] codefile; -void outline(string s=<default>, pair position=<default>, pair align=<default>, pen p=<default>); -void center(string s, pen p=<default>); -void equation(string s, pen p=<default>); -void equations(string s, pen p=<default>); -void asyinclude(string s, real xsize=<default>, real ysize=<default>); -void figure(string[] s, string options=<default>, real margin=<default>, string[] captions=<default>, string caption=<default>, pair align=<default>, pen p=<default>, pen figuremattpen=<default>, bool final=<default>); -void figure(string s, string options=<default>, string caption=<default>, pair align=<default>, pen p=<default>, pen figuremattpen=<default>, bool final=<default>); -real figureborder; -pen figuremattpen; -string bullet; -int preamblenodes; -string bulletcolor(string color); -real minipagewidth; -real minipagemargin; -real stepfraction; -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>); -revolution operator *(real[][] t, revolution r); -skeleton operator init(); -revolution operator init(); -revolution sphere(triple c=<default>, real r, int n=<default>); -path line(path p, path q, real[] t); -surface surface(revolution r, int n=<default>, pen color(int i, real j)=<default>); -void draw(picture pic=<default>, revolution r, int m=<default>, int n=<default>, pen frontpen=<default>, pen backpen=<default>, pen longitudinalpen=<default>, pen longitudinalbackpen=<default>, light light=<default>, string name=<default>, render render=<default>, projection P=<default>); -real[] tangent(path p, path q, bool side); -pen defaultbackpen; -path[] cylinder(path3 base, real h, triple axis=<default>, projection P=<default>); -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>); -real rms(real[] A); -int[] frequency(real[] data, real[] bins); -int[] frequency(real[] data, real a, real b, int n); -int[][] frequency(real[] x, real[] y, real[] xbins, real[] ybins); -int[][] frequency(real[] x, real[] y, pair a, pair b, int nx, int ny=<default>); -int[][] frequency(pair[] z, pair a, pair b, int nx, int ny=<default>); -real mean(real[] A); -int bins(real[] data, int max=<default>); -real stdev(real[] A); -path topbox(pair a, pair b); -path halfbox(pair a, pair b); -real Gaussian(real x, real sigma); -real Gaussian(real x); -pair Gaussrandpair(); -real Gaussrand(); -real variance(real[] A); -real legendmarkersize; -real variancebiased(real[] A); -linefit operator init(); -real skewness(real[] A); -linefit leastsquares(real[] x, real[] y); -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 kurtosis(real[] A); -real kurtosisexcess(real[] A); -pair[] endpoints(guide[] a); -Relation r3; -Braid apply(Relation r, Braid b, int step, int place); -picture tableau(frame[] cards, bool number=<default>); -pair min(pair[] z); -Component bp; -Component phi; -real gapfactor; -Component bm; -Component wye; -Relation operator -(Relation r); -Component operator init(); -Braid operator init(); -Relation operator init(); -Syzygy operator init(); -real hwratio; -Relation r4a; -Relation r4b; -pair max(pair[] z); -pen Orchid; -pen Aquamarine; -pen Magenta; -pen BrickRed; -pen Lavender; -pen CadetBlue; -pen CarnationPink; -pen SpringGreen; -pen MidnightBlue; -pen OliveGreen; -pen Apricot; -pen Cyan; -pen Red; -pen YellowOrange; -pen Maroon; -pen RawSienna; -pen YellowGreen; -pen Mahogany; -pen Gray; -pen Plum; -pen BlueGreen; -pen Cerulean; -pen Blue; -pen BlueViolet; -pen RedOrange; -pen Goldenrod; -pen ForestGreen; -pen BurntOrange; -pen Sepia; -pen Tan; -pen Brown; -pen VioletRed; -pen Violet; -pen RubineRed; -pen TealBlue; -pen White; -pen Purple; -pen Bittersweet; -pen Orange; -pen OrangeRed; -pen Fuchsia; -pen Peach; -pen Thistle; -pen PineGreen; -pen Dandelion; -pen Black; -pen DarkOrchid; -pen NavyBlue; -pen Rhodamine; -pen ProcessBlue; -pen LimeGreen; -pen WildStrawberry; -pen Green; -pen GreenYellow; -pen Emerald; -pen Mulberry; -pen RedViolet; -pen SkyBlue; -pen SeaGreen; -pen Salmon; -pen Periwinkle; -pen Yellow; -pen JungleGreen; -pen CornflowerBlue; -pen RoyalBlue; -pen Melon; -pen RoyalPurple; -pen Turquoise; -int lookup(tree t, int key); -tree newtree(); -void write(file out=<default>, tree t); -tree operator init(); -tree add(tree t, int key, int value); -bool contains(tree t, int key); -real trembleFuzz(); -real trembleAngle; -real trembleRandom; -real trembleFrequency; -tremble operator init(); -real magneticRadius; -real[] sample(path3 g, real r, real relstep=<default>); -path3 roundedpath(path3 A, real r); -int coloredNodes; -int coloredSegments; -surface surface(rmf[] R, real[] t, coloredpath cp, transform T(real), bool cyclic); -surface tube(path3 g, coloredpath section, transform T(real)=<default>, real corner=<default>, real relstep=<default>); -coloredpath operator init(); -coloredpath operator cast(path p); -coloredpath operator cast(guide p); -real degrees(rmf a, rmf b); -string VERSION; -pen Orchid; -pen LemonChiffon; -pen Indigo; -pen Beige; -pen Aquamarine; -pen SlateBlue; -pen SlateGray; -pen Aqua; -pen Magenta; -pen Lavender; -pen CadetBlue; -pen DeepPink; -pen SpringGreen; -pen MidnightBlue; -pen Olive; -pen OliveDrab; -pen Chocolate; -pen Cyan; -pen Gainsboro; -pen Ivory; -pen PapayaWhip; -pen Red; -pen Pink; -pen Maroon; -pen MintCream; -pen YellowGreen; -pen DarkTurquoise; -pen Gray; -pen MediumBlue; -pen MediumOrchid; -pen MediumPurple; -pen MediumSeaGreen; -pen MediumSlateBlue; -pen MediumAquamarine; -pen MediumSpringGreen; -pen MediumTurquoise; -pen MediumVioletRed; -pen Plum; -pen Blue; -pen Gold; -pen Sienna; -pen DarkOliveGreen; -pen DarkOrange; -pen BlueViolet; -pen Goldenrod; -pen ForestGreen; -pen Chartreuse; -pen NavajoWhite; -pen Tan; -pen DarkMagenta; -pen Silver; -pen AntiqueWhite; -pen PaleTurquoise; -pen IndianRed; -pen Crimson; -pen Azure; -pen LawnGreen; -pen Brown; -pen BurlyWood; -pen Moccasin; -pen Violet; -pen DarkBlue; -pen Peru; -pen SandyBrown; -pen White; -pen Purple; -pen WhiteSmoke; -pen DimGray; -pen Orange; -pen OrangeRed; -pen Fuchsia; -pen Thistle; -pen PeachPuff; -pen DeepSkyBlue; -pen Honeydew; -pen Bisque; -pen RosyBrown; -pen Black; -pen Khaki; -pen DarkOrchid; -pen FireBrick; -pen Cornsilk; -pen Snow; -pen LimeGreen; -pen Lime; -pen OldLace; -pen Seashell; -pen Green; -pen GreenYellow; -pen DarkCyan; -pen FloralWhite; -pen GhostWhite; -pen DarkRed; -pen BlanchedAlmond; -pen PowderBlue; -pen DarkGray; -pen DarkGreen; -pen DarkGoldenrod; -pen SkyBlue; -pen SeaGreen; -pen DarkViolet; -pen Teal; -pen Salmon; -pen AliceBlue; -pen LavenderBlush; -pen HotPink; -pen Wheat; -pen DodgerBlue; -pen SaddleBrown; -pen Tomato; -pen DarkKhaki; -pen LightBlue; -pen LightCoral; -pen LightCyan; -pen Yellow; -pen SteelBlue; -pen LightGreen; -pen PaleGreen; -pen Linen; -pen LightGoldenrodYellow; -pen LightGrey; -pen LightPink; -pen PaleGoldenrod; -pen LightSalmon; -pen LightSeaGreen; -pen Navy; -pen LightSkyBlue; -pen LightSlateGray; -pen PaleVioletRed; -pen LightSteelBlue; -pen LightYellow; -pen CornflowerBlue; -pen rgbint(int r, int g, int b); -pen Coral; -pen MistyRose; -pen DarkSalmon; -pen DarkSeaGreen; -pen RoyalBlue; -pen DarkSlateBlue; -pen DarkSlateGray; -pen Turquoise; |