Re: [NTG-context] Setting to help with overflow in Metapost

[Hans Hagen]

[EMAIL PROTECTED] wrote:
 All,

 This code is causing an overflow. Isn't there a setting that will allow 
 bigger numbers? 
   
4096bp is the default max with (in metafun) 32K being the insecure max; next 
year there will be a metapost that has a higher limit 

Hans 

-
  Hans Hagen | PRAGMA ADE
  Ridderstraat 27 | 8061 GH Hasselt | The Netherlands
 tel: 038 477 53 69 | fax: 038 477 53 74 | www.pragma-ade.com
 | www.pragma-pod.nl
-

___
ntg-context mailing list
ntg-context@ntg.nl
http://www.ntg.nl/mailman/listinfo/ntg-context

Re: [NTG-context] Setting to help with overflow in Metapost

[Taco Hoekwater]

[EMAIL PROTECTED] wrote:
 All,
 
 This code is causing an overflow. Isn't there a setting that will allow 
 bigger numbers? 

That is not possible, I'm afraid.

There is actually a macro file that uses logarithmic numbers and
another one using strings as numbers, but neither can be used without
extensive changes to your code. My suggestion would be to use
gnuplot.

Greetings, taco
___
ntg-context mailing list
ntg-context@ntg.nl
http://www.ntg.nl/mailman/listinfo/ntg-context

[NTG-context] Setting to help with overflow in Metapost

[dwarnold45]

All,

This code is causing an overflow. Isn't there a setting that will allow bigger 
numbers? 

I am not looking for more code and/or rescaling code, but a setting that I know 
is there that will allow larger numbers.
%mode=short

\startcomponent section1exercises

\project book
\product chapter5/chapter5

\usemodule[newmat]
\usemodule[math=ext]
\usemodule[fig-base]
\usefigurebase[figures/figlibSection1]

\setupheadnumber[chapter][6]
\setupheadnumber[section][1]

\def\qor{\quad\text{or}\quad}
\def\qqor{\qquad\text{or}\qquad}
\def\qand{\quad\text{and}\quad}
\def\qqand{\qquad\text{and}\qquad}

\setupcolors[state=start]

\definecolor[gridlines][s=0.7]

\startMPinclusions

color mygridcolor; mygridcolor=\MPcolor{gridlines};
color gridlines; gridlines:=\MPcolor{gridlines};

def vtick(expr pos)=
 draw ((0,-3)--(0,3)) shifted pos;
enddef;

def htick(expr pos)=
 draw ((-3,0)--(3,0)) shifted pos;
enddef;

def opendot(expr pos)=
 fill fullcircle scaled 4pt shifted pos withcolor white;
 draw fullcircle scaled 4pt shifted pos withcolor red;
enddef;

def filleddot(expr pos)=
 fill fullcircle scaled 4pt shifted pos withcolor red;
 draw fullcircle scaled 4pt shifted pos withcolor red;
enddef;
\stopMPinclusions

\startuseMPgraphic{55_grid}
  for k=-5u step 1u until 5u:
   draw (k,-5u)--(k,5u) withcolor gridlines;
   draw (-5u,k)--(5u,k) withcolor gridlines;
  endfor;
\stopuseMPgraphic

\startuseMPgraphic{55_xy_axes}
 drawdblarrow (-5u,0)--(5u,0);
 label.rt(btex $\tfx x$ etex, (5u,0));
 label.bot(btex $\tfx 5$ etex, (5u,0));
 drawdblarrow (0,-5u)--(0,5u);
 label.top (btex $\tfx y$ etex, (0,5u));
 label.lft(btex $\tfx 5$ etex, (0,5u));
\stopuseMPgraphic

\startuseMPgraphic{1010_grid}
  for k=-10u step 1u until 10u:
   draw (k,-10u)--(k,10u) withcolor gridlines;
   draw (-10u,k)--(10u,k) withcolor gridlines;
  endfor;
\stopuseMPgraphic

\startuseMPgraphic{1010_xy_axes}
 drawdblarrow (-10u,0)--(10u,0);
 label.rt(btex $\tfx x$ etex, (10u,0));
 label.bot(btex $\tfx 10$ etex, (10u,0));
 drawdblarrow (0,-10u)--(0,10u);
 label.top (btex $\tfx y$ etex, (0,10u));
 label.lft(btex $\tfx 10$ etex, (0,10u));
\stopuseMPgraphic

\startuseMPgraphic{1010_xy_axes_ti}
 drawdblarrow (-10u,0)--(10u,0);
 label.rt(btex $\tfx x$ etex, (10u,0));
 label.bot(btex $\tfx 10$ etex, (10u,0));
 label.bot(btex $\tfx -10$ etex, (-10u,0));
 drawdblarrow (0,-10u)--(0,10u);
 label.top (btex $\tfx y$ etex, (0,10u));
 label.lft(btex $\tfx 10$ etex, (0,10u));
 label.lft(btex $\tfx -10$ etex, (0,-10u));
\stopuseMPgraphic

\startuseMPgraphic{05_grid}
  for k=0 step 1u until 5u:
   draw (k,0)--(k,5u) withcolor gridlines;
   draw (0,k)--(5u,k) withcolor gridlines;
  endfor;
\stopuseMPgraphic

\startuseMPgraphic{05_xy_axes}
 drawarrow (0,0)--(5u,0);
 label.rt(btex $\tfx x$ etex, (5u,0));
 label.bot(btex $\tfx 5$ etex, (5u,0));
 drawarrow (0,0)--(0,5u);
 label.top (btex $\tfx y$ etex, (0,5u));
 label.lft(btex $\tfx 5$ etex, (0,5u));
\stopuseMPgraphic


\startquestions

% Exercise #29
\beginquestion
\startquestion[ex:secqu.29]
  $p(x)=-x^6-4x^5+27x^4+78x^3+4x^2+376x-480$
\stopquestion
\endquestion

\beginlonganswer
\startanswer
%\startlinecorrection[blank]
%\midaligned{\externalfigure[q25v][width=0.4\textwidth]}
%\midaligned{\externalfigure[q25][width=0.4\textwidth]}
%\stoplinecorrection
\stopanswer
\endlonganswer

\beginshortanswer
\startanswer
Note that the leading term $-x^6$ (dashed) has the same end-behavior as the 
polynomial $p$.

\startbuffer

  %initialize scale and draw axes
  numeric u; 20ux=2in; 1uy=2in;
  drawdblarrow (-10ux,0)--(10ux,0);
  label.rt(btex $\tfx x$ etex, (10ux,0));
  label.bot(btex $\tfx -10$ etex, (-10ux,0));
  label.bot(btex $\tfx 10$ etex, (10ux,0));
  drawdblarrow (0,-5000uy)--(0,5000uy);
  label.top(btex $\tfx y$ etex, (0,5000uy));
  label.lft(btex $\tfx -5000$ etex, (0,-5000uy));
  label.lft(btex $\tfx 15$ etex, (0,5000uy));


  %leading term
  vardef lead(expr x)=
   -1*x*x*x*x*x*x
  enddef;

  %polynomial
  vardef p(expr x)=
   -1*x**6-4*x**5+27*x**4+78*x**3+4*x**2+376*x-480
  enddef;

  %path p_lead
  path p_lead;
  p_lead:=(-4.1352,lead(-4.1352));
  for x=-4.1352 step .1 until 4.1252:
   p_lead:=p_lead--(x,lead(x));
  endfor;
  p_lead:=p_lead--(4.1252,lead(4.1252));
  p_lead:=p_lead xyscaled(ux,uy);
  draw p_lead dashed evenly withcolor red;

  %path p_p
  path p_p;
  p_p:=(-6.5009,p(-6.5009));
  for x=-6.5009 step .1 until 5.3356 :
   p_p:=p_p--(x,p(x));
  endfor;
  p_p:=p_p--( 5.3356 ,p(5.3356));
  p_p:=p_p xyscaled(ux,uy);
  drawdblarrow p_p withcolor blue;
  label.rt(btex $\tfx p(x)=-x^6-4x^5+27x^4+78x^3+4x^2+376x-480$ etex, (5.3356 
,p(5.3356 )) xyscaled(ux,uy));
\stopbuffer

\startlinecorrection[blank]
  \midaligned{\processMPbuffer}
\stoplinecorrection

\stopanswer
\endshortanswer


% Exercise #30
\beginquestion
\startquestion[ex:secqu.30]
  $p(x)=2x^4-3x^3+x-10$
\stopquestion
\endquestion

\beginlonganswer[-]
\startanswer
\stopanswer
\endlonganswer

\beginshortanswer[-]
\startanswer
\stopanswer
\endshortanswer