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Povray with Euler

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Functions to generate Povray files for the open Raytracer.

Functions for Povray

The Povray interface of Euler generates Povray files in the home directory of the user, and calls Povray to parse these files. The default file name is current.pov, and the default directory is eulerhome(), usually c:\Users\Username\Euler. Povray generates a PNG file, which can be loaded by Euler into a notebook. To clean up these files, use povclear().

You need to load the Povray commands with "load povray". There is an introduction notebook demonstrating the package.

For more information on the Povray povray project, see

Moreover, you need to install Povray (32bit or 64bit), and put the sub-directory "bin" of Povray into the environment path, or set the variable "defaultpovray" with full path pointing to "pvengine.exe".

The pov3d function is in the same spirit as plot3d. It can generate the graph of a function f(x,y), or a surface with coordinates X,Y,Z in matrices, including optional level lines. This function starts the raytracer automatically, and loads the scene into the Euler notebook.

Besides pov3d(), there are many functions, which generate Povray objects. These functions return strings, containing the Povray code for the objects. To use these functions, start the Povray file with povstart(). Then use writeln(...) to write the objects to the scene file. Finally, end the file with povend(). By default, the raytracer will start, and the PNG will be inserted into the Euler notebook.

The object functions have a parameter called "look", which needs a string with Povray code for the texture and the finish of the object. The function povlook() can be used to produce this string. It has parameters for the color, the transparency, Phong Shading etc.

Note that the Povray universe has another coordinate system. This interface translates all coordinates to the Povray system. So you can keep thinking in the Euler coordinate system with z pointing vertically upwards,a nd x,y,z axes in right hand sense.

For vectors you can always use a instead of [a,a,a], and the vector "povx" is defined as [1,0,0] etc.

function povrgb (c:integer, transparent=0)
  Color in rgb for Povray
  
  This function returns a string containing a color definition for
  Povray using "color rgb <r,g,b>". If transparent>0, "rgbf" will be
  used instead of "rgb".
  
  The function works for the 16 Euler colors or colors generated with
  rgb(r,g,b).
  
  See: 
povlook (Povray with Euler)
function povxyz ()
  povxyz(x,y,z), povxyz(v), povxyz(r) compute coordinates for Povray.
  
  This function is used by many of the Povray functions to translate
  coordinates to a string for Povray. Note that Povray coordinates
  are different from Euler coordinates. The horizontal plane is x-z
  in Povray, and x-y in Euler. This function takes care of that
  transformation.
  
  With one real argument a the vector [a,a,a] is used. Also the
  functions povx, povy, povz can be used for the coordinate axes, and
  povc for the coordinate center.
  
  The functions returns a string.
  
  See: 
povy (Povray with Euler),
povz (Povray with Euler),
povc (Povray with Euler)
function povx () := [1,0,0]; // x-axis
function povy () := [0,0,1]; // y-axis
function povz () := [0,1,0]; // z-axis
function povc () := [0,0,0]; // center
function writeCamera (aspect:positive number=1, anaglyph=0)
  Set the camera for Povray.
  
  This function need not be used directly. Use povstart() instead.
  The function writes the camera position to the output file for
  Povray.
  
  The current view is used to position the camera. To change the view
  use the view() function, or the zoom(), viewangle(), or
  viewheight(), viewdistance() service functions.
  
  The camera looks at the current center. To change this use the
  center() function.
  
  aspect :
  The image is assumed to be square. If not, change the aspect.
  
  anaglyph :
  If this is true the scene will be tilted with the default anaglyph
  separation times the anaglyph value. This is used in pov3d() and
  povanaglyph().
  
  See: 
povstart (Povray with Euler),
pov3d (Povray with Euler),
povanaglyph (Povray with Euler)
function writeAxis (t1:number, t2:number,
    delta:real vector=none, d:number=0.02,
    c:integer=gray, axis:integer=1, add:number=0.1)
  Axis for Povray
  
  Creates an axis in form of an arrow. This functions is used in
  pov3d to create all three axes.
  
  Since pov3d packs the scene into the unit cube, and scales the
  function, there is a translation vector delta.
  
  t1, t2 : left and right end of the axis
  delta : translate the axis using this vector (in Euler coordinates)
  d : thickness of the axis
  c : color of the axis
  axis : which axis 1=x, 2=y, 4=z
  add : additional length exceeding t1 an t2 on both sides
  
  See: 
pov3d (Povray with Euler)
function writeAxes (xmin=-1,xmax=1,ymin=-1,ymax=1,zmin=-1,zmax=1,
    delta:real vector=none, d:number=0.02,
    c:integer=gray, add:number=0.1)
  Write an axis System.
  
  The function expects the start and the end of each axis. For the
  other parameters see writeAxis(). It writes to the Povray file
  directly.
  
  Example:
  
  >povstart(zoom=4,center=[0,0,1/2],height=45?);
  >writeAxes(-1,1,-1,1,0,1.4,d=0.01);
  >writeln(povsphere([0,0,1/2],1/2,povlook(green,0.5)));
  >writeln(povpoint([0,0,1],povlook(gray),size=0.02));
  >povend();
  
  See: 
writeAxis (Povray with Euler)
function writeGlobal (c:integer=white, gamma=1.4)
  Write the global header.
  
  This is called automatically with povstart().
  
  Sets the color of the ambient light and the assumed gamma.
function writeBackground (c:integer=white)
  Write the background for the scene.
  
  This is called automatically with povstart().
  
  Sets the background color.
function writeLight (v:real vector=[2,3,4], c:integer=white,
    distance=none, shadow=true, fade=0)
  Write the light source.
  
  This is called automatically with povstart().
  
  The light source is in direction of the vector v. The distance of
  the light source is the distance in view (which is the distance of
  the camera).
  
  shadow=0 : produces no shadow in the scene.
function povray (filename=none, width:index=450, height:index=450,
    aspect:positive number=1, exit:integer=true)
  Start the Povray process.
  
  By default, this is called in povend().
  
  Start the Povray program. The program name is in the global
  variable "defaultpovray". The default filename current.pov in the
  user home directory is used if file==none.
  
  exit=false allows to keep the Povray window open. Euler will wait,
  until you close it.
  
  filename : The filename to be used (without .pov)
function povopen (filename)
  Open the povray file for writing.
  
  This is called in povstart().
  
  Do not forget to close it before you use the file. The povend()
  function closes the file automatically.
  
  See: 
open (Euler Core)
function povscalexyz (x,y,z)
  Scale x,y,z to fit into a unit cube.
  
  Return {x,y,z,f,cx,cy,cz}
  where f is the factor used, and cx,cy,cz is the new center of the
  coordinate system.
  
  See: 
pov3d (Povray with Euler)
function povscalef (x,y)
  Scale x,y to fit into a unit square.
  
  See: 
povscalexyz (Povray with Euler)
function povscalez (z)
  Scale z to fit into [-1,1]
  
function povload (file=none, anaglyph=false)
  Load the Povray image into the Notebook.
  
  By default, this is called in povend().
  
  file : If none, use defaultfile
function povstart (file=none,
    zoom=none, distance=none, angle=none, height=none,
    light:real vector=[2,2,4], lightcolor=white, background=white,
    aspect=1, shadow=true, center=[0,0,0],
    fade=0, anaglyph=0)
  Start a Povray scene.
  
  This function opens the file, and sets the scene, including light,
  camera and background.
  
  zoom, distance, angle, height : Change the view locally in this
  function. The angle is measured from the negative y-axis, as in
  plot3d() and view(). The height is from the x-y-plane. Both angles
  are in radians. Use angle=30? to convert.
  
  light, lightcolor : A vector to the light source and the color of
  the light.
  background : The background color
  aspect : The aspect ratio of your window. For square images use 1.
  Note that you need the same aspect in povend().
  shadow : A flag for shadows.
  center : The point, where the camera looks at. The camera itself is
  determined by the view.
  fade : If nonzero, fading with this exponential rate is used. The
  fading distance is the distance from the light to the center.
  
  See: 
povend (Povray with Euler),
view (Euler Core),
view (Plot Functions),
view (Maxima Documentation)
function povend (file=none, povray=true, w=450, h=450,
    aspect=1, exit=true, imgload=true)
  End a Povray scene
  
  Closes the scene file. By default, the Povray process will start,
  and the image will be loaded into the notebook.
  
  w,h,aspect :
  In combination determine the aspect ratio of your scene. Note that
  you need the same aspect as in povstart().
  
  exit : If false, the Povray window will not close automatically.
  
  imgload :
  If false, the image will not be loaded. You can then find the image
  in the Euler subdirectory of your home directory.
  
  >povstart(zoom=3.6,aspect=4/3);
  >writeln(povsphere([0,-1,0],1/2,povlook(gray)));
  >writeln(povsphere([0,1,0],1/2,povlook(gray)));
  >writeln(povsphere([0,0,0],1,povlook(green)));
  >povend(h=300,aspect=4/3);
  
  Or, if you want to insert the image later:
  
  >povend(h=400,aspect=4/3,<imgload); // make image
  >loadimg(defaultfile); // manually insert the image
  
  See: 
povstart (Povray with Euler)
function povanaglyph (scene$:string,
    file=none,
    zoom=none, distance=none, angle=none, height=none,
    light:real vector=[2,2,4], lightcolor=white, background=white,
    aspect=1, shadow=true, center=[0,0,0],
    fade=0,	w=450, h=450,
    aspect=1, exit=true, imgload=true)
  Create a red/cyan anaglyph
  
  Create an anaglyph with a scene, which is generated in the function
  scene. The Povray command runs twice, and generates two PNG files
  in the user directory. The parameters combine povstart and povend
  
  >function f() ...
  $  writeAxes(-1,1,-1,1,-1,1);
  $  writeln(povcylinder([-1,0,0],[1,0,0],1,povlook(lightblue,0.4)));
  $endfunction
  >povanaglyph("f");
  
  See: 
povstart (Povray with Euler),
povend (Povray with Euler)
function povlook (color=green, transparent=0, ambient=none,
    phong:real=none, phongsize:real=100,
    reflection=none, diffuse=none)
  Texture and finish of an object.
  
  Returns a string containing the Povray code for this texture and
  finish.
  
  color : the color of the object.
  transparent : If nonzero, the color will be transparent.
  ambient : The amount of ambient light to be used.
  phong, phongsize : If nonzero, a shining finish will be used.
  reflection : Makes the object reflect other objects.
  
  >povlook(green)
  >povlook(gray,0.5) // half transparent
  
  See: 
rgb (Plot Functions)
function povl () := povlook(args(1));
function writeTriangleMesh (x:real, y:real, z:real,
    look:string=defaultlook,
    xv:real=none, yv:real=none, zv:real=none,
    simple:integer=false)
  Mesh object with triangles
  
  Write a mesh object for the surface with coordinates x,y,z.
  The surface is formed of 4 triangles for each rectangular segment,
  connecting the corner to the average midpoint of the 4 points.
  The evaluation of x,y,z follows the matrix language of Euler.
  
  If normal vectors are present, the functions used two triangles in
  each matrix element, but adds the vectors to the scene.
  
  Note that this function does writeln() to the output file. If you
  need an object use povtriangles().
  
  See: 
povtriangles (Povray with Euler)
function povtriangles (x:real, y:real, z:real, look:string=defaultlook,
    xv:real=none, yv:real=none, zv:real=none, simple:integer=false,
    include=false)
  A mesh object
  
  Mesh objects are formed of hundreds of triangles. They cannot be
  stored in Euler strings. So this function write either to an
  include file and returns a #include statement. Or it writes to the
  scene file, and #declares an object there. Then it returns an
  object. Usually, it is not necessary to use an include file.
  
  For a description of the triangle mesh and the normal vectors, see
  writeTriangleMesh().
  
  See: 
writeTriangleMesh (Povray with Euler)
function povgrid (x:real, y:real, z:real,
    look:string=defaultlook, d=none, dballs=none,
    include=false, skip:positive integer vector=none)
  A mesh object
  
  Grid objects, like mesh objects, are formed of hundreds of
  triangles. They cannot be stored in Euler strings. So this function
  write either to an include file and returns a #include statement.
  Or it writes to the scene file, and #declares an object there. Then
  it returns an object. Usually, it is not necessary to use an
  include file.
  
  d, dballs : Diameter of grid and balls
  skip : Scalar or 1x2 vector. Skip rows and columns of the matrix.
  With this parameter, it is possible to generate a fine grid,
  but show only a few grid lines.
  
  
  Example:
  
  >povstart(center=[0,0,1],zoom=3.5);
  >x=-1:0.05:1; y=x';
  >writeln(povgrid(x,y,x^2+y^2,skip=5,d=0.01,dballs=0.02));
  >povend();
  
  See: 
povtriangles (Povray with Euler)
function povbox (P1: real vector, P2: real vector,
    look:string=defaultlook)
  A box with these two corners.
  
  The box parallel to the axes. If you need rotated box, use an
  object containing the box, and the rotation parameter.
  
  >povstart();
  >writeln(povobject(povbox([-1,-1,-1],[1,1,1]),rotate=xrotate(-20?)));
  >povend();
  
function povcylinder (P1: real vector, P2: real vector,
    r: number, look:string=defaultlook, open:integer=false)
  A cylinder with these two ends and radius
function povdisc (P: real vector, v: real vector, r:number,
    d: number=none, look:string=defaultlook)
  A disc with center, normal and radius
  
  If d==none the disc uses defaultpointsize for its thickness.
function povintersection (v:string vector, look:string=defaultlook)
  Intersection of the objects in v
  
  v : a vector of string, containing the objects.
function povunion (v:string vector, look:string=defaultlook)
  Union of the objects in v
  
  v : a vector of strings, containing the objects.
function povmerge (v:string vector, look:string=defaultlook)
  Merge of the objects in v
  
  Merging removes the inner boundaries
  
  v : a vector of strings, containing the objects.
  
  See: 
povunion (Povray with Euler),
povintersection (Povray with Euler)
function povdifference (v1:string, v2: string,
    look:string=defaultlook)
  v1 minus v2
function povcone (P1: real vector, r1: number,
    P2: real vector, r2: number, look:string=defaultlook)
  A cone with these two ends and radii.
function povsphere (P: real vector, r: number,
    look:string=defaultlook)
  A sphere with midpoint and radius.
function povtext (s:string, P:real vector, look:string=defaultlook,
    d:number=none, size:number=none, font="timrom.ttf",
    rotate:number=0�)
  Text object at position P
  
  d : thickness of the text
  size : height of the text
  font : text font name
  rotate : rotation around vertical axis
function povplane (P: real vector, d: number,
    look:string=defaultlook, clippedby:string=none)
  A plane with a'.v=d, a=[x,y,z].
  
  Note that the plane is really a half space, unless it is clipped.
  For clipping use any full object.
function povpoint (P: real vector,
    look:string=defaultlook, size:number=none)
  A point
  
  The size will be the radius of the sphere. By default it is the
  defaultpointsize.
  
  >povstart(zoom=2,center=[0,0,-1]);
  >X=randnormal(3,100,0,1/2);
  >loop 1 to cols(X); writeln(povpoint([X[1,#],X[2,#],X[3,#]],povlook(red))); end;
  >writeln(povdisc([0,0,-3],[0,0,1],2));
  >writeAxis(-3,1,axis=3);
  >povend();
function povsegment (P1: real vector, P2: real vector,
    look:string=defaultlook, size=none)
  A line segment between the two points
function povarrow (x: real vector, v: real vector,
    look:string=defaultlook, d:number=none)
  An arrow
  
  d : The thickness of the arrow. By default, this is the
  defaultpointsize
function povdefine (a:string, b: string)
  Declares an object in Povray
  
  Sometimes, you wish to define an object in Povray, not in an Euler
  string. You can later use the object by name. You can also define
  other things, like finishes in Povray.
function xrotate (a) := " rotate "+deg(a)+" *x "
function yrotate (a) := " rotate "+deg(a)+" *z "
function zrotate (a) := " rotate "+deg(a)+" *y "
function povobject (object:string, look:string="",
    translate=none, rotate=none, scale=none)
  Povray object containing another object
  
  scale : A vector or a scalar to stretch the object. If a vector is
  used its coordinates are the factors in each of the three
  directions.
  rotate : The rotation parameter. This can be a vector, which
  contains the rotations around the x, y, and z axis in this order.
  The values must be in radians. Usually, you want to use the
  functions xrotate(a), yrotate(a), zrotate(a), which return
  strings. These strings can be concatenated for the rotation
  parameter.
  translate : A vector for the translation.
  
  Example:
  
  >povstart();
  >writeAxes(-1,1,-1,1,-1,1);
  >sph=povsphere([0,0,0],1);
  >rot=xrotate(10?)+yrotate(45?);
  >tr=[0,0,-1/2];
  >writeln(povobject(sph,scale=[2,1,0.2],rotate=rot,translate=tr));
  >povend();
  
function povsurface (f:string, look:string=defaultlook,
    container:string=none, maxgradient=5, open=true)
  Implicit surface
  
  The surface is defined by f(x,y,z)=0.
  
  f : Contains the formula f. Povray uses a different syntax for
  mathematical functions. E.g., pow(x,2) must be used instead
  of x^2. Please refer to a Povray manual. The file functions.inc is
  #included in povstart().
  
  maxgradient : If 5 is too low and the surface looks ugly, use a
  higher value at the cost of increased time.
  
  open : If false, the cube will be filled between the surface and
  the cube. Effectively, the set where the function <=0 will be
  visible.
  
  container : A box containing the surface. Default is
  povbox(-1,1,"").
  
  Example:
  
  >povstart();
  >writeln(povsurface("pow(x,4)+pow(y,6)+pow(z,2)-1"));
  >writeAxes();
  >povend();
function povclear ()
  Remove all temporary Povray files.
function pov3d (x, y=none, z=none,
    xmin:number=-1, xmax:number=1, ymin:number=-1, ymax:number=1,
    r:number=none, n:index=40,
    file=none, axis:integer=7,
    look:string=none, axiscolor:integer=gray,
    zoom=none, distance=none, angle=none, height=none,
    light:real vector=[2,3,4], lightcolor=white, background=white,
    povray=true, w=450, h=450,
    shadow=true, center=[0,0,0], fade=0,
    xv:real=none, yv:real=none, zv:real=none,
    level:real vector=none, dlevel=0.02, levellook:string=none,
    add=none, loadimg=true, anaglyph=false, fscale=true, scale=true)
  Multi-purpose function to plot 3D in Povray
  
  pov3d("f(x,y)") : plots a function
  pov3d(x,y,z) : plots a surface given by x,y,z
  
  xmin,xmax,ymin,ymax : range x and y
  n : resolution for x and y
  r : alternatively radius for quadratic or polar plots
  cx, cy, cz : center for r
  file : used, if not the defaultfile="current" (without .pov)
  color : color of the plot
  axis : 1,2,4 or sum of these for x, y, z axis
  axiscolor : color of axis
  zoom, distance, angle, height : see view()
  light : direction vector to the light source
  lightcolor : color of the light
  background : color of the background
  povray : if true, the Povray program is called
  w, h : size of png
  loadimg : if false, the image is not loaded into the notebook.
  add : one Povray object to add
  
  >pov3d("x^3+y^2",angle=-80?, ...
  >  level=-2:0.2:2,dlevel=0.01,levellook=povlook(red), ...
  >  add=povtext("z=x^3+y^2",[0,-0.2,1.2],size=0.06,rotate=-90�), ...
  >  zoom=4);
  
  See: 
view (Euler Core),
view (Plot Functions),
view (Maxima Documentation)

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